Patent Publication Number: US-8989895-B2

Title: Substance control system and method for dispensing systems

Description:
CROSS-REFERENCE TO RELATED APPLICATIONS 
     The present application is related to and claims the benefit of the earliest available effective filing date(s) from the following listed application(s) (the “Related Applications”) (e.g., claims earliest available priority dates for other than provisional patent applications or claims benefits under 35 USC §119(e) for provisional patent applications, for any and all parent, grandparent, great-grandparent, etc. applications of the Related Application(s)). All subject matter of the Related Applications and of any and all parent, grandparent, great-grandparent, etc. applications of the Related Applications is incorporated herein by reference to the extent such subject matter is not inconsistent herewith. 
     RELATED APPLICATIONS 
     For purposes of the USPTO extra-statutory requirements, the present application constitutes a continuation-in-part of U.S. patent application Ser. No. 13/199,361, entitled CONTROLLED SUBSTANCE AUTHORIZATION SYSTEM AND METHOD FOR INGESTIBLE PRODUCT PREPARATION SYSTEM AND METHOD, naming Paul Holman, Royce A. Levien, Mark A. Malamud, Neal Stephenson, and Christopher Charles Young as inventors, filed 26 Aug. 2011, which is currently co-pending or is an application of which a currently co-pending application is entitled to the benefit of the filing date. 
     For purposes of the USPTO extra-statutory requirements, the present application constitutes a continuation-in-part of U.S. patent application Ser. No. 13/199,481, entitled CONTROLLED SUBSTANCE AUTHORIZATION SYSTEM AND METHOD FOR INGESTIBLE PRODUCT PREPARATION SYSTEM AND METHOD, naming Paul Holman, Royce A. Levien, Mark A. Malamud, Neal Stephenson, and Christopher Charles Young as inventors, filed 30 Aug. 2011, which is currently co-pending or is an application of which a currently co-pending application is entitled to the benefit of the filing date. 
     For purposes of the USPTO extra-statutory requirements, the present application constitutes a continuation-in-part of U.S. patent application Ser. No. 13/199,544, entitled REPORTING SYSTEM AND METHOD FOR INGESTIBLE PRODUCT PREPARATION SYSTEM AND METHOD, naming Paul Holman, Royce A. Levien, Mark A. Malamud, Neal Stephenson, and Christopher Charles Young as inventors, filed 31 Aug. 2011, which is currently co-pending or is an application of which a currently co-pending application is entitled to the benefit of the filing date. 
     For purposes of the USPTO extra-statutory requirements, the present application constitutes a continuation-in-part of U.S. patent application Ser. No. 13/199,545, entitled REPORTING SYSTEM AND METHOD FOR INGESTIBLE PRODUCT PREPARATION SYSTEM AND METHOD, naming Paul Holman, Royce A. Levien, Mark A. Malamud, Neal Stephenson, and Christopher Charles Young as inventors, filed 31 Aug. 2011, which is currently co-pending or is an application of which a currently co-pending application is entitled to the benefit of the filing date. 
     For purposes of the USPTO extra-statutory requirements, the present application constitutes a continuation of U.S. patent application Ser. No. 13/200,113, entitled SUBSTANCE CONTROL SYSTEM AND METHOD FOR DISPENSING SYSTEMS, naming Paul Holman, Royce A. Levien, Mark A. Malamud, Neal Stephenson, and Christopher Charles Young as inventors, filed 16 Sep. 2011 now U.S. Pat. No. 8,892,249, which is currently co-pending or is an application of which a currently co-pending application is entitled to the benefit of the filing date. 
    
    
     SUMMARY 
     A method includes, but is not limited to electronically receiving status information regarding a particular ingestible material portion as related to a first engagement of an automated dispensing system with at least one manufacture, the first engagement occurring during a first condition including the at least one manufacture being united with the particular ingestible material portion, the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion for dispensing of the particular ingestible material portion, the electronically receiving status information to receive status information influenced by whether any disengagements of the automated dispensing system from the at least one manufacture occur during the first condition prior to the first engagement, the at least one manufacture arranged to inhibit access to the particular ingestible material portion prior to any engagements of the automated dispensing system with the at least one manufacture during the first condition and arranged to inhibit access to the particular ingestible material portion by other than the automated dispensing system during engagement of the automated dispensing system with the at least one manufacture during the first condition; and electronically outputting selection information associated with the particular ingestible material portion including information related to the received status information regarding the particular ingestible material portion and associated with ingestible material other than that associated with the particular ingestible material portion subsequent to electronically receiving the status information regarding the particular ingestible material portion. 
     In one or more various aspects, related machines, compositions of matter, or manufactures of systems may include, but are not limited to, virtually any combination of hardware, software, and/or firmware configured to effect the herein-referenced method aspects depending upon the design choices of the system designer (limited to patentable subject matter under 35 USC 101). 
     A system includes, but is not limited to: means for electronically receiving status information regarding a particular ingestible material portion as related to a first engagement of an automated dispensing system with at least one manufacture, the first engagement occurring during a first condition including the at least one manufacture being united with the particular ingestible material portion, the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion for dispensing of the particular ingestible material portion, the electronically receiving status information to receive status information influenced by whether any disengagements of the automated dispensing system from the at least one manufacture occur during the first condition prior to the first engagement, the at least one manufacture arranged to inhibit access to the particular ingestible material portion prior to any engagements of the automated dispensing system with the at least one manufacture during the first condition and arranged to inhibit access to the particular ingestible material portion by other than the automated dispensing system during engagement of the automated dispensing system with the at least one manufacture during the first condition; and means for electronically outputting selection information associated with the particular ingestible material portion including information related to the received status information regarding the particular ingestible material portion and associated with ingestible material other than that associated with the particular ingestible material portion subsequent to electronically receiving the status information regarding the particular ingestible material portion. In addition to the foregoing, other system aspects are described in the claims, drawings, and text forming a part of the present disclosure. 
     A system includes, but is not limited to a receiving status information electrical circuitry arrangement for electronically receiving status information regarding a particular ingestible material portion as related to a first engagement of an automated dispensing system with at least one manufacture, the first engagement occurring during a first condition including the at least one manufacture being united with the particular ingestible material portion, the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion for dispensing of the particular ingestible material portion, the electronically receiving status information to receive status information influenced by whether any disengagements of the automated dispensing system from the at least one manufacture occur during the first condition prior to the first engagement, the at least one manufacture arranged to inhibit access to the particular ingestible material portion prior to any engagements of the automated dispensing system with the at least one manufacture during the first condition and arranged to inhibit access to the particular ingestible material portion by other than the automated dispensing system during engagement of the automated dispensing system with the at least one manufacture during the first condition; and a outputting selection information electrical circuitry arrangement for electronically outputting selection information associated with the particular ingestible material portion including information related to the received status information regarding the particular ingestible material portion and associated with ingestible material other than that associated with the particular ingestible material portion subsequent to electronically receiving the status information regarding the particular ingestible material portion. In addition to the foregoing, other system aspects are described in the claims, drawings, and text forming a part of the present disclosure. 
     An article of manufacture including a non-transitory signal-bearing storage medium bearing one or more instructions for electronically receiving status information regarding a particular ingestible material portion as related to a first engagement of an automated dispensing system with at least one manufacture, the first engagement occurring during a first condition including the at least one manufacture being united with the particular ingestible material portion, the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion for dispensing of the particular ingestible material portion, the electronically receiving status information to receive status information influenced by whether any disengagements of the automated dispensing system from the at least one manufacture occur during the first condition prior to the first engagement, the at least one manufacture arranged to inhibit access to the particular ingestible material portion prior to any engagements of the automated dispensing system with the at least one manufacture during the first condition and arranged to inhibit access to the particular ingestible material portion by other than the automated dispensing system during engagement of the automated dispensing system with the at least one manufacture during the first condition; and one or more instructions for electronically outputting selection information associated with the particular ingestible material portion including information related to the received status information regarding the particular ingestible material portion and associated with ingestible material other than that associated with the particular ingestible material portion subsequent to electronically receiving the status information regarding the particular ingestible material portion. In addition to the foregoing, other computer program product aspects are described in the claims, drawings, and text forming a part of the present disclosure. 
     The foregoing summary is illustrative only and is not intended to be in any way limiting. In addition to the illustrative aspects, embodiments, and features described above, further aspects, embodiments, and features will become apparent by reference to the drawings and the following detailed description. 
    
    
     
       BRIEF DESCRIPTION OF THE FIGURES 
         FIG. 1  is a schematic diagram depicting a first exemplary implementation of a substance control dispensing system  10 . 
         FIG. 2  is an enlarged view of a portion of the dispensing control system depicted as part of the substance control dispensing system  10  in  FIG. 1 . 
         FIG. 3  is an exploded view of the portion of the dispensing control system depicted as part of the substance control dispensing system  10  in  FIG. 1 . 
         FIG. 4  is a schematic diagram depicting a first exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 5  is a cross-sectional view of the first exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 6  is a cross-sectional view of the first exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 7  is a schematic diagram depicting a second exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 8  is a cross-sectional view of the second exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 9  is a cross-sectional view of the second exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 10  is a schematic diagram depicting a third exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 11  is a cross-sectional view of the third exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 12  is a cross-sectional view of the third exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 13  is a schematic diagram depicting a fourth exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 14  is a cross-sectional view of the fourth exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 15  is a cross-sectional view of the fourth exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 16  is a schematic diagram depicting a fifth exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 17  is a cross-sectional view of the fifth exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 18  is a cross-sectional view of the fifth exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 19  is a schematic diagram depicting a sixth exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 20  is a cross-sectional view of the sixth exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 21  is a cross-sectional view of the sixth exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 22  is a schematic diagram depicting a seventh exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 23  is a cross-sectional view of the seventh exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 24  is a cross-sectional view of the seventh exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 25  is a schematic diagram depicting a eighth exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 26  is a cross-sectional view of the eighth exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 27  is a cross-sectional view of the eighth exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 28  is a schematic diagram depicting a ninth exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 29  is a cross-sectional view of the ninth exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 30  is a cross-sectional view of the ninth exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 31  is a schematic diagram depicting a tenth exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 32  is a cross-sectional view of the tenth exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 33  is a cross-sectional view of the tenth exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 34  is a schematic diagram depicting a eleventh exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 35  is a cross-sectional view of the eleventh exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 36  is a cross-sectional view of the eleventh exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 37  is a block diagram depicting an exemplary implementation of the substance control dispensing system  10  including exemplary subsystems of  FIG. 1 . 
         FIG. 38  is a block diagram depicting a control and information processing subsystem s 100  of an exemplary implementation of the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 39  is a block diagram depicting an information storage subsystem s 200  of an exemplary implementation of the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 40  is a block diagram depicting an information user interface subsystem s 300  of an exemplary implementation of the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 41  is a block diagram depicting a sensing subsystem s 400  of an exemplary implementation of the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 42  is a block diagram depicting an electronic communication subsystem s 500  of an exemplary implementation of the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 43  is a block diagram depicting a power subsystem s 600  of an exemplary implementation of the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 44  is a block diagram depicting a material processing subsystem s 700  of an exemplary implementation of the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 45  is a block diagram depicting one or more exemplary electrical circuitry arrangements of the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 46  is a block diagram depicting one or more exemplary electrical circuitry arrangements of the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 47  is a block diagram depicting one or more exemplary electrical circuitry arrangements of the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 48  is a block diagram depicting one or more exemplary electrical circuitry arrangements of the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 49  is a block diagram depicting one or more exemplary electrical circuitry arrangements of the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 50  is a block diagram depicting one or more exemplary electrical circuitry arrangements of the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 51  is a block diagram depicting one or more exemplary instructions of the information storage subsystem s 200  of the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 52  is a block diagram depicting one or more exemplary instructions of the information storage subsystem s 200  of the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 53  is a block diagram depicting one or more exemplary instructions of the information storage subsystem s 200  of the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 54  is a block diagram depicting one or more exemplary instructions of the information storage subsystem s 200  of the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 55  is a block diagram depicting one or more exemplary instructions of the information storage subsystem s 200  of the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 56  is a block diagram depicting one or more exemplary instructions of the information storage subsystem s 200  of the substance control dispensing system  10  of  FIG. 1 . 
         FIG. 57  is a high-level flowchart illustrating an operational flow o 10  representing exemplary operations related to electronically receiving status information regarding a particular ingestible material portion as related to a first engagement of an automated dispensing system with at least one manufacture, the first engagement occurring during a first condition including the at least one manufacture being united with the particular ingestible material portion, the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion for dispensing of the particular ingestible material portion, the electronically receiving status information to receive status information influenced by whether any disengagements of the automated dispensing system from the at least one manufacture occur during the first condition prior to the first engagement, the at least one manufacture arranged to inhibit access to the particular ingestible material portion prior to any engagements of the automated dispensing system with the at least one manufacture during the first condition and arranged to inhibit access to the particular ingestible material portion by other than the automated dispensing system during engagement of the automated dispensing system with the at least one manufacture during the first condition, and electronically outputting selection information associated with the particular ingestible material portion including information related to the received status information regarding the particular ingestible material portion and associated with ingestible material other than that associated with the particular ingestible material portion subsequent to electronically receiving the status information regarding the particular ingestible material portion at least associated with the depicted exemplary implementations of the system. 
         FIG. 58  is a high-level flowchart including exemplary implementations of operation O 11  of  FIG. 57 . 
         FIG. 59  is a high-level flowchart including exemplary implementations of operation O 11  of  FIG. 57 . 
         FIG. 60  is a high-level flowchart including exemplary implementations of operation O 11  of  FIG. 57 . 
         FIG. 61  is a high-level flowchart including exemplary implementations of operation O 11  of  FIG. 57 . 
         FIG. 62  is a high-level flowchart including exemplary implementations of operation O 11  of  FIG. 57 . 
         FIG. 63  is a high-level flowchart including exemplary implementations of operation O 11  of  FIG. 57 . 
         FIG. 64  is a high-level flowchart including exemplary implementations of operation O 11  of  FIG. 57 . 
         FIG. 65  is a high-level flowchart including exemplary implementations of operation O 11  of  FIG. 57 . 
         FIG. 66  is a high-level flowchart including exemplary implementations of operation O 11  of  FIG. 57 . 
         FIG. 67  is a high-level flowchart including exemplary implementations of operation O 11  of  FIG. 57 . 
         FIG. 68  is a high-level flowchart including exemplary implementations of operation O 11  of  FIG. 57 . 
         FIG. 69  is a high-level flowchart including exemplary implementations of operation O 11  of  FIG. 57 . 
         FIG. 70  is a high-level flowchart including exemplary implementations of operation O 11  of  FIG. 57 . 
         FIG. 71  is a high-level flowchart including exemplary implementations of operation O 11  of  FIG. 57 . 
         FIG. 72  is a high-level flowchart including exemplary implementations of operation O 11  of  FIG. 57 . 
         FIG. 73  is a high-level flowchart including exemplary implementations of operation O 11  of  FIG. 57 . 
         FIG. 74  is a high-level flowchart including exemplary implementations of operation O 11  of  FIG. 57 . 
         FIG. 75  is a high-level flowchart including exemplary implementations of operation O 11  of  FIG. 57 . 
         FIG. 76  is a high-level flowchart including exemplary implementations of operation O 12  of  FIG. 57 . 
         FIG. 77  is a high-level flowchart including exemplary implementations of operation O 12  of  FIG. 57 . 
         FIG. 78  is a high-level flowchart including exemplary implementations of operation O 12  of  FIG. 57 . 
     
    
    
     DETAILED DESCRIPTION 
     In the following detailed description, reference is made to the accompanying drawings, which form a part hereof. In the drawings, similar symbols typically identify similar components, unless context dictates otherwise. The illustrative embodiments described in the detailed description, drawings, and claims are not meant to be limiting. Other embodiments may be utilized, and other changes may be made, without departing from the spirit or scope of the subject matter presented here. 
     Generally, automated and semi-automated machines to make, manufacture, fabricate, or otherwise prepare and/or dispense ingestible products to be ingested by living beings such as humans, animals, plants, etc are known to a degree with interest existing for future development as well. Automated and semi-automated preparation of the ingestible products can incorporate all known forms of preparation of food and other ingestible products including but not limited to all known forms of energy addition to one or more ingredients of the ingestible products (such as through various forms of thermal heating or adding microwave, infrared, or ultrasonic energy), extracting energy from one or more ingredients of the ingestible products (such as through thermodynamic-cycle based cooling or peltier cooling), deposition methods (including deposition by layering or at the pixel level), and combinational methods (such as blending, mixing, ingredient injection, kneading, stirring, ultrasonic agitation, other agitational methods, etc.), etc. 
     Although ingestible products made, fabricated, or otherwise prepared and/or dispensed by semi-automated and automated machines are presently limited in scope to a degree, it is envisioned that with future development, this will change. Ingestible products can take many forms including, but not limited to, solids, semi-solids, liquids, gases, dispersions (such as true solutions, colloid dispersions, emulsions, foams, and gels) and vast combinations thereof. Ingestion by the living beings can occur through many pathways including, but not limited to, oral ingestion, transdermal ingestion, peg-tube ingestion, nasal ingestion, anal ingestion, injectable ingestion, tear-duct ingestion, and respiratory ingestion. 
     As depicted in  FIG. 1 , an exemplary implementation of an substance control dispensing system  10  is shown to dispense (and in some implementations to prepare) ingestible products such as a liquid drink  12  to be consumed by a particular individual living being, such as a human being  14  shown. Other sorts of ingestible products can include but are not limited to food bars, meal replacements, snacks, full meals, plant and/or animal based products, nutraceuticals, pharmaceuticals, smoothies, etc. The substance control dispensing system  10  is further depicted as showing selection indicators to inform users, such as the human being  14 , what ingestible products are available to be dispensed. The selection indicators  20  or other display devices can display selection information including origin, type, certification, classification, etc. of ingestible ingredients and/or products available including information related to various implementations of substance control methods, systems, and articles of manufacture disclosed herein and discussed further below. Substance control methods and systems can be included with operation of the substance control dispensing system  10  to allow authorities and others to control substances supplied to be dispensed. Authorities can include but are not limited to pharmacists, nutritionists, health care centers, hospitals, fitness centers, other health care providers, growers, food distributors, manufacturers, etc. Substance control methods and systems allow for control of access to substances from point of origin to delivery into and dispensing by the substance control dispensing system  10  thereby increasing confidence toward the integrity in labeling of ingestible products to be dispensed. 
     As shown in  FIGS. 1-3 , a representative controlled substance containing assembly  22  is secured by seal  32  to keep the contents therein from being tampered with. An additional seal  34  is used to secure the controlled substance containing assembly  22  as it is coupled with a controlled substance receiving assembly  37  of the substance control dispensing system  10 . The seals  34  and  37  are used to hinder unauthorized access to the ingestible material contents of the controlled substance containing assembly  22 . Also shown in  FIG. 2 , the seal  34  have identification information  38  and seal  34  has identification information  40  that can be used by the substance control dispensing system  10  to provide status information on the ingestible products through the selection indicators  20 . 
     As shown in  FIGS. 4-6 , a first exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1  is depicted as holding ingestible material  42  with containing assembly  44  including container  46  with pierceable lid  50  integrated with electronic memory  52  that retains status information about the containing assembly. As the containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  56  pierces lid  50  allowing ingestible material  42  to be collected through orifice  58  as encouraged by gravity, vacuum, or other means of force. Piercing of lid  50  is noted by an update to memory  52 , which is read by receiver  54  with the information being passed on through the substance control dispensing system  10  to be reported through one or more of selection indictors  20 . 
     As shown in  FIGS. 7-9 , a second exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1  is depicted as holding ingestible material  42  with containing assembly  44  including container  46  with pierceable side portion  62  integrated with electronic memory  52  that retains status information about containing assembly. As containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  60  pierces side portion  62  allowing ingestible material  42  to flow through orifice  64  to be dissolved in solution  63  held in chamber  65 . Piercing of side portion  62  is noted by an update to memory  52 , which is read by receiver  54  with information being passed on through the substance control dispensing system  10  to be reported through one or more of the selection indictors  20 . 
     As shown in  FIGS. 10-12 , a third exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1  is depicted as holding ingestible material  42  with containing assembly  44  including container  46  with sliding barrier  68  integrated with electronic memory  52  that retains status information about the containing assembly. As containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  66  pushes on sliding barrier  68  allowing ingestible material  42  to flow through orifice  70  to be poured into chamber  71  thereby mixing with other ingestible material  69 . Sliding of sliding barrier  68  is noted by an update to the memory  52 , which is read by receiver  54  with the information being passed on through the substance control dispensing system  10  to be reported through one or more of selection indictors  20 . 
     As shown in  FIGS. 13-15 , a fourth exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1  is depicted as holding ingestible material  42  with containing assembly  44  including container  46  with hinged lid  74  integrated with electronic memory  52  that retains status information about the containing assembly. As containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  72  opens hinged lid  74  allowing ingestible material  42  to be collected through orifice  76  as encouraged by gravity, vacuum, or other means of force. Opening of hinged lid  74  is noted by an update to memory  52 , which is read by receiver  54  with the information being passed on through the substance control dispensing system  10  to be reported through one or more of selection indictors  20 . 
     As shown in  FIGS. 16-18 , a fifth exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1  is depicted as holding ingestible material  42  with containing assembly  44  including container  46  with screw cap  80  integrated with electronic memory  52  that retains status information about the containing assembly. As containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  as encouraged by an auger portion of the screw cap, gravity, vacuum, blower, or other means of force. Opening of screw cap  80  is noted by an update to memory  52 , which is read by receiver  54  with the information being passed on through the substance control dispensing system  10  to be reported through one or more of the selection indictors  20 . 
     As shown in  FIGS. 19-21 , a sixth exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1  is depicted as holding ingestible material  42  with containing assembly  44  including container  46  with pierceable wall  84  integrated with electronic memory  52  that retains status information about the containing assembly. As containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , syringe needle  86  pierces pierceable wall  84  allowing ingestible material  42  to be sucked into the syringe needle. Piercing of pierceable wall  84  is noted by an update to memory  52 , which is read by receiver  54  with the information being passed on through the substance control dispensing system  10  to be reported through one or more of selection indictors  20 . 
     As shown in  FIGS. 22-24 , a seventh exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1  is depicted as holding ingestible material  42  with containing assembly  44  including container  46  with lifting tab  88  integrated with electronic memory  52  that retains status information about the containing assembly. As containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , lifting tab  88  is opened allowing ingestible material  42  to move through orifice  90 . Opening lifting tab  88  is noted by an update to memory  52 , which is read by receiver  54  with the information being passed on through the substance control dispensing system  10  to be reported through one or more of the selection indictors  20 . 
     As shown in  FIGS. 25-27 , an eighth exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1  is depicted as holding ingestible material  42  with containing assembly  44  including container  46  with tear away barrier  92  integrated with electronic memory  52  that retains status information about the containing assembly. As containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , shearing member  94  scraps across barrier  92  thereby tearing it away and allowing ingestible material  42  to move through orifice  96 . Tearing of barrier  92  by shearing member  94  is noted by an update to memory  52 , which is read by receiver  54  with the information being passed on through the substance control dispensing system  10  to be reported through one or more of the selection indictors  20 . 
     As shown in  FIGS. 28-30 , a ninth exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1  is depicted as holding ingestible material  42  with containing assembly  44  including container  46  with deformable portion  98  integrated with electronic memory  52  that retains status information about the containing assembly. As containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , deformable portion  98  is deformed to open thereby allowing ingestible material  42  to move through orifice  100 . Deformation and consequential opening of deformable portion  98  is noted by an update to memory  52 , which is read by receiver  54  with the information being passed on through the substance control dispensing system  10  to be reported through one or more of selection indictors  20 . 
     As shown in  FIGS. 31-33 , a tenth exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1  is depicted as holding ingestible material  42  with containing assembly  44  including container  46  with lockable portion  102  integrated with electronic memory  52  that retains status information about the containing assembly. As containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , lockable portion  102  is unlocked and opened upon verification by code verifiers  106  electronically coupling with code transmitters  108  that receiving assembly  48  is authorized to accept ingestible material  42 . Opening of lockable portion  102  thereby allows ingestible material  42  to move through orifice  104 . Unlocking and opening of lockable portion  102  is noted by an update to memory  52 , which is read by receiver  54  with the information being passed on through the substance control dispensing system  10  to be reported through one or more of selection indictors  20 . 
     As shown in  FIGS. 34-36 , a eleventh exemplary alternative implementation of the dispensing control system for the substance control dispensing system  10  of  FIG. 1  is depicted as holding ingestible material  42  with containing assembly  44  including container  46  with valve  110  integrated with electronic memory  52  that retains status information about the containing assembly. As containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , valve  110  is opened by member  112  thereby allowing ingestible material  42  to move through orifice  114 . Opening of valve  110  is noted by an update to memory  52 , which is read by receiver  54  with the information being passed on through the substance control dispensing system  10  to be reported through one or more of selection indictors  20 . 
     An exemplary version of the substance control dispensing system  10  is shown in  FIG. 37  to optionally include various subsystems such as control and information processing subsystem s 100 , information storage subsystem s 200 , information user interface subsystem s 300 , sensing subsystem s 400 , electronic communication subsystem s 500 , power subsystem s 600 , and material processing subsystem s 700 . 
     An exemplary implementation of the control and information processing subsystem s 100  is shown in  FIG. 38  to optionally include various components such as microprocessor component s 102 , central processing unit (CPU) component s 104 , digital signal processor (DSP) component s 106 , application specific integrated circuit (ASIC) component s 108 , field programmable gate array (FPGA) component s 110 , multiprocessor component s 112 , and optical processing component s 114 . 
     An exemplary implementation of the information storage subsystem s 200  is shown in  FIG. 39  to optionally include various components such as random access memory (RAM) component s 202 , dynamic random access memory (DRAM) component s 204 , other volatile memory component s 206 , persistent memory component s 208 , read only memory (ROM) component s 210 , electrically erasable programmable read only memory (EEPROM) component s 212 , compact disk (CD) component s 214 , digital versatile disk (DVD) component s 216 , flash memory component s 218 , other nonvolatile memory component s 220 , hard drive component s 222 , disk farm component s 224 , disk cluster component s 226 , remote backup component s 228 , server component s 230 , digital tape component s 232 , optical storage component s 234 , optical storage component s 236 , computer readable signal bearing medium s 238 , and Blu Ray disk component s 240 . 
     An exemplary implementation of the information user interface subsystem s 300  is shown in  FIG. 40  to optionally include various components such as graphical user interface (GUI) component s 302 , visual display component s 304 , keyboard component s 306 , keypad component s 308 , trackball component s 310 , joystick component s 312 , touch screen component s 314 , mouse component s 316 , switch component s 318 , dial component s 320 , button component s 322 , gauge component s 324 , light emitting component s 326 , audio in/out component s 328 , vibration emitting component s 330 , portable information storage reader component s 332 , projection component s 334 , camera component s 336 , and scanner component s 338 . 
     An exemplary implementation of the sensing subsystem s 400  is shown in  FIG. 41  to optionally include various components such as electromagnetic sensing component s 402 , antenna component s 404 , photodetecting s 406 , micro-electro-mechanical system (MEMS) detecting component s 408 , weight sensing component s 410 , temperature sensing component s 412 , radio frequency identification (RFID) sensing component s 414 , chemical sensing component s 416 , optical sensing component s 418 , sound sensing component s 420 , solid sensing component s 422 , liquid sensing component s 424 , and solid sensing component s 426 . 
     An exemplary implementation of the electronic communication subsystem s 500  is shown in  FIG. 42  to optionally include various components such as network cable component s 502 , optical network component s 504 , waveguide network component s 506 , interne network component s 508 , wireless network component s 510 , wired network component s 512 , cellular network component s 514 , wide area network component s 516 , local area network component s 518 , encrypted communication component s 520 , transceiver component s 522 , infrared network component s 524 , transmitter component s 526 , and receiver component s 528 . 
     An exemplary implementation of the power subsystem s 600  is shown in  FIG. 43  to optionally include various components such as electrical component s 602 , hydrocarbon fuel component s 604 , hydrogen fuel component s 606 , solid fuel component s 608 , liquid fuel component s 610 , gaseous fuel component s 612 , and battery component s 614 . 
     An exemplary implementation of the material processing subsystem s 700  is shown in  FIG. 44  to optionally include various components such as heating component s 702 , cooling component s 704 , microwave component s 706 , laser component s 708 , light emitting diode (LED) component s 710 , peltier cooling component s 712 , blending component s 714 , mixer component s 716 , acoustic energy component s 718 , stirring component s 720 , shaker component s 722 , energy emitting component s 724 , pump component s 726 , sorting component s 728 , infrared component s 730 , cutting component s 732 , material storage component s 734 , controlled substance receiving assembly s 736 , and controlled substance containing assembly s 738 . 
     Implementations involve different combinations (otherwise known as “electrical circuitry arrangements”) of components from the subsystems of the substance control dispensing system  10 . Exemplary depictions of some of these electrical circuitry arrangements are shown in  FIG. 45  to include receiving status information electrical circuitry arrangement e 11 , receiving information ID card electrical circuitry arrangement e 1101 , receiving information memory circuit electrical circuitry arrangement e 1102 , receiving information bar code electrical circuitry arrangement e 1103 , receiving information Internet electrical circuitry arrangement e 1104 , receiving information network electrical circuitry arrangement e 1105 , receiving information encrypted electrical circuitry arrangement e 1106 , receiving information memory card electrical circuitry arrangement e 1107 , receiving information keypad electrical circuitry arrangement e 1108 , receiving information optical scan electrical circuitry arrangement e 1109 , receiving information RFID electrical circuitry arrangement e 1110 , receiving information image recognition electrical circuitry arrangement e 1111 , receiving information audio file electrical circuitry arrangement e 1112 , receiving information radio communication electrical circuitry arrangement e 1113 , receiving information stenographic electrical circuitry arrangement e 1114 , receiving information holographic electrical circuitry arrangement e 1115 , receiving information combination electrical circuitry arrangement e 1116 , receiving information nutraceuticals electrical circuitry arrangement e 1117 , receiving information organic electrical circuitry arrangement e 1118 , and receiving information fluids electrical circuitry arrangement e 1119 . 
     Some of these electrical circuitry arrangements are depicted in  FIG. 46  to include receiving information powders electrical circuitry arrangement e 1120 , receiving information allergens electrical circuitry arrangement e 1121 , receiving information pharmaceutical electrical circuitry arrangement e 1122 , receiving information geographic electrical circuitry arrangement e 1123 , receiving information endorsed electrical circuitry arrangement e 1124 , receiving information approved electrical circuitry arrangement e 1125 , receiving information pouring electrical circuitry arrangement e 1126 , receiving information blowing electrical circuitry arrangement e 1127 , receiving information vacuuming electrical circuitry arrangement e 1128 , receiving information auger electrical circuitry arrangement e 1129 , receiving information dissolving electrical circuitry arrangement e 1130 , receiving information fluid transfer electrical circuitry arrangement e 113 , receiving information mixing other electrical circuitry arrangement e 1132 , receiving information gravity electrical circuitry arrangement e 1133 , receiving information flow electrical circuitry arrangement e 1134 , receiving information fastener electrical circuitry arrangement e 1135 , receiving information seal electrical circuitry arrangement e 1136 , receiving information piercing electrical circuitry arrangement e 1137 , receiving information sliding electrical circuitry arrangement e 1138 , and receiving information lid electrical circuitry arrangement e 1139 . 
     Some of these electrical circuitry arrangements are depicted in  FIG. 47  to include receiving information cap electrical circuitry arrangement e 1140 , receiving information syringe electrical circuitry arrangement e 1141 , receiving information tab electrical circuitry arrangement e 1142 , receiving information tear electrical circuitry arrangement e 1143 , receiving information deform electrical circuitry arrangement e 1144 , receiving information lock electrical circuitry arrangement e 1145 , receiving information container electrical circuitry arrangement e 1146 , receiving information vial electrical circuitry arrangement e 1147 , receiving information syringe electrical circuitry arrangement e 1148 , receiving information aerosol electrical circuitry arrangement e 1149 , receiving information lock electrical circuitry arrangement e 1150 , receiving information seal electrical circuitry arrangement e 1151 , receiving information tab electrical circuitry arrangement e 1152 , receiving information tear electrical circuitry arrangement e 1153 , receiving information deform electrical circuitry arrangement e 1154 , receiving information syringe electrical circuitry arrangement e 1155 , receiving information poured electrical circuitry arrangement e 1156 , receiving information blowing electrical circuitry arrangement e 1157 , receiving information vacuum electrical circuitry arrangement e 1158 , and receiving information auger electrical circuitry arrangement e 1159 . 
     Some of these electrical circuitry arrangements are depicted in  FIG. 48  to include receiving information dissolving electrical circuitry arrangement e 1160 , receiving information fluid transfer electrical circuitry arrangement e 1161 , receiving information mixing electrical circuitry arrangement e 1162 , receiving information gravity electrical circuitry arrangement e 1163 , receiving information valve electrical circuitry arrangement e 1164 , receiving information fastener electrical circuitry arrangement e 1165 , receiving information seal electrical circuitry arrangement e 1166 , receiving information piercing electrical circuitry arrangement e 1167 , receiving information sliding electrical circuitry arrangement e 1168 , receiving information lid electrical circuitry arrangement e 1169 , cap electrical circuitry arrangement e 1170 , receiving information syringe electrical circuitry arrangement e 1171 , receiving information tab electrical circuitry arrangement e 1172 , receiving information tear electrical circuitry arrangement e 1173 , receiving information deform electrical circuitry arrangement e 1174 , receiving information lock electrical circuitry arrangement e 1175 , receiving information smoothie electrical circuitry arrangement e 1176 , receiving information bar electrical circuitry arrangement e 1177 , receiving information sandwich electrical circuitry arrangement e 1178 , and receiving information drink electrical circuitry arrangement e 1179 . 
     Some of these electrical circuitry arrangements are depicted in  FIG. 49  to include receiving information meal electrical circuitry arrangement e 1180 , receiving information disengaged electrical circuitry arrangement e 1181 , receiving information prevent electrical circuitry arrangement e 1182 , receiving information remained electrical circuitry arrangement e 1183 , receiving information cap electrical circuitry arrangement e 1184 , receiving information lid electrical circuitry arrangement e 1185 , receiving information tear electrical circuitry arrangement e 1186 , receiving information deform electrical circuitry arrangement e 1187 , and receiving information lock electrical circuitry arrangement e 1188 . 
     Some of these electrical circuitry arrangements are depicted in  FIG. 50  to include outputting selection information electrical circuitry arrangement e 12 , outputting information display electrical circuitry arrangement e 1201 , outputting information audio electrical circuitry arrangement e 1202 , outputting information computer electrical circuitry arrangement e 1203 , outputting information cellular network electrical circuitry arrangement e 1204 , outputting information wireless electrical circuitry arrangement e 1205 , outputting information disengaged electrical circuitry arrangement e 1206 , outputting information warning electrical circuitry arrangement e 1207 , outputting information remained electrical circuitry arrangement e 1208 , outputting information products electrical circuitry arrangement e 1209 , outputting information categories electrical circuitry arrangement e 1210 , outputting information products electrical circuitry arrangement e 1211 , and outputting information categories electrical circuitry arrangement e 1212 . 
     In implementations one or more instructions are stored and/or otherwise borne in various subsystems, components, and/or accessories of the substance control dispensing system  10  such as being borne in a non-transitory signal bearing medium n 100 . One or more exemplary instructions depicted in  FIG. 51  as being borne in an exemplary version of the non-transitory signal bearing medium n 100  include one or more receiving status information instructions i 11 , one or more receiving information ID card instructions i 1101 , one or more receiving information memory circuit instructions i 1102 , one or more receiving information bar code instructions i 1103 , one or more receiving information Internet instructions i 1104 , one or more receiving information network instructions i 1105 , one or more receiving information encrypted instructions i 1106 , one or more receiving information memory card instructions i 1107 , one or more receiving information keypad instructions i 1108 , one or more receiving information optical scan instructions i 1109 , one or more receiving information RFID instructions i 1110 , one or more receiving information image recognition instructions i 1111 , one or more receiving information audio file instructions i 1112 , one or more receiving information radio communication instructions i 1113 , one or more receiving information stenographic instructions i 1114 , one or more receiving information holographic instructions i 1115 , one or more receiving information combination instructions i 1116 , one or more receiving information nutraceuticals instructions i 1117 , one or more receiving information organic instructions i 1118 , and one or more receiving information fluids instructions i 1119 . 
     One or more exemplary instructions depicted in  FIG. 52  as being borne in an exemplary version of the non-transitory signal bearing medium n 100  include one or more receiving information powders instructions i 1120 , one or more receiving information allergens instructions i 1121 , one or more receiving information pharmaceutical instructions i 1122 , one or more receiving information geographic instructions i 1123 , one or more receiving information endorsed instructions i 1124 , one or more receiving information approved instructions i 1125 , one or more receiving information pouring instructions i 1126 , one or more receiving information blowing instructions i 1127 , one or more receiving information vacuuming instructions i 1128 , one or more receiving information auger instructions i 1129 , one or more receiving information dissolving instructions i 1130 , one or more receiving information fluid transfer instructions i 1131 , one or more receiving information mixing other instructions i 1132 , one or more receiving information gravity instructions i 1133 , one or more receiving information flow instructions i 1134 , one or more receiving information fastener instructions i 1135 , one or more receiving information seal instructions i 1136 , one or more receiving information piercing instructions i 1137 , one or more receiving information sliding instructions i 1138 , and one or more receiving information lid instructions i 1139 . 
     One or more exemplary instructions depicted in  FIG. 53  as being borne in an exemplary version of the non-transitory signal bearing medium n 100  include one or more receiving information cap instructions i 1140 , one or more receiving information syringe instructions i 1141 , one or more receiving information tab instructions i 1142 , one or more receiving information tear instructions i 1143 , one or more receiving information deform instructions i 1144 , one or more receiving information lock instructions i 1145 , one or more receiving information container instructions i 1146 , one or more receiving information vial instructions i 1147 , one or more receiving information syringe instructions i 1148 , one or more receiving information aerosol instructions i 1149 , one or more receiving information lock instructions i 1150 , one or more receiving information seal instructions i 1151 , one or more receiving information tab instructions i 1152 , one or more receiving information tear instructions i 1153 , one or more receiving information deform instructions i 1154 , one or more receiving information syringe instructions i 1155 , one or more receiving information poured instructions i 1156 , one or more receiving information blowing instructions i 1157 , one or more receiving information vacuum instructions i 1158 , and one or more receiving information auger instructions i 1159 . 
     One or more exemplary instructions depicted in  FIG. 54  as being borne in an exemplary version of the non-transitory signal bearing medium n 100  include one or more receiving information dissolving instructions i 1160 , one or more receiving information fluid transfer instructions i 1161 , one or more receiving information mixing instructions i 1162 , one or more receiving information gravity instructions i 1163 , one or more receiving information valve instructions i 1164 , one or more receiving information fastener instructions i 1165 , one or more receiving information seal instructions i 1166 , one or more receiving information piercing instructions i 1167 , one or more receiving information sliding instructions i 1168 , one or more receiving information lid instructions i 1169 , one or more cap instructions i 1170 , one or more receiving information syringe instructions i 1171 , one or more receiving information tab instructions i 1172 , one or more receiving information tear instructions i 1173 , one or more receiving information deform instructions i 1174 , one or more, one or more receiving information lock instructions i 1175 , one or more receiving information smoothie instructions i 1176 , one or more receiving information bar instructions i 1177 , one or more receiving information sandwich instructions i 1178 , and one or more receiving information drink instructions i 1179 . 
     Some of these electrical circuitry arrangements are depicted in  FIG. 49  to include receiving information meal instructions i 1180 , one or more receiving information disengaged instructions i 1181 , one or more receiving information prevent instructions i 1182 , one or more receiving information remained instructions i 1183 , one or more receiving information cap instructions i 1184 , one or more, one or more receiving information lid instructions i 1185 , one or more receiving information tear instructions i 1186 , one or more receiving information deform instructions i 1187 , and one or more receiving information lock instructions i 1188 . 
     One or more exemplary instructions depicted in  FIG. 56  as being borne in an exemplary version of the non-transitory signal bearing medium n 100  include one or more outputting selection information instructions i 12 , one or more outputting information display instructions i 1201 , one or more outputting information audio instructions i 1202 , one or more outputting information computer instructions i 1203 , one or more outputting information cellular network instructions i 1204 , one or more outputting information wireless instructions i 1205 , one or more outputting information disengaged instructions i 1206 , one or more outputting information warning instructions i 1207 , one or more outputting information remained instructions i 1208 , one or more outputting information products instructions i 1209 , one or more outputting information categories instructions i 1210 , one or more outputting information products instructions i 1211 , one or more outputting information categories instructions i 1212 . 
     An operational flow o 10  as shown in  FIG. 57  represents example operations related to receiving authorization information and directing fabrication of ingestible products based upon verification of the authorization. 
       FIG. 57  and those figures that follow may have various examples of operational flows, and explanation may be provided with respect to the above-described examples of  FIGS. 1-36  and/or with respect to other examples and contexts. Nonetheless, it should be understood that the operational flows may be executed in a number of other environments and contexts, and/or in modified versions of  FIGS. 1-36 . Furthermore, although the various operational flows are presented in the sequence(s) illustrated, it should be understood that the various operations may be performed in other orders than those which are illustrated, or may be performed concurrently. 
     In  FIG. 57  and those figures that follow, various operations may be depicted in a box-within-a-box manner. Such depictions may indicate that an operation in an internal box may comprise an optional exemplary implementation of the operational step illustrated in one or more external boxes. However, it should be understood that internal box operations may be viewed as independent operations separate from any associated external boxes and may be performed in any sequence with respect to all other illustrated operations, or may be performed concurrently. 
     As shown in  FIG. 57 , the operational flow o 10  proceeds to operation o 11  for electronically receiving status information regarding a particular ingestible material portion as related to a first engagement of an automated dispensing system with at least one manufacture, the first engagement occurring during a first condition including the at least one manufacture being united with the particular ingestible material portion, the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion for dispensing of the particular ingestible material portion, the electronically receiving status information to receive status information influenced by whether any disengagements of the automated dispensing system from the at least one manufacture occur during the first condition prior to the first engagement, the at least one manufacture arranged to inhibit access to the particular ingestible material portion prior to any engagements of the automated dispensing system with the at least one manufacture during the first condition and arranged to inhibit access to the particular ingestible material portion by other than the automated dispensing system during engagement of the automated dispensing system with the at least one manufacture during the first condition. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving status information instructions i 11  that when executed will direct performance of the operation o 11 . In an implementation, the one or more receiving status information instructions i 11  when executed direct electronically receiving status information (e.g. microprocessor component s 102  receives status information via controlled substance receiving assembly s 736  electronic interaction with controlled substance containing assembly s 738 , etc.) regarding a particular ingestible material portion (e.g. that portion of ingestible material  42  contained in the controlled substance containing assembly s 738 , etc.) as related to a first engagement of an automated dispensing system with at least one manufacture (e.g. engagement, such as via physical insertion of the controlled substance containing assembly s 736  into the controlled substance receiving assembly s 738  such, etc.), the first engagement occurring during a first condition including the at least one manufacture being united with the particular ingestible material portion (e.g. the controlled substance containing assembly s 736  containing the controlled substance such as dehydrated certified organic vegetable matter, etc.), the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion for dispensing of the particular ingestible material portion (e.g. dispensing dehydrated certified organic vegetable matter as part of a soup mix prepared to be eaten by a consumer making a selection from a vending machine, etc.), the electronically receiving status information to receive status information influenced by whether any disengagements of the automated dispensing system from the at least one manufacture occur during the first condition prior to the first engagement (e.g. if the first engagement is the first time that the controlled substance containing assembly s 736  has been engaged subsequent to being filled with the controlled substance, then there would have been no disengagements of the controlled substance containing assembly as well and thus, the status information could include that it is less likely, for instance, that the controlled substance has been tampered with and more likely that the controlled substance is what an associated label claims it to be, etc.), the at least one manufacture arranged to inhibit access to the particular ingestible material portion (e.g. inhibition to access could be had in a case where the controlled substance containing assembly s 736  contains the controlled substance, etc.) prior to any engagements of the automated dispensing system with the at least one manufacture during the first condition and arranged to inhibit access to the particular ingestible material portion by other than the automated dispensing system during engagement of the automated dispensing system with the at least one manufacture during the first condition (e.g. before engagement, in some implementations the controlled substance containing assembly s 736  could fully contained the controlled substance to prevent access from both the substance control dispensing system  10  and other things as well, furthermore, engagement with the substance control dispensing system could be such that the controlled substance containing assembly s 736  could still prevent access to the controlled substance by entities other than the substance control dispensing system  10  itself, etc.). Furthermore, the receiving status information electrical circuitry arrangement (“elec circ arrange”) e 11  when activated will perform the operation o 11 . In an implementation, the receiving status information electrical circuitry arrangement e 11 , when activated performs electronically receiving status information (e.g. microprocessor component s 102  receives status information via controlled substance receiving assembly s 736  electronic interaction with controlled substance containing assembly s 738 , etc.) regarding a particular ingestible material portion (e.g. that portion of ingestible material  42  contained in the controlled substance containing assembly s 738 , etc.) as related to a first engagement of an automated dispensing system with at least one manufacture (e.g. engagement, such as via physical insertion of the controlled substance containing assembly s 736  into the controlled substance receiving assembly s 738  such, etc.), the first engagement occurring during a first condition including the at least one manufacture being united with the particular ingestible material portion (e.g. the controlled substance containing assembly s 736  containing the controlled substance such as dehydrated certified organic vegetable matter, etc.), the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion for dispensing of the particular ingestible material portion (e.g. dispensing dehydrated certified organic vegetable matter as part of a soup mix prepared to be eaten by a consumer making a selection from a vending machine, etc.), the electronically receiving status information to receive status information influenced by whether any disengagements of the automated dispensing system from the at least one manufacture occur during the first condition prior to the first engagement (e.g. if the first engagement is the first time that the controlled substance containing assembly s 736  has been engaged subsequent to being filled with the controlled substance, then there would have been no disengagements of the controlled substance containing assembly as well and thus, the status information could include that it is less likely, for instance, that the controlled substance has been tampered with and more likely that the controlled substance is what an associated label claims it to be, etc.), the at least one manufacture arranged to inhibit access to the particular ingestible material portion (e.g. inhibition to access could be had in a case where the controlled substance containing assembly s 736  contains the controlled substance, etc.) prior to any engagements of the automated dispensing system with the at least one manufacture during the first condition and arranged to inhibit access to the particular ingestible material portion by other than the automated dispensing system during engagement of the automated dispensing system with the at least one manufacture during the first condition (e.g. before engagement, in some implementations the controlled substance containing assembly s 736  could fully contained the controlled substance to prevent access from both the substance control dispensing system  10  and other things as well, furthermore, engagement with the substance control dispensing system could be such that the controlled substance containing assembly s 736  could still prevent access to the controlled substance by entities other than the substance control dispensing system  10  itself, etc.). In an implementation, the electronically receiving status information regarding a particular ingestible material portion as related to a first engagement of an automated dispensing system with at least one manufacture, the first engagement occurring during a first condition including the at least one manufacture being united with the particular ingestible material portion, the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion for dispensing of the particular ingestible material portion, the electronically receiving status information to receive status information influenced by whether any disengagements of the automated dispensing system from the at least one manufacture occur during the first condition prior to the first engagement, the at least one manufacture arranged to inhibit access to the particular ingestible material portion prior to any engagements of the automated dispensing system with the at least one manufacture during the first condition and arranged to inhibit access to the particular ingestible material portion by other than the automated dispensing system during engagement of the automated dispensing system with the at least one manufacture during the first condition is carried out by electronically receiving status information (e.g. microprocessor component s 102  receives status information via controlled substance receiving assembly s 736  electronic interaction with controlled substance containing assembly s 738 , etc.) regarding a particular ingestible material portion (e.g. that portion of ingestible material  42  contained in the controlled substance containing assembly s 738 , etc.) as related to a first engagement of an automated dispensing system with at least one manufacture (e.g. engagement, such as via physical insertion of the controlled substance containing assembly s 736  into the controlled substance receiving assembly s 738  such, etc.), the first engagement occurring during a first condition including the at least one manufacture being united with the particular ingestible material portion (e.g. the controlled substance containing assembly s 736  containing the controlled substance such as dehydrated certified organic vegetable matter, etc.), the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion for dispensing of the particular ingestible material portion (e.g. dispensing dehydrated certified organic vegetable matter as part of a soup mix prepared to be eaten by a consumer making a selection from a vending machine, etc.), the electronically receiving status information to receive status information influenced by whether any disengagements of the automated dispensing system from the at least one manufacture occur during the first condition prior to the first engagement (e.g. if the first engagement is the first time that the controlled substance containing assembly s 736  has been engaged subsequent to being filled with the controlled substance, then there would have been no disengagements of the controlled substance containing assembly as well and thus, the status information could include that it is less likely, for instance, that the controlled substance has been tampered with and more likely that the controlled substance is what an associated label claims it to be, etc.), the at least one manufacture arranged to inhibit access to the particular ingestible material portion (e.g. inhibition to access could be had in a case where the controlled substance containing assembly s 736  contains the controlled substance, etc.) prior to any engagements of the automated dispensing system with the at least one manufacture during the first condition and arranged to inhibit access to the particular ingestible material portion by other than the automated dispensing system during engagement of the automated dispensing system with the at least one manufacture during the first condition (e.g. before engagement, in some implementations the controlled substance containing assembly s 736  could fully contained the controlled substance to prevent access from both the substance control dispensing system  10  and other things as well, furthermore, engagement with the substance control dispensing system could be such that the controlled substance containing assembly s 736  could still prevent access to the controlled substance by entities other than the substance control dispensing system  10  itself, etc.). 
     In one or more implementations, as shown in  FIG. 58 , operation o 11  includes an operation o 1101  for electronically receiving status information via at least in part an electronic identification card. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information ID card instructions i 1101  that when executed will direct performance of the operation o 1101 . In an implementation, the one or more receiving information ID card instructions i 1101  when executed direct electronically receiving status information via at least in part an electronic identification card (e.g. electronic memory  52  coupled to containing assembly  44  could include an electronic identification card including information as to source of and constituents of the controlled substance which is read by the receiver  54  when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). Furthermore, the receiving information ID card electrical circuitry arrangement (“elec circ arrange”) e 1101  when activated will perform the operation o 1101 . In an implementation, the receiving information ID card electrical circuitry arrangement e 1101 , when activated performs electronically receiving status information via at least in part an electronic identification card (e.g. electronic memory  52  coupled to containing assembly  44  could include an electronic identification card including information as to source of and constituents of the controlled substance which is read by the receiver  54  when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information via at least in part an electronic identification card is carried out by electronically receiving status information via at least in part an electronic identification card (e.g. electronic memory  52  coupled to containing assembly  44  could include an electronic identification card including information as to source of and constituents of the controlled substance which is read by the receiver  54  when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1102  for electronically receiving status information via at least in part a memory circuit coupled with an ingestible material container. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information memory circuit instructions i 1102  that when executed will direct performance of the operation o 1102 . In an implementation, the one or more receiving information memory circuit instructions i 1102  when executed direct electronically receiving status information via at least in part a memory circuit coupled with an ingestible material container (e.g. electronic memory  52  coupled to containing assembly  44  includes information as to certification details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). Furthermore, the receiving information memory circuit electrical circuitry arrangement e 1102  when activated will perform the operation o 1102 . In an implementation, the receiving information memory circuit electrical circuitry arrangement e 1102 , when activated performs electronically receiving status information via at least in part a memory circuit coupled with an ingestible material container (e.g. electronic memory  52  coupled to containing assembly  44  includes information as to certification details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information via at least in part a memory circuit coupled with an ingestible material container is carried out by electronically receiving status information via at least in part a memory circuit coupled with an ingestible material container (e.g. electronic memory  52  coupled to containing assembly  44  includes information as to certification details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1103  for electronically receiving status information via at least in part bar code communication. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information bar code instructions i 1103  that when executed will direct performance of the operation o 1103 . In an implementation, the one or more receiving information bar code instructions i 1103  when executed direct electronically receiving status information via at least in part bar code communication (e.g. electronic memory  52  can include a bar code label coupled to containing assembly  44  having information as to allergen-free status of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). Furthermore, the receiving information bar code electrical circuitry arrangement e 1103  when activated will perform the operation o 1103 . In an implementation, the receiving information bar code electrical circuitry arrangement e 1103 , when activated performs electronically receiving status information via at least in part bar code communication (e.g. electronic memory  52  can include a bar code label coupled to containing assembly  44  having information as to allergen-free status of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). In an implementation, the is electronically receiving status information via at least in part bar code communication carried out by electronically receiving status information via at least in part bar code communication (e.g. electronic memory  52  can include a bar code label coupled to containing assembly  44  having information as to allergen-free status of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1104  for electronically receiving status information via at least in part Internet communication. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information Internet instructions i 1104  that when executed will direct performance of the operation o 1104 . In an implementation, the one or more receiving information Internet instructions i 1104  when executed direct electronically receiving status information via at least in part Internet communication (e.g. electronic memory  52  coupled to containing assembly  44  includes information as to an Internet address to access updated certification details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently accesses the Internet through the internet network component s 508  and displays the information on selection indicators  20 , etc.). Furthermore, the receiving information Internet electrical circuitry arrangement e 1104  when activated will perform the operation o 1104 . In an implementation, the receiving information Internet electrical circuitry arrangement e 1104 , when activated performs electronically receiving status information via at least in part Internet communication (e.g. electronic memory  52  coupled to containing assembly  44  includes information as to an Internet address to access updated certification details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently accesses the Internet through the internet network component s 508  and displays the information on selection indicators  20 , etc.). In an implementation, the is electronically receiving status information via at least in part Internet communication carried out by electronically receiving status information via at least in part Internet communication (e.g. electronic memory  52  coupled to containing assembly  44  includes information as to an Internet address to access updated certification details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently accesses the Internet through the internet network component s 508  and displays the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1105  for electronically receiving status information via at least in part an electronic network. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information network instructions i 1105  that when executed will direct performance of the operation o 1105 . In an implementation, the one or more receiving information network instructions i 1105  when executed direct electronically receiving status information via at least in part an electronic network (e.g. electronic memory  52  coupled to containing assembly  44  includes information as to an electronic network address to access updated certification details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently accesses the electronic network through the network cable component s 502  and displays the information on selection indicators  20 , etc.). Furthermore, the receiving information network electrical circuitry arrangement e 1105  when activated will perform the operation o 1105 . In an implementation, the receiving information network electrical circuitry arrangement e 1105 , when activated performs electronically receiving status information via at least in part an electronic network (e.g. electronic memory  52  coupled to containing assembly  44  includes information as to an electronic network address to access updated certification details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently accesses the electronic network through the network cable component s 502  and displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information via at least in part an electronic network is carried out by electronically receiving status information via at least in part an electronic network (e.g. electronic memory  52  coupled to containing assembly  44  includes information as to an electronic network address to access updated certification details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently accesses the electronic network through the network cable component s 502  and displays the information on selection indicators  20 , etc.). 
     In one or more implementations, as shown in  FIG. 59 , operation o 11  includes an operation o 1106  for electronically receiving status information via at least in part encrypted data. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information encrypted instructions i 1106  that when executed will direct performance of the operation o 1106 . In an implementation, the one or more receiving information encrypted instructions i 1106  when executed direct electronically receiving status information via at least in part encrypted data (e.g. electronic memory  52  coupled to containing assembly  44  includes encrypted information as to origination details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which decrypts and displays the information on selection indicators  20 , etc.). Furthermore, the receiving information encrypted electrical circuitry arrangement e 1106  when activated will perform the operation o 1106 . In an implementation, the receiving information encrypted electrical circuitry arrangement e 1106 , when activated performs electronically receiving status information via at least in part encrypted data (e.g. electronic memory  52  coupled to containing assembly  44  includes encrypted information as to origination details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which decrypts and displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information via at least in part encrypted data is carried out by electronically receiving status information via at least in part encrypted data (e.g. electronic memory  52  coupled to containing assembly  44  includes encrypted information as to origination details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which decrypts and displays the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1107  for electronically receiving status information via at least in part a memory card. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information memory card instructions i 1107  that when executed will direct performance of the operation o 1107 . In an implementation, the one or more receiving information memory card instructions i 1107  when executed direct electronically receiving status information via at least in part a memory card (e.g. electronic memory  52  in the form of a memory card is coupled to containing assembly  44  includes information as to endorsements by various authorities of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which displays the information on selection indicators  20 , etc.). Furthermore, the receiving information memory card electrical circuitry arrangement e 1107  when activated will perform the operation o 1107 . In an implementation, the receiving information memory card electrical circuitry arrangement e 1107 , when activated performs electronically receiving status information via at least in part a memory card (e.g. electronic memory  52  in the form of a memory card is coupled to containing assembly  44  includes information as to endorsements by various authorities of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information via at least in part a memory card is carried out by electronically receiving status information via at least in part a memory card (e.g. electronic memory  52  in the form of a memory card is coupled to containing assembly  44  includes information as to endorsements by various authorities of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which displays the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1108  for electronically receiving status information via at least in part an electronic keypad entry. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information keypad instructions i 1108  that when executed will direct performance of the operation o 1108 . In an implementation, the one or more receiving information keypad instructions i 1108  when executed direct electronically receiving status information via at least in part an electronic keypad entry (e.g. electronic memory  52  coupled to containing assembly  44  includes indication that information is to be entered by delivery personnel through keypad component s 308  to provide delivery details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently accesses keypad data and displays the information on selection indicators  20 , etc.). Furthermore, the receiving information keypad electrical circuitry arrangement e 1108  when activated will perform the operation o 1108 . In an implementation, the receiving information keypad electrical circuitry arrangement e 1108 , when activated performs electronically receiving status information via at least in part an electronic keypad entry (e.g. electronic memory  52  coupled to containing assembly  44  includes indication that information is to be entered by delivery personnel through keypad component s 308  to provide delivery details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently accesses keypad data and displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information via at least in part an electronic keypad entry is carried out by electronically receiving status information via at least in part an electronic keypad entry (e.g. electronic memory  52  coupled to containing assembly  44  includes indication that information is to be entered by delivery personnel through keypad component s 308  to provide delivery details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently accesses keypad data and displays the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1109  for electronically receiving status information via at least in part an optical scan. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information optical scan instructions i 1109  that when executed will direct performance of the operation o 1109 . In an implementation, the one or more receiving information optical scan instructions i 1109  when executed direct electronically receiving status information via at least in part an optical scan (e.g. electronic memory  52  coupled to containing assembly  44  includes indication that information is to be entered by delivery personnel through scanner component s 338  to provide delivery details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). Furthermore, the receiving information optical scan electrical circuitry arrangement e 1109  when activated will perform the operation o 1109 . In an implementation, the receiving information optical scan electrical circuitry arrangement e 1109 , when activated performs electronically receiving status information via at least in part an optical scan (e.g. electronic memory  52  coupled to containing assembly  44  includes indication that information is to be entered by delivery personnel through scanner component s 338  to provide delivery details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information via at least in part an optical scan is carried out by electronically receiving status information via at least in part an optical scan (e.g. electronic memory  52  coupled to containing assembly  44  includes indication that information is to be entered by delivery personnel through scanner component s 338  to provide delivery details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1110  for electronically receiving status information via at least in part an RFID scan. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information RFID instructions i 1110  that when executed will direct performance of the operation o 1110 . In an implementation, the one or more receiving information RFID instructions i 1110  when executed direct electronically receiving status information via at least in part an RFID scan (e.g. electronic memory  52  coupled to containing assembly  44  includes an radio frequency identification (RFID) tag containing delivery details of the controlled substance which is read by the RFID sensing component when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). Furthermore, the receiving information RFID electrical circuitry arrangement e 1110  when activated will perform the operation o 1110 . In an implementation, the receiving information RFID electrical circuitry arrangement e 1110 , when activated performs electronically receiving status information via at least in part an RFID scan (e.g. electronic memory  52  coupled to containing assembly  44  includes an radio frequency identification (RFID) tag containing delivery details of the controlled substance which is read by the RFID sensing component when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information via at least in part an RFID scan is carried out by electronically receiving status information via at least in part an RFID scan (e.g. electronic memory  52  coupled to containing assembly  44  includes an radio frequency identification (RFID) tag containing delivery details of the controlled substance which is read by the RFID sensing component when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). 
     In one or more implementations, as shown in  FIG. 60 , operation o 11  includes an operation o 1111  for electronically receiving status information via at least in part image recognition. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information image recognition instructions i 1111  that when executed will direct performance of the operation o 1111 . In an implementation, the one or more receiving information image recognition instructions i 1111  when executed direct electronically receiving status information via at least in part image recognition (e.g. electronic memory  52  coupled to containing assembly  44  includes information to be entered by delivery personnel through the optical sensing component s 418  to provide delivery details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently performs image recognition and displays the information on selection indicators  20 , etc.). Furthermore, the receiving information image recognition electrical circuitry arrangement e 1111  when activated will perform the operation o 1111 . In an implementation, the receiving information image recognition electrical circuitry arrangement e 1111 , when activated performs electronically receiving status information via at least in part image recognition (e.g. electronic memory  52  coupled to containing assembly  44  includes information to be entered by delivery personnel through the optical sensing component s 418  to provide delivery details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently performs image recognition and displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information via at least in part image recognition is carried out by electronically receiving status information via at least in part image recognition (e.g. electronic memory  52  coupled to containing assembly  44  includes information to be entered by delivery personnel through the optical sensing component s 418  to provide delivery details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently performs image recognition and displays the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1112  for electronically receiving status information via at least in part an audio file. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information audio file instructions i 1112  that when executed will direct performance of the operation o 1112 . In an implementation, the one or more receiving information audio file instructions i 1112  when executed direct electronically receiving status information via at least in part an audio file (e.g. electronic memory  52  coupled to containing assembly  44  includes an audio file of delivery details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently translates the audio file to a text file and displays the information on selection indicators  20 , etc.). Furthermore, the receiving information audio file electrical circuitry arrangement e 1112  when activated will perform the operation o 1112 . In an implementation, the receiving information audio file electrical circuitry arrangement e 1112 , when activated performs electronically receiving status information via at least in part an audio file (e.g. electronic memory  52  coupled to containing assembly  44  includes an audio file of delivery details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently translates the audio file to a text file and displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information via at least in part an audio file is carried out by electronically receiving status information via at least in part an audio file (e.g. electronic memory  52  coupled to containing assembly  44  includes an audio file of delivery details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently translates the audio file to a text file and displays the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1113  for electronically receiving status information via at least in part a radio communication. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information radio communication instructions i 1113  that when executed will direct performance of the operation o 1113 . In an implementation, the one or more receiving information radio communication instructions i 1113  when executed direct electronically receiving status information via at least in part a radio communication (e.g. electronic memory  52  coupled to containing assembly  44  includes indication as to information to be received by the electromagnetic sensing component s 402  to provide delivery details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently accesses data received by the electromagnetic sensing component to display the information on selection indicators  20 , etc.). Furthermore, the receiving information radio communication electrical circuitry arrangement e 1113  when activated will perform the operation o 1113 . In an implementation, the receiving information radio communication electrical circuitry arrangement e 1113 , when activated performs electronically receiving status information via at least in part a radio communication (e.g. electronic memory  52  coupled to containing assembly  44  includes indication as to information to be received by the electromagnetic sensing component s 402  to provide delivery details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently accesses data received by the electromagnetic sensing component to display the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information via at least in part a radio communication is carried out by electronically receiving status information via at least in part a radio communication (e.g. electronic memory  52  coupled to containing assembly  44  includes indication as to information to be received by the electromagnetic sensing component s 402  to provide delivery details of the controlled substance which is read by the receiver when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently accesses data received by the electromagnetic sensing component to display the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1114  for electronically receiving status information via at least in part a stenographic image. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information stenographic instructions i 1114  that when executed will direct performance of the operation o 1114 . In an implementation, the one or more receiving information stenographic instructions i 1114  when executed direct electronically receiving status information via at least in part a stenographic image (e.g. electronic memory  52  coupled to containing assembly  44  includes a stenographic image to provide delivery details of the controlled substance which is read by photodetecting component s 406  when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which converts the stenographic image to text and subsequently displays the information on selection indicators  20 , etc.). Furthermore, the receiving information stenographic electrical circuitry arrangement e 1114  when activated will perform the operation o 1114 . In an implementation, the receiving information stenographic electrical circuitry arrangement e 1114 , when activated performs electronically receiving status information via at least in part a stenographic image (e.g. electronic memory  52  coupled to containing assembly  44  includes a stenographic image to provide delivery details of the controlled substance which is read by photodetecting component s 406  when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which converts the stenographic image to text and subsequently displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information via at least in part a stenographic image is carried out by electronically receiving status information via at least in part a stenographic image (e.g. electronic memory  52  coupled to containing assembly  44  includes a stenographic image to provide delivery details of the controlled substance which is read by photodetecting component s 406  when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which converts the stenographic image to text and subsequently displays the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1115  for electronically receiving status information via at least in part a holographic image. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information holographic instructions i 1115  that when executed will direct performance of the operation o 1115 . In an implementation, the one or more receiving information holographic instructions i 1115  when executed direct electronically receiving status information via at least in part a holographic image (e.g. electronic memory  52  coupled to containing assembly  44  includes a holographic image to provide delivery details of the controlled substance which is read by optical sensing component s 418  when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which converts the holographic image to text and subsequently displays the information on selection indicators  20 , etc.). Furthermore, the receiving information holographic electrical circuitry arrangement e 1115  when activated will perform the operation o 1115 . In an implementation, the receiving information holographic electrical circuitry arrangement e 1115 , when activated performs electronically receiving status information via at least in part a holographic image (e.g. electronic memory  52  coupled to containing assembly  44  includes a holographic image to provide delivery details of the controlled substance which is read by optical sensing component s 418  when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which converts the holographic image to text and subsequently displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information via at least in part a holographic image is carried out by electronically receiving status information via at least in part a holographic image (e.g. electronic memory  52  coupled to containing assembly  44  includes a holographic image to provide delivery details of the controlled substance which is read by optical sensing component s 418  when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which converts the holographic image to text and subsequently displays the information on selection indicators  20 , etc.). 
     In one or more implementations, as shown in  FIG. 61 , operation o 11  includes an operation o 1116  for electronically receiving status information regarding the particular ingestible material portion as a combination of one or more ingestible ingredients. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information combination instructions i 1116  that when executed will direct performance of the operation o 1116 . In an implementation, the one or more receiving information combination instructions i 1116  when executed direct electronically receiving status information regarding the particular ingestible material portion as a combination of one or more ingestible ingredients (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to point of origin of various ingredients of a pasta sauce when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). Furthermore, the receiving information combination electrical circuitry arrangement e 1116  when activated will perform the operation o 1116 . In an implementation, the receiving information combination electrical circuitry arrangement e 1116 , when activated performs electronically receiving status information regarding the particular ingestible material portion as a combination of one or more ingestible ingredients (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to point of origin of various ingredients of a pasta sauce when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information regarding the particular ingestible material portion as a combination of one or more ingestible ingredients is carried out by electronically receiving status information regarding the particular ingestible material portion as a combination of one or more ingestible ingredients (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to point of origin of various ingredients of a pasta sauce when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1117  for electronically receiving status information regarding the particular ingestible material portion as a mixture including one or more nutraceuticals. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information nutraceuticals instructions i 1117  that when executed will direct performance of the operation o 1117 . In an implementation, the one or more receiving information nutraceuticals instructions i 1117  when executed direct electronically receiving status information regarding the particular ingestible material portion as a mixture including one or more nutraceuticals (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to amounts of vitamin B12 and bilberry extract when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). Furthermore, the receiving information nutraceuticals electrical circuitry arrangement e 1117  when activated will perform the operation o 1117 . In an implementation, the receiving information nutraceuticals electrical circuitry arrangement e 1117 , when activated performs electronically receiving status information regarding the particular ingestible material portion as a mixture including one or more nutraceuticals (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to amounts of vitamin B12 and bilberry extract when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information regarding the particular ingestible material portion as a mixture including one or more nutraceuticals is carried out by electronically receiving status information regarding the particular ingestible material portion as a mixture including one or more nutraceuticals (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to amounts of vitamin B12 and bilberry extract when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1118  for electronically receiving status information regarding the particular ingestible material portion as a compound including one or more extracts of USDA certified organically raised plant matter. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information organic instructions i 1118  that when executed will direct performance of the operation o 1118 . In an implementation, the one or more receiving information organic instructions i 1118  when executed direct electronically receiving status information regarding the particular ingestible material portion as a compound including one or more extracts of USDA certified organically raised plant matter (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to amounts of dehydrated organically raised tomatoes and broccoli when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). Furthermore, the receiving information organic electrical circuitry arrangement e 1118  when activated will perform the operation o 1118 . In an implementation, the receiving information organic electrical circuitry arrangement e 1118 , when activated performs electronically receiving status information regarding the particular ingestible material portion as a compound including one or more extracts of USDA certified organically raised plant matter (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to amounts of dehydrated organically raised tomatoes and broccoli when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information regarding the particular ingestible material portion as a compound including one or more extracts of USDA certified organically raised plant matter is carried out by electronically receiving status information regarding the particular ingestible material portion as a compound including one or more extracts of USDA certified organically raised plant matter (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to amounts of dehydrated organically raised tomatoes and broccoli when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1119  for electronically receiving status information regarding the particular ingestible material portion as a composition including one or more fluids. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information fluids instructions i 1119  that when executed will direct performance of the operation o 1119 . In an implementation, the one or more receiving information fluids instructions i 1119  when executed direct electronically receiving status information regarding the particular ingestible material portion as a composition including one or more fluids (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain shipping date information as to artesian well water and juice from specially raised pomegranates when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). Furthermore, the receiving information fluids electrical circuitry arrangement e 1119  when activated will perform the operation o 1119 . In an implementation, the receiving information fluids electrical circuitry arrangement e 1119 , when activated performs electronically receiving status information regarding the particular ingestible material portion as a composition including one or more fluids (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain shipping date information as to artesian well water and juice from specially raised pomegranates when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information regarding the particular ingestible material portion as a composition including one or more fluids is carried out by electronically receiving status information regarding the particular ingestible material portion as a composition including one or more fluids (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain shipping date information as to artesian well water and juice from specially raised pomegranates when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1120  for electronically receiving status information regarding the particular ingestible material portion as a combination of one or more powders. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information powders instructions i 1120  that when executed will direct performance of the operation o 1120 . In an implementation, the one or more receiving information powders instructions i 1120  when executed direct electronically receiving status information regarding the particular ingestible material portion as a combination of one or more powders (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to origination of powdered stevia extract and powdered nondenatured whey protein extract when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). Furthermore, the receiving information powders electrical circuitry arrangement e 1120  when activated will perform the operation electronically receiving status information regarding the particular ingestible material portion as a combination of one or more powders. In an implementation, the receiving information powders electrical circuitry arrangement e 1120 , when activated performs electronically receiving status information regarding the particular ingestible material portion as a combination of one or more powders (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to origination of powdered stevia extract and powdered nondenatured whey protein extract when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information regarding the particular ingestible material portion as a combination of one or more powders is carried out by electronically receiving status information regarding the particular ingestible material portion as a combination of one or more powders (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to origination of powdered stevia extract and powdered nondenatured whey protein extract when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). 
     In one or more implementations, as shown in  FIG. 62 , operation o 11  includes an operation o 1121  for electronically receiving status information regarding the particular ingestible material portion as excluding one or more allergens. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information allergens instructions i 1121  that when executed will direct performance of the operation o 1121 . In an implementation, the one or more receiving information allergens instructions i 1121  when executed direct electronically receiving status information regarding the particular ingestible material portion as excluding one or more allergens (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to the absence of peanuts, wheat, eggs, and diary to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). Furthermore, the receiving information allergens electrical circuitry arrangement e 1121  when activated will perform the operation o 1121 . In an implementation, the receiving information allergens electrical circuitry arrangement e 1121 , when activated performs electronically receiving status information regarding the particular ingestible material portion as excluding one or more allergens (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to the absence of peanuts, wheat, eggs, and diary to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information regarding the particular ingestible material portion as excluding one or more allergens is carried out by electronically receiving status information regarding the particular ingestible material portion as excluding one or more allergens (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to the absence of peanuts, wheat, eggs, and diary to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1122  for electronically receiving status information regarding the particular ingestible material portion as including one or more controlled pharmaceutical agents. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information pharmaceutical instructions i 1122  that when executed will direct performance of the operation o 1122 . In an implementation, the one or more receiving information pharmaceutical instructions i 1122  when executed direct electronically receiving status information regarding the particular ingestible material portion as including one or more controlled pharmaceutical agents (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to amounts of vicodin and benadryl when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). Furthermore, the receiving information pharmaceutical electrical circuitry arrangement e 1122  when activated will perform the operation o 1122 . In an implementation, the receiving information pharmaceutical electrical circuitry arrangement e 1122 , when activated performs electronically receiving status information regarding the particular ingestible material portion as including one or more controlled pharmaceutical agents (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to amounts of vicodin and benadryl when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information regarding the particular ingestible material portion as including one or more controlled pharmaceutical agents is carried out by electronically receiving status information regarding the particular ingestible material portion as including one or more controlled pharmaceutical agents (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to amounts of vicodin and benadryl when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1123  for electronically receiving status information regarding the particular ingestible material portion as originating from one or more geographic regions. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information geographic instructions i 1123  that when executed will direct performance of the operation o 1123 . In an implementation, the one or more receiving information geographic instructions i 1123  when executed direct electronically receiving status information regarding the particular ingestible material portion as originating from one or more geographic regions (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to country of origin of ingredients in a pizza pie when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). Furthermore, the receiving information geographic electrical circuitry arrangement e 1123  when activated will perform the operation o 1123 . In an implementation, the receiving information geographic electrical circuitry arrangement e 1123 , when activated performs electronically receiving status information regarding the particular ingestible material portion as originating from one or more geographic regions (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to country of origin of ingredients in a pizza pie when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information regarding the particular ingestible material portion as originating from one or more geographic regions is carried out by electronically receiving status information regarding the particular ingestible material portion as originating from one or more geographic regions (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to country of origin of ingredients in a pizza pie when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1124  for electronically receiving status information regarding the particular ingestible material portion as being endorsed by one or more authoritative entities. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information endorsed instructions i 1124  that when executed will direct performance of the operation o 1124 . In an implementation, the one or more receiving information endorsed instructions i 1124  when executed direct electronically receiving status information regarding the particular ingestible material portion as being endorsed by one or more authoritative entities (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to which nutrition center formulated an energy drink as the particular ingestible material portion when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). Furthermore, the receiving information endorsed electrical circuitry arrangement e 1124  when activated will perform the operation o 1124 . In an implementation, the receiving information endorsed electrical circuitry arrangement e 1124 , when activated performs electronically receiving status information regarding the particular ingestible material portion as being endorsed by one or more authoritative entities (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to which nutrition center formulated an energy drink as the particular ingestible material portion when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information regarding the particular ingestible material portion as being endorsed by one or more authoritative entities is carried out by electronically receiving status information regarding the particular ingestible material portion as being endorsed by one or more authoritative entities (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to which nutrition center formulated an energy drink as the particular ingestible material portion when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1125  for electronically receiving status information regarding the particular ingestible material portion as being approved for one or more designated users. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information approved instructions i 1125  that when executed will direct performance of the operation o 1125 . In an implementation, the one or more receiving information approved instructions i 1125  when executed direct electronically receiving status information regarding the particular ingestible material portion as being approved for one or more designated users (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to what individual human being is authorized to obtain meal replacement bars when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). Furthermore, the receiving information approved electrical circuitry arrangement e 1125  when activated will perform the operation o 1125 . In an implementation, the receiving information approved electrical circuitry arrangement e 1125 , when activated performs electronically receiving status information regarding the particular ingestible material portion as being approved for one or more designated users (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to what individual human being is authorized to obtain meal replacement bars when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information regarding the particular ingestible material portion as being approved for one or more designated users is carried out by electronically receiving status information regarding the particular ingestible material portion as being approved for one or more designated users (e.g. electronic memory  52  coupled to containing assembly  44  is read by receiver  54  to obtain information as to what individual human being is authorized to obtain meal replacement bars when the containing assembly is engaged with the receiving assembly  48  to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). 
     In one or more implementations, as shown in  FIG. 63 , operation o 11  includes an operation o 1126  for electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for pouring the particular ingestible material portion from the at least one manufacture. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information pouring instructions i 1126  that when executed will direct performance of the operation o 1126 . In an implementation, the one or more receiving information pouring instructions i 1126  when executed direct electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 10-12  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for pouring the particular ingestible material portion from the at least one manufacture (e.g. as shown in  FIGS. 10-12 , upon engagement of the containing assembly  44 , including container  46  with sliding barrier  68 , protrusion  66  pushes on the sliding barrier allowing ingestible material  42  to be poured from the containing assembly to flow through orifice  70  into chamber  71  thereby mixing with other ingestible material  69 , etc.). Furthermore, the receiving information pouring electrical circuitry arrangement e 1126  when activated will perform the operation o 1126 . In an implementation, the receiving information pouring electrical circuitry arrangement e 1126 , when activated performs electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 10-12  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for pouring the particular ingestible material portion from the at least one manufacture (e.g. as shown in  FIGS. 10-12 , upon engagement of the containing assembly  44 , including container  46  with sliding barrier  68 , protrusion  66  pushes on the sliding barrier allowing ingestible material  42  to be poured from the containing assembly to flow through orifice  70  into chamber  71  thereby mixing with other ingestible material  69 , etc.). In an implementation, the electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for pouring the particular ingestible material portion from the at least one manufacture is carried out by electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 10-12  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for pouring the particular ingestible material portion from the at least one manufacture (e.g. as shown in  FIGS. 10-12 , upon engagement of the containing assembly  44 , including container  46  with sliding barrier  68 , protrusion  66  pushes on the sliding barrier allowing ingestible material  42  to be poured from the containing assembly to flow through orifice  70  into chamber  71  thereby mixing with other ingestible material  69 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1127  for electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for blowing the particular ingestible material portion from the at least one manufacture. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information blowing instructions i 1127  that when executed will direct performance of the operation o 1127 . In an implementation, the one or more receiving information blowing instructions i 1127  when executed direct electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for blowing the particular ingestible material portion from the at least one manufacture (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as blowing, etc.). Furthermore, the receiving information blowing electrical circuitry arrangement e 1127  when activated will perform the operation o 1127 . In an implementation, the receiving information blowing electrical circuitry arrangement e 1127 , when activated performs electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for blowing the particular ingestible material portion from the at least one manufacture (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as blowing, etc.). In an implementation, the electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for blowing the particular ingestible material portion from the at least one manufacture is carried out by electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for blowing the particular ingestible material portion from the at least one manufacture (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as blowing, etc.). 
     In one or more implementations, operation o 11  includes an operation o 1128  for electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for vacuuming the particular ingestible material portion from the at least one manufacture. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information vacuuming instructions i 1128  that when executed will direct performance of the operation o 1128 . In an implementation, the one or more receiving information vacuuming instructions i 1128  when executed direct electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 4-6  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for vacuuming the particular ingestible material portion from the at least one manufacture (e.g. as shown in  FIGS. 4-6 , upon engagement of the containing assembly  44 , including container  46  with pierceable lid  50 , protrusion  56  pierces lid  50  allowing ingestible material  42  to be collected through orifice  58  as encouraged by vacuum, or other means of force, etc.). Furthermore, the receiving information vacuuming electrical circuitry arrangement e 1128  when activated will perform the operation o 1128 . In an implementation, the receiving information vacuuming electrical circuitry arrangement e 1128 , when activated performs electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 4-6  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for vacuuming the particular ingestible material portion from the at least one manufacture (e.g. as shown in  FIGS. 4-6 , upon engagement of the containing assembly  44 , including container  46  with pierceable lid  50 , protrusion  56  pierces lid  50  allowing ingestible material  42  to be collected through orifice  58  as encouraged by vacuum, or other means of force, etc.). In an implementation, the electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for vacuuming the particular ingestible material portion from the at least one manufacture is carried out by electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 4-6  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for vacuuming the particular ingestible material portion from the at least one manufacture (e.g. as shown in  FIGS. 4-6 , upon engagement of the containing assembly  44 , including container  46  with pierceable lid  50 , protrusion  56  pierces lid  50  allowing ingestible material  42  to be collected through orifice  58  as encouraged by vacuum, or other means of force, etc.). 
     In one or more implementations, operation o 11  includes an operation o 1129  for electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for conveying by auger the particular ingestible material portion from the at least one manufacture. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information auger instructions i 1129  that when executed will direct performance of the operation o 1129 . In an implementation, the one or more receiving information auger instructions i 1129  when executed direct electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for conveying by auger the particular ingestible material portion from the at least one manufacture (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as augering with a portion of the screw cap, etc.). Furthermore, the receiving information auger electrical circuitry arrangement e 1129  when activated will perform the operation o 1129 . In an implementation, the receiving information auger electrical circuitry arrangement e 1129 , when activated performs electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for conveying by auger the particular ingestible material portion from the at least one manufacture (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as augering with a portion of the screw cap, etc.). In an implementation, the electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for conveying by auger the particular ingestible material portion from the at least one manufacture is carried out by electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for conveying by auger the particular ingestible material portion from the at least one manufacture (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as augering with a portion of the screw cap, etc.). 
     In one or more implementations, operation o 11  includes an operation o 1130  for electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for dissolving the particular ingestible material portion in a solution to be transported from the at least one manufacture. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information dissolving instructions i 1130  that when executed will direct performance of the operation o 1130 . In an implementation, the one or more receiving information dissolving instructions i 1130  when executed direct electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 7-9  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for dissolving the particular ingestible material portion in a solution to be transported from the at least one manufacture (e.g. as shown in  FIGS. 7-9 , upon engagement of the containing assembly  44 , including container  46  with pierceable side portion  62 , protrusion  60  pierces side portion  62  allowing ingestible material  42  to flow through orifice  64  to be dissolved in solution  63  held in chamber  65 , etc.). Furthermore, the receiving information dissolving electrical circuitry arrangement e 1130  when activated will perform the operation o 1130 . In an implementation, the receiving information dissolving electrical circuitry arrangement e 1130 , when activated performs electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 7-9  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for dissolving the particular ingestible material portion in a solution to be transported from the at least one manufacture (e.g. as shown in  FIGS. 7-9 , upon engagement of the containing assembly  44 , including container  46  with pierceable side portion  62 , protrusion  60  pierces side portion  62  allowing ingestible material  42  to flow through orifice  64  to be dissolved in solution  63  held in chamber  65 , etc.). In an implementation, the electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for dissolving the particular ingestible material portion in a solution to be transported from the at least one manufacture is carried out by electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 7-9  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for dissolving the particular ingestible material portion in a solution to be transported from the at least one manufacture (e.g. as shown in  FIGS. 7-9 , upon engagement of the containing assembly  44 , including container  46  with pierceable side portion  62 , protrusion  60  pierces side portion  62  allowing ingestible material  42  to flow through orifice  64  to be dissolved in solution  63  held in chamber  65 , etc.). 
     In one or more implementations, as shown in  FIG. 64 , operation o 11  includes an operation o 1131  for electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for fluid transfer of the particular ingestible material portion from the at least one manufacture. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information fluid transfer instructions i 1131  that when executed will direct performance of the operation o 1131 . In an implementation, the one or more receiving information fluid transfer instructions i 1131  when executed direct electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 19-21  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for fluid transfer of the particular ingestible material portion from the at least one manufacture (e.g. as shown in  FIGS. 19-21 , upon engagement of the containing assembly  44 , including container  46  with pierceable wall  84 , syringe needle  86  pierces pierceable wall  84  allowing ingestible material  42  to be sucked into the syringe needle, etc.). Furthermore, the receiving information fluid transfer electrical circuitry arrangement e 1131  when activated will perform the operation o 1131 . In an implementation, the receiving information fluid transfer electrical circuitry arrangement e 1131 , when activated performs electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 19-21  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for fluid transfer of the particular ingestible material portion from the at least one manufacture (e.g. as shown in  FIGS. 19-21 , upon engagement of the containing assembly  44 , including container  46  with pierceable wall  84 , syringe needle  86  pierces pierceable wall  84  allowing ingestible material  42  to be sucked into the syringe needle, etc.). In an implementation, the electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for fluid transfer of the particular ingestible material portion from the at least one manufacture is carried out by electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 19-21  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for fluid transfer of the particular ingestible material portion from the at least one manufacture (e.g. as shown in  FIGS. 19-21 , upon engagement of the containing assembly  44 , including container  46  with pierceable wall  84 , syringe needle  86  pierces pierceable wall  84  allowing ingestible material  42  to be sucked into the syringe needle, etc.). 
     In one or more implementations, operation o 11  includes an operation o 1132  for electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for mixing other material with the particular ingestible material portion from the at least one manufacture. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information mixing other instructions i 1132  that when executed will direct performance of the operation o 1132 . In an implementation, the one or more receiving information mixing other instructions i 1132  when executed direct electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 10-12  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for mixing other material with the particular ingestible material portion from the at least one manufacture (e.g. as shown in  FIGS. 10-12 , upon engagement of the containing assembly  44 , including container  46  with sliding barrier  68 , protrusion  66  pushes on sliding barrier  68  allowing ingestible material  42  to flow through orifice  70  to be poured into chamber  71  thereby mixing with other ingestible material  69 , etc.). Furthermore, the receiving information mixing other electrical circuitry arrangement e 1132  when activated will perform the operation o 1132 . In an implementation, the receiving information mixing other electrical circuitry arrangement e 1132 , when activated performs electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 10-12  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for mixing other material with the particular ingestible material portion from the at least one manufacture (e.g. as shown in  FIGS. 10-12 , upon engagement of the containing assembly  44 , including container  46  with sliding barrier  68 , protrusion  66  pushes on sliding barrier  68  allowing ingestible material  42  to flow through orifice  70  to be poured into chamber  71  thereby mixing with other ingestible material  69 , etc.). In an implementation, the electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for mixing other material with the particular ingestible material portion from the at least one manufacture is carried out by electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 10-12  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for mixing other material with the particular ingestible material portion from the at least one manufacture (e.g. as shown in  FIGS. 10-12 , upon engagement of the containing assembly  44 , including container  46  with sliding barrier  68 , protrusion  66  pushes on sliding barrier  68  allowing ingestible material  42  to flow through orifice  70  to be poured into chamber  71  thereby mixing with other ingestible material  69 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1133  for electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for gravity feeding the particular ingestible material portion from the at least one manufacture. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information gravity instructions i 1133  that when executed will direct performance of the operation o 1133 . In an implementation, the one or more receiving information gravity instructions i 1133  when executed direct electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 4-6  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for gravity feeding the particular ingestible material portion from the at least one manufacture (e.g. as shown in  FIGS. 4-6 , upon engagement of the containing assembly  44 , including container  46  with pierceable lid  50 , protrusion  56  pierces lid  50  allowing ingestible material  42  to be collected through orifice  58  as encouraged by gravity, etc.). Furthermore, the receiving information gravity electrical circuitry arrangement e 1133  when activated will perform the operation o 1133 . In an implementation, the receiving information gravity electrical circuitry arrangement e 1133 , when activated performs electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 4-6  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for gravity feeding the particular ingestible material portion from the at least one manufacture (e.g. as shown in  FIGS. 4-6 , upon engagement of the containing assembly  44 , including container  46  with pierceable lid  50 , protrusion  56  pierces lid  50  allowing ingestible material  42  to be collected through orifice  58  as encouraged by gravity, etc.). In an implementation, the electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for gravity feeding the particular ingestible material portion from the at least one manufacture is carried out by electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 4-6  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for gravity feeding the particular ingestible material portion from the at least one manufacture (e.g. as shown in  FIGS. 4-6 , upon engagement of the containing assembly  44 , including container  46  with pierceable lid  50 , protrusion  56  pierces lid  50  allowing ingestible material  42  to be collected through orifice  58  as encouraged by gravity, etc.). 
     In one or more implementations, operation o 11  includes an operation o 1134  for electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for flow of the particular ingestible material portion through a valve from the at least one manufacture. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information flow instructions i 1134  that when executed will direct performance of the operation o 1134 . In an implementation, the one or more receiving information flow instructions i 1134  when executed direct electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 34-36  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for flow of the particular ingestible material portion through a valve from the at least one manufacture (e.g. as shown in  FIGS. 34-36 , upon engagement of the containing assembly  44 , including container  46  with valve  110 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , valve  110  is opened by member  112  thereby allowing ingestible material  42  to move through orifice  114 , etc.). Furthermore, the receiving information flow electrical circuitry arrangement e 1134  when activated will perform the operation o 1134 . In an implementation, the receiving information flow electrical circuitry arrangement e 1134 , when activated performs electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 34-36  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for flow of the particular ingestible material portion through a valve from the at least one manufacture (e.g. as shown in  FIGS. 34-36 , upon engagement of the containing assembly  44 , including container  46  with valve  110 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , valve  110  is opened by member  112  thereby allowing ingestible material  42  to move through orifice  114 , etc.). In an implementation, the electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for flow of the particular ingestible material portion through a valve from the at least one manufacture is carried out by electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 34-36  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for flow of the particular ingestible material portion through a valve from the at least one manufacture (e.g. as shown in  FIGS. 34-36 , upon engagement of the containing assembly  44 , including container  46  with valve  110 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , valve  110  is opened by member  112  thereby allowing ingestible material  42  to move through orifice  114 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1135  for electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for unfastening a fastener of the at least one manufacture. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information fastener instructions i 1135  that when executed will direct performance of the operation o 1135 . In an implementation, the one or more receiving information fastener instructions i 1135  when executed direct electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for unfastening a fastener of the at least one manufacture (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container, etc.). Furthermore, the receiving information fastener electrical circuitry arrangement e 1135  when activated will perform the operation o 1135 . In an implementation, the receiving information fastener electrical circuitry arrangement e 1135 , when activated performs electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for unfastening a fastener of the at least one manufacture (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container, etc.). In an implementation, the electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for unfastening a fastener of the at least one manufacture is carried out by electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for unfastening a fastener of the at least one manufacture (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container, etc.). 
     In one or more implementations, as shown in  FIG. 65 , operation o 11  includes an operation o 1136  for electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for physically severing a seal on the at least one manufacture. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information seal instructions i 1136  that when executed will direct performance of the operation o 1136 . In an implementation, the one or more receiving information seal instructions i 1136  when executed direct electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 7-9  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for physically severing a seal on the at least one manufacture (e.g. as shown in  FIGS. 7-9 , upon engagement of the containing assembly  44 , including container  46  with pierceable side portion  62 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  60  pierces side portion  62  allowing ingestible material  42  to flow through orifice  64 , etc.). Furthermore, the receiving information seal electrical circuitry arrangement e 1136  when activated will perform the operation o 1136 . In an implementation, the receiving information seal electrical circuitry arrangement e 1136 , when activated performs electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 7-9  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for physically severing a seal on the at least one manufacture (e.g. as shown in  FIGS. 7-9 , upon engagement of the containing assembly  44 , including container  46  with pierceable side portion  62 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  60  pierces side portion  62  allowing ingestible material  42  to flow through orifice  64 , etc.). In an implementation, the electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for physically severing a seal on the at least one manufacture is carried out by electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 7-9  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for physically severing a seal on the at least one manufacture (e.g. as shown in  FIGS. 7-9 , upon engagement of the containing assembly  44 , including container  46  with pierceable side portion  62 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  60  pierces side portion  62  allowing ingestible material  42  to flow through orifice  64 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1137  for electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for piercing a cover material on the at least one manufacture. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information piercing instructions i 1137  that when executed will direct performance of the operation o 1137 . In an implementation, the one or more receiving information piercing instructions i 1137  when executed direct electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 4-6  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for piercing a cover material on the at least one manufacture (e.g. as shown in  FIGS. 4-6 , upon engagement of the containing assembly  44 , including container  46  with pierceable lid  50 , protrusion  56  pierces lid  50  allowing ingestible material  42  to be collected through orifice  58  as encouraged by gravity, vacuum, or other means of force, etc.). Furthermore, the receiving information piercing electrical circuitry arrangement e 1137  when activated will perform the operation o 1137 . In an implementation, the receiving information piercing electrical circuitry arrangement e 1137 , when activated performs electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 4-6  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for piercing a cover material on the at least one manufacture (e.g. as shown in  FIGS. 4-6 , upon engagement of the containing assembly  44 , including container  46  with pierceable lid  50 , protrusion  56  pierces lid  50  allowing ingestible material  42  to be collected through orifice  58  as encouraged by gravity, vacuum, or other means of force, etc.). In an implementation, the electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for piercing a cover material on the at least one manufacture is carried out by electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 4-6  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for piercing a cover material on the at least one manufacture (e.g. as shown in  FIGS. 4-6 , upon engagement of the containing assembly  44 , including container  46  with pierceable lid  50 , protrusion  56  pierces lid  50  allowing ingestible material  42  to be collected through orifice  58  as encouraged by gravity, vacuum, or other means of force, etc.). 
     In one or more implementations, operation o 11  includes an operation o 1138  for electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for moving a sliding barrier on the at least one manufacture. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information sliding instructions i 1138  that when executed will direct performance of the operation o 1138 . In an implementation, the one or more receiving information sliding instructions i 1138  when executed direct electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 10-12  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for moving a sliding barrier on the at least one manufacture (e.g. as shown in  FIGS. 10-12 , upon engagement of the containing assembly  44 , including container  46  with sliding barrier  68 , protrusion  66  pushes on sliding barrier  68  allowing ingestible material  42  to flow through orifice  70  to be poured into chamber  71  thereby mixing with other ingestible material  69 , etc.). Furthermore, the receiving information sliding electrical circuitry arrangement e 1138  when activated will perform the operation o 1138 . In an implementation, the receiving information sliding electrical circuitry arrangement e 1138 , when activated performs electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 10-12  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for moving a sliding barrier on the at least one manufacture (e.g. as shown in  FIGS. 10-12 , upon engagement of the containing assembly  44 , including container  46  with sliding barrier  68 , protrusion  66  pushes on sliding barrier  68  allowing ingestible material  42  to flow through orifice  70  to be poured into chamber  71  thereby mixing with other ingestible material  69 , etc.). In an implementation, the electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for moving a sliding barrier on the at least one manufacture is carried out by electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 10-12  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for moving a sliding barrier on the at least one manufacture (e.g. as shown in  FIGS. 10-12 , upon engagement of the containing assembly  44 , including container  46  with sliding barrier  68 , protrusion  66  pushes on sliding barrier  68  allowing ingestible material  42  to flow through orifice  70  to be poured into chamber  71  thereby mixing with other ingestible material  69 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1139  for electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for moving a hinged lid on the at least one manufacture. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information lid instructions i 1139  that when executed will direct performance of the operation o 1139 . In an implementation, the one or more receiving information lid instructions i 1139  when executed direct electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 13-15  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for moving a hinged lid on the at least one manufacture (e.g. as shown in  FIGS. 13-15 , upon engagement of the containing assembly  44 , including container  46  with hinged lid  74 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  72  opens hinged lid  74  allowing ingestible material  42  to be collected through orifice  76  as encouraged by gravity, vacuum, or other means of force, etc.). Furthermore, the receiving information lid electrical circuitry arrangement e 1139  when activated will perform the operation o 1139 . In an implementation, the receiving information lid electrical circuitry arrangement e 1139 , when activated performs electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 13-15  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for moving a hinged lid on the at least one manufacture (e.g. as shown in  FIGS. 13-15 , upon engagement of the containing assembly  44 , including container  46  with hinged lid  74 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  72  opens hinged lid  74  allowing ingestible material  42  to be collected through orifice  76  as encouraged by gravity, vacuum, or other means of force, etc.). In an implementation, the electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for moving a hinged lid on the at least one manufacture is carried out by electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 13-15  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for moving a hinged lid on the at least one manufacture (e.g. as shown in  FIGS. 13-15 , upon engagement of the containing assembly  44 , including container  46  with hinged lid  74 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  72  opens hinged lid  74  allowing ingestible material  42  to be collected through orifice  76  as encouraged by gravity, vacuum, or other means of force, etc.). 
     In one or more implementations, operation o 11  includes an operation o 1140  for electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for unscrewing a cap on the at least one manufacture. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information cap instructions i 1140  that when executed will direct performance of the operation o 1140 . In an implementation, the one or more receiving information cap instructions i 1140  when executed direct electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for unscrewing a cap on the at least one manufacture (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as augering with a portion of the screw cap, etc.). Furthermore, the receiving information cap electrical circuitry arrangement e 1140  when activated will perform the operation o 1140 . In an implementation, the receiving information cap electrical circuitry arrangement e 1140 , when activated performs electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for unscrewing a cap on the at least one manufacture (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as augering with a portion of the screw cap, etc.). In an implementation, the electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for unscrewing a cap on the at least one manufacture is carried out by electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for unscrewing a cap on the at least one manufacture (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as augering with a portion of the screw cap, etc.). 
     In one or more implementations, as shown in  FIG. 66 , operation o 11  includes an operation o 1141  for electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for insertion of a syringe into the at least one manufacture. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information syringe instructions i 1141  that when executed will direct performance of the operation o 1141 . In an implementation, the one or more receiving information syringe instructions i 1141  when executed direct electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 19-21  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for insertion of a syringe into the at least one manufacture (e.g. as shown in  FIGS. 19-21 , upon engagement of the containing assembly  44 , including container  46  with pierceable wall  84 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , syringe needle  86  pierces pierceable wall  84  allowing ingestible material  42  to be sucked into the syringe needle, etc.). Furthermore, the receiving information syringe electrical circuitry arrangement e 1141  when activated will perform the operation o 1141 . In an implementation, the receiving information syringe electrical circuitry arrangement e 1141 , when activated performs electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 19-21  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for insertion of a syringe into the at least one manufacture (e.g. as shown in  FIGS. 19-21 , upon engagement of the containing assembly  44 , including container  46  with pierceable wall  84 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , syringe needle  86  pierces pierceable wall  84  allowing ingestible material  42  to be sucked into the syringe needle, etc.). In an implementation, the electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for insertion of a syringe into the at least one manufacture is carried out by electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 19-21  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for insertion of a syringe into the at least one manufacture (e.g. as shown in  FIGS. 19-21 , upon engagement of the containing assembly  44 , including container  46  with pierceable wall  84 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , syringe needle  86  pierces pierceable wall  84  allowing ingestible material  42  to be sucked into the syringe needle, etc.). 
     In one or more implementations, operation o 11  includes an operation o 1142  for electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for lifting a tab on the at least one manufacture. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information tab instructions i 1142  that when executed will direct performance of the operation o 1142 . In an implementation, the one or more receiving information tab instructions i 1142  when executed direct electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 22-24  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for lifting a tab on the at least one manufacture (e.g. as shown in  FIGS. 22-24 , upon engagement of the containing assembly  44 , including container  46  with lifting tab  88 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , lifting tab  88  is opened allowing ingestible material  42  to move through orifice  90 , etc.). Furthermore, the receiving information tab electrical circuitry arrangement e 1142  when activated will perform the operation o 1142 . In an implementation, the receiving information tab electrical circuitry arrangement e 1142 , when activated performs electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 22-24  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for lifting a tab on the at least one manufacture (e.g. as shown in  FIGS. 22-24 , upon engagement of the containing assembly  44 , including container  46  with lifting tab  88 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , lifting tab  88  is opened allowing ingestible material  42  to move through orifice  90 , etc.). In an implementation, the electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for lifting a tab on the at least one manufacture is carried out by electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 22-24  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for lifting a tab on the at least one manufacture (e.g. as shown in  FIGS. 22-24 , upon engagement of the containing assembly  44 , including container  46  with lifting tab  88 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , lifting tab  88  is opened allowing ingestible material  42  to move through orifice  90 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1143  for electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for removing a tear away element on the at least one manufacture. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information tear instructions i 1143  that when executed will direct performance of the operation o 1143 . In an implementation, the one or more receiving information tear instructions i 1143  when executed direct electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 25-27  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for removing a tear away element on the at least one manufacture (e.g. as shown in  FIGS. 25-27 , upon engagement of the containing assembly  44 , including container  46  tear away barrier  92 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , shearing member  94  scraps across barrier  92  thereby tearing it away and allowing ingestible material  42  to move through orifice  96 , etc.). Furthermore, the receiving information tear electrical circuitry arrangement e 1143  when activated will perform the operation o 1143 . In an implementation, the receiving information tear electrical circuitry arrangement e 1143 , when activated performs electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 25-27  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for removing a tear away element on the at least one manufacture (e.g. as shown in  FIGS. 25-27 , upon engagement of the containing assembly  44 , including container  46  tear away barrier  92 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , shearing member  94  scraps across barrier  92  thereby tearing it away and allowing ingestible material  42  to move through orifice  96 , etc.). In an implementation, the electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for removing a tear away element on the at least one manufacture is carried out by electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 25-27  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for removing a tear away element on the at least one manufacture (e.g. as shown in  FIGS. 25-27 , upon engagement of the containing assembly  44 , including container  46  tear away barrier  92 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , shearing member  94  scraps across barrier  92  thereby tearing it away and allowing ingestible material  42  to move through orifice  96 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1144  for electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for deforming a material on the at least one manufacture. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information deform instructions i 1144  that when executed will direct performance of the operation o 1144 . In an implementation, the one or more receiving information deform instructions i 1144  when executed direct electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 28-30  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for deforming a material on the at least one manufacture (e.g. as shown in  FIGS. 28-30 , upon engagement of the containing assembly  44 , including container  46  with deformable portion  98 , As containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , deformable portion  98  is deformed to open thereby allowing ingestible material  42  to move through orifice  100 , etc.). Furthermore, the receiving information deform electrical circuitry arrangement e 1144  when activated will perform the operation o 1144 . In an implementation, the receiving information deform electrical circuitry arrangement e 1144 , when activated performs electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 28-30  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for deforming a material on the at least one manufacture (e.g. as shown in  FIGS. 28-30 , upon engagement of the containing assembly  44 , including container  46  with deformable portion  98 , As containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , deformable portion  98  is deformed to open thereby allowing ingestible material  42  to move through orifice  100 , etc.). In an implementation, the electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for deforming a material on the at least one manufacture is carried out by electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 28-30  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for deforming a material on the at least one manufacture (e.g. as shown in  FIGS. 28-30 , upon engagement of the containing assembly  44 , including container  46  with deformable portion  98 , As containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , deformable portion  98  is deformed to open thereby allowing ingestible material  42  to move through orifice  100 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1145  for electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for disengaging a locking mechanism on the at least one manufacture. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information lock instructions i 1145  that when executed will direct performance of the operation o 1145 . In an implementation, the one or more receiving information lock instructions i 1145  when executed direct electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 31-33  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for disengaging a locking mechanism on the at least one manufacture (e.g. as shown in  FIGS. 31-33 , upon engagement of the containing assembly  44 , including container  46  with lockable portion  102 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , lockable portion  102  is unlocked and opened upon verification by code verifiers  106  electronically coupling with code transmitters  108  that receiving assembly  48  is authorized to accept ingestible material  42 , etc.). Furthermore, the receiving information lock electrical circuitry arrangement e 1145  when activated will perform the operation o 1145 . In an implementation, the receiving information lock electrical circuitry arrangement e 1145 , when activated performs electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 31-33  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for disengaging a locking mechanism on the at least one manufacture (e.g. as shown in  FIGS. 31-33 , upon engagement of the containing assembly  44 , including container  46  with lockable portion  102 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , lockable portion  102  is unlocked and opened upon verification by code verifiers  106  electronically coupling with code transmitters  108  that receiving assembly  48  is authorized to accept ingestible material  42 , etc.). In an implementation, the electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture via at least in part an engagement to provide for disengaging a locking mechanism on the at least one manufacture is carried out by electronically receiving status information as related to the first engagement of the automated dispensing system with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 31-33  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) via at least in part an engagement to provide for disengaging a locking mechanism on the at least one manufacture (e.g. as shown in  FIGS. 31-33 , upon engagement of the containing assembly  44 , including container  46  with lockable portion  102 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , lockable portion  102  is unlocked and opened upon verification by code verifiers  106  electronically coupling with code transmitters  108  that receiving assembly  48  is authorized to accept ingestible material  42 , etc.). 
     In one or more implementations, as shown in  FIG. 67 , operation o 11  includes an operation o 1146  for electronically receiving status information related to the first engagement occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a container enclosing the particular ingestible material portion. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information container instructions i 1146  that when executed will direct performance of the operation o 1146 . In an implementation, the one or more receiving information container instructions i 1146  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a container enclosing the particular ingestible material portion (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80  is containing the ingestible material  42  until protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container, etc.). Furthermore, the receiving information container electrical circuitry arrangement e 1146  when activated will perform the operation o 1146 . In an implementation, the receiving information container electrical circuitry arrangement e 1146 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a container enclosing the particular ingestible material portion (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80  is containing the ingestible material  42  until protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container, etc.). In an implementation, the electronically receiving status information related to the first engagement occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a container enclosing the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a container enclosing the particular ingestible material portion (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80  is containing the ingestible material  42  until protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container, etc.). 
     In one or more implementations, operation o 11  includes an operation o 1147  for electronically receiving status information related to the first engagement occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a vial containing a solution with the particular ingestible material portion dissolved therein. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information vial instructions i 1147  that when executed will direct performance of the operation o 1147 . In an implementation, the one or more receiving information vial instructions i 1147  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 19-21  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a vial containing a solution with the particular ingestible material portion dissolved therein (e.g. as shown in  FIGS. 19-21 , upon engagement of the containing assembly  44 , including container  46  as a vial containing a solution with ingestible material  42  dissolved therein with pierceable wall  84 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , syringe needle  86  pierces pierceable wall  84  allowing ingestible material  42  to be sucked into the syringe needle, etc.). Furthermore, the receiving information vial electrical circuitry arrangement e 1147  when activated will perform the operation o 1147 . In an implementation, the receiving information vial electrical circuitry arrangement e 1147 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 19-21  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a vial containing a solution with the particular ingestible material portion dissolved therein (e.g. as shown in  FIGS. 19-21 , upon engagement of the containing assembly  44 , including container  46  as a vial containing a solution with ingestible material  42  dissolved therein with pierceable wall  84 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , syringe needle  86  pierces pierceable wall  84  allowing ingestible material  42  to be sucked into the syringe needle, etc.). In an implementation, the electronically receiving status information related to the first engagement occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a vial containing a solution with the particular ingestible material portion dissolved therein is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 19-21  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a vial containing a solution with the particular ingestible material portion dissolved therein (e.g. as shown in  FIGS. 19-21 , upon engagement of the containing assembly  44 , including container  46  as a vial containing a solution with ingestible material  42  dissolved therein with pierceable wall  84 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , syringe needle  86  pierces pierceable wall  84  allowing ingestible material  42  to be sucked into the syringe needle, etc.). 
     In one or more implementations, operation o 11  includes an operation o 1148  for electronically receiving status information related to the first engagement occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a syringe containing the particular ingestible material portion. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information syringe instructions i 1148  that when executed will direct performance of the operation o 1148 . In an implementation, the one or more receiving information syringe instructions i 1148  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 19-21  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a syringe containing the particular ingestible material portion (e.g. as shown in  FIGS. 19-21 , upon engagement of the containing assembly  44 , including container  46  as a vial containing a solution with ingestible material  42  dissolved therein with pierceable wall  84 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , syringe needle  86  pierces pierceable wall  84  allowing ingestible material  42  to be sucked into the syringe needle, etc.). Furthermore, the receiving information syringe electrical circuitry arrangement e 1148  when activated will perform the operation o 1148 . In an implementation, the receiving information syringe electrical circuitry arrangement e 1148 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 19-21  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a syringe containing the particular ingestible material portion (e.g. as shown in  FIGS. 19-21 , upon engagement of the containing assembly  44 , including container  46  as a vial containing a solution with ingestible material  42  dissolved therein with pierceable wall  84 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , syringe needle  86  pierces pierceable wall  84  allowing ingestible material  42  to be sucked into the syringe needle, etc.). In an implementation, the electronically receiving status information related to the first engagement occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a syringe containing the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 19-21  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a syringe containing the particular ingestible material portion (e.g. as shown in  FIGS. 19-21 , upon engagement of the containing assembly  44 , including container  46  as a vial containing a solution with ingestible material  42  dissolved therein with pierceable wall  84 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , syringe needle  86  pierces pierceable wall  84  allowing ingestible material  42  to be sucked into the syringe needle, etc.). 
     In one or more implementations, operation o 11  includes an operation o 1149  for electronically receiving status information related to the first engagement occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a compressed aerosol container having the particular ingestible material portion contained therein. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information aerosol instructions i 1149  that when executed will direct performance of the operation o 1149 . In an implementation, the one or more receiving information aerosol instructions i 1149  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a compressed aerosol container having the particular ingestible material portion contained therein (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  as a pressurized aerosol container holding the ingestible material  42  under a pressurized aerosol with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  thereby releasing allowing ingestible material  42  under aerosol pressure to flow through orifice  82 , etc.). Furthermore, the receiving information aerosol electrical circuitry arrangement e 1149  when activated will perform the operation o 1149 . In an implementation, the receiving information aerosol electrical circuitry arrangement e 1149 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a compressed aerosol container having the particular ingestible material portion contained therein (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  as a pressurized aerosol container holding the ingestible material  42  under a pressurized aerosol with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  thereby releasing allowing ingestible material  42  under aerosol pressure to flow through orifice  82 , etc.). In an implementation, the electronically receiving status information related to the first engagement occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a compressed aerosol container having the particular ingestible material portion contained therein is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a compressed aerosol container having the particular ingestible material portion contained therein (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  as a pressurized aerosol container holding the ingestible material  42  under a pressurized aerosol with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  thereby releasing allowing ingestible material  42  under aerosol pressure to flow through orifice  82 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1150  for electronically receiving status information related to the first engagement occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as part of an electronic locking mechanism coupled to a container containing the particular ingestible material portion. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information lock instructions i 1150  that when executed will direct performance of the operation o 1150 . In an implementation, the one or more receiving information lock instructions i 1150  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 31-33  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as part of an electronic locking mechanism coupled to a container containing the particular ingestible material portion (e.g. as shown in  FIGS. 31-33 , upon engagement of the containing assembly  44 , including container  46  with lockable portion  102 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , lockable portion  102  is unlocked and opened upon verification by code verifiers  106  electronically coupling with code transmitters  108  that receiving assembly  48  is authorized to accept ingestible material  42 , etc.). Furthermore, the receiving information lock electrical circuitry arrangement e 1150  when activated will perform the operation o 1150 . In an implementation, the receiving information lock electrical circuitry arrangement e 1150 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 31-33  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as part of an electronic locking mechanism coupled to a container containing the particular ingestible material portion (e.g. as shown in  FIGS. 31-33 , upon engagement of the containing assembly  44 , including container  46  with lockable portion  102 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , lockable portion  102  is unlocked and opened upon verification by code verifiers  106  electronically coupling with code transmitters  108  that receiving assembly  48  is authorized to accept ingestible material  42 , etc.). In an implementation, the electronically receiving status information related to the first engagement occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as part of an electronic locking mechanism coupled to a container containing the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 31-33  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as part of an electronic locking mechanism coupled to a container containing the particular ingestible material portion (e.g. as shown in  FIGS. 31-33 , upon engagement of the containing assembly  44 , including container  46  with lockable portion  102 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , lockable portion  102  is unlocked and opened upon verification by code verifiers  106  electronically coupling with code transmitters  108  that receiving assembly  48  is authorized to accept ingestible material  42 , etc.). 
     In one or more implementations, as shown in  FIG. 68 , operation o 11  includes an operation o 1151  for electronically receiving status information related to the first engagement occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as part of a severable seal coupled to a container containing the particular ingestible material portion. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information seal instructions i 1151  that when executed will direct performance of the operation o 1151 . In an implementation, the one or more receiving information seal instructions i 1151  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 7-9  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as part of a severable seal coupled to a container containing the particular ingestible material portion (e.g. as shown in  FIGS. 7-9 , upon engagement of the containing assembly  44 , including container  46  with pierceable side portion  62 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  60  pierces side portion  62  allowing ingestible material  42  to flow through orifice  64 , etc.). Furthermore, the receiving information seal electrical circuitry arrangement e 1151  when activated will perform the operation o 1151 . In an implementation, the receiving information seal electrical circuitry arrangement e 1151 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 7-9  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as part of a severable seal coupled to a container containing the particular ingestible material portion (e.g. as shown in  FIGS. 7-9 , upon engagement of the containing assembly  44 , including container  46  with pierceable side portion  62 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  60  pierces side portion  62  allowing ingestible material  42  to flow through orifice  64 , etc.). In an implementation, the electronically receiving status information related to the first engagement occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as part of a severable seal coupled to a container containing the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 7-9  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as part of a severable seal coupled to a container containing the particular ingestible material portion (e.g. as shown in  FIGS. 7-9 , upon engagement of the containing assembly  44 , including container  46  with pierceable side portion  62 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  60  pierces side portion  62  allowing ingestible material  42  to flow through orifice  64 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1152  for electronically receiving status information related to the first engagement occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as part of a pull-tab on a container holding the particular ingestible material portion. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information tab instructions i 1152  that when executed will direct performance of the operation o 1152 . In an implementation, the one or more receiving information tab instructions i 1152  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 22-24  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as part of a pull-tab on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 22-24 , upon engagement of the containing assembly  44 , including container  46  with lifting tab  88 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , lifting tab  88  is opened allowing ingestible material  42  to move through orifice  90 , etc.). Furthermore, the receiving information tab electrical circuitry arrangement e 1152  when activated will perform the operation o 1152 . In an implementation, the receiving information tab electrical circuitry arrangement e 1152 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 22-24  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as part of a pull-tab on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 22-24 , upon engagement of the containing assembly  44 , including container  46  with lifting tab  88 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , lifting tab  88  is opened allowing ingestible material  42  to move through orifice  90 , etc.). In an implementation, the electronically receiving status information related to the first engagement occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as part of a pull-tab on a container holding the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 22-24  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as part of a pull-tab on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 22-24 , upon engagement of the containing assembly  44 , including container  46  with lifting tab  88 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , lifting tab  88  is opened allowing ingestible material  42  to move through orifice  90 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1153  for electronically receiving status information related to the first engagement occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a tear-away enclosure element on a container holding the particular ingestible material portion. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information tear instructions i 1153  that when executed will direct performance of the operation o 1153 . In an implementation, the one or more receiving information tear instructions i 1153  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 25-27  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a tear-away enclosure element on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 25-27 , upon engagement of the containing assembly  44 , including container  46  tear away barrier  92 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , shearing member  94  scraps across barrier  92  thereby tearing it away and allowing ingestible material  42  to move through orifice  96 , etc.). Furthermore, the receiving information tear electrical circuitry arrangement e 1153  when activated will perform the operation o 1153 . In an implementation, the receiving information tear electrical circuitry arrangement e 1153 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 25-27  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a tear-away enclosure element on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 25-27 , upon engagement of the containing assembly  44 , including container  46  tear away barrier  92 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , shearing member  94  scraps across barrier  92  thereby tearing it away and allowing ingestible material  42  to move through orifice  96 , etc.). In an implementation, the electronically receiving status information related to the first engagement occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a tear-away enclosure element on a container holding the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 25-27  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a tear-away enclosure element on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 25-27 , upon engagement of the containing assembly  44 , including container  46  tear away barrier  92 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , shearing member  94  scraps across barrier  92  thereby tearing it away and allowing ingestible material  42  to move through orifice  96 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1154  for electronically receiving status information related to the first engagement occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a deformable material coupled with a container holding the particular ingestible material portion. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information deform instructions i 1154  that when executed will direct performance of the operation o 1154 . In an implementation, the one or more receiving information deform instructions i 1154  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 28-30  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a deformable material coupled with a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 28-30 , upon engagement of the containing assembly  44 , including container  46  with deformable portion  98 , As containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , deformable portion  98  is deformed to open thereby allowing ingestible material  42  to move through orifice  100 , etc.). Furthermore, the receiving information deform electrical circuitry arrangement e 1154  when activated will perform the operation o 1154 . In an implementation, the receiving information deform electrical circuitry arrangement e 1154 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 28-30  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a deformable material coupled with a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 28-30 , upon engagement of the containing assembly  44 , including container  46  with deformable portion  98 , As containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , deformable portion  98  is deformed to open thereby allowing ingestible material  42  to move through orifice  100 , etc.). In an implementation, the electronically receiving status information related to the first engagement occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a deformable material coupled with a container holding the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 28-30  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a deformable material coupled with a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 28-30 , upon engagement of the containing assembly  44 , including container  46  with deformable portion  98 , As containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , deformable portion  98  is deformed to open thereby allowing ingestible material  42  to move through orifice  100 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1155  for electronically receiving status information related to the first engagement occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a syringe insertable into a container holding the particular ingestible material portion. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information syringe instructions i 1155  that when executed will direct performance of the operation o 1155 . In an implementation, the one or more receiving information syringe instructions i 1155  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 19-21  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a syringe insertable into a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 19-21 , upon engagement of the containing assembly  44 , including container  46  as a vial containing a solution with ingestible material  42  dissolved therein with pierceable wall  84 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , syringe needle  86  pierces pierceable wall  84  allowing ingestible material  42  to be sucked into the syringe needle, etc.). Furthermore, the receiving information syringe electrical circuitry arrangement e 1155  when activated will perform the operation o 1155 . In an implementation, the receiving information syringe electrical circuitry arrangement e 1155 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 19-21  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a syringe insertable into a container holding the particular ingestible material portion (e.g. as shown in FIGS.  19 - 21 , upon engagement of the containing assembly  44 , including container  46  as a vial containing a solution with ingestible material  42  dissolved therein with pierceable wall  84 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , syringe needle  86  pierces pierceable wall  84  allowing ingestible material  42  to be sucked into the syringe needle, etc.). In an implementation, the electronically receiving status information related to the first engagement occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a syringe insertable into a container holding the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 19-21  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) occurring during the first condition including the at least one manufacture being united with the particular ingestible material portion as a syringe insertable into a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 19-21 , upon engagement of the containing assembly  44 , including container  46  as a vial containing a solution with ingestible material  42  dissolved therein with pierceable wall  84 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , syringe needle  86  pierces pierceable wall  84  allowing ingestible material  42  to be sucked into the syringe needle, etc.). 
     In one or more implementations, as shown in  FIG. 69 , operation o 11  includes an operation o 1156  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part pouring the particular ingestible material portion from an interior volume. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information poured instructions i 1156  that when executed will direct performance of the operation o 1156 . In an implementation, the one or more receiving information poured instructions i 1156  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 10-12  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part pouring the particular ingestible material portion from an interior volume (e.g. as shown in  FIGS. 10-12 , upon engagement of the containing assembly  44 , including container  46  with sliding barrier  68 , protrusion  66  pushes on sliding barrier  68  allowing ingestible material  42  to flow through orifice  70  to be poured into chamber  71  thereby mixing with other ingestible material  69 , etc.). Furthermore, the receiving information poured electrical circuitry arrangement e 1156  when activated will perform the operation o 1156 . In an implementation, the receiving information poured electrical circuitry arrangement e 1156 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 10-12  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part pouring the particular ingestible material portion from an interior volume (e.g. as shown in  FIGS. 10-12 , upon engagement of the containing assembly  44 , including container  46  with sliding barrier  68 , protrusion  66  pushes on sliding barrier  68  allowing ingestible material  42  to flow through orifice  70  to be poured into chamber  71  thereby mixing with other ingestible material  69 , etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part pouring the particular ingestible material portion from an interior volume is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 10-12  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part pouring the particular ingestible material portion from an interior volume (e.g. as shown in  FIGS. 10-12 , upon engagement of the containing assembly  44 , including container  46  with sliding barrier  68 , protrusion  66  pushes on sliding barrier  68  allowing ingestible material  42  to flow through orifice  70  to be poured into chamber  71  thereby mixing with other ingestible material  69 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1157  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part blowing the particular ingestible material portion into an interior volume. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information blowing instructions i 1157  that when executed will direct performance of the operation o 1157 . In an implementation, the one or more receiving information blowing instructions i 1157  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part blowing the particular ingestible material portion into an interior volume (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as blowing, etc.). Furthermore, the receiving information blowing electrical circuitry arrangement e 1157  when activated will perform the operation o 1157 . In an implementation, the receiving information blowing electrical circuitry arrangement e 1157 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part blowing the particular ingestible material portion into an interior volume (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as blowing, etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part blowing the particular ingestible material portion into an interior volume is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part blowing the particular ingestible material portion into an interior volume (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as blowing, etc.). 
     In one or more implementations, operation o 11  includes an operation o 1158  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part vacuuming the particular ingestible material portion into an interior volume. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information vacuum instructions i 1158  that when executed will direct performance of the operation o 1158 . In an implementation, the one or more receiving information vacuum instructions i 1158  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 4-6  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part vacuuming the particular ingestible material portion into an interior volume (e.g. as shown in  FIGS. 4-6 , upon engagement of the containing assembly  44 , including container  46  with pierceable lid  50 , protrusion  56  pierces lid  50  allowing ingestible material  42  to be collected through orifice  58  as encouraged by vacuum, or other means of force, etc.). Furthermore, the receiving information vacuum electrical circuitry arrangement e 1158  when activated will perform the operation o 1158 . In an implementation, the receiving information vacuum electrical circuitry arrangement e 1158 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 4-6  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part vacuuming the particular ingestible material portion into an interior volume (e.g. as shown in  FIGS. 4-6 , upon engagement of the containing assembly  44 , including container  46  with pierceable lid  50 , protrusion  56  pierces lid  50  allowing ingestible material  42  to be collected through orifice  58  as encouraged by vacuum, or other means of force, etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part vacuuming the particular ingestible material portion into an interior volume is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 4-6  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part vacuuming the particular ingestible material portion into an interior volume (e.g. as shown in  FIGS. 4-6 , upon engagement of the containing assembly  44 , including container  46  with pierceable lid  50 , protrusion  56  pierces lid  50  allowing ingestible material  42  to be collected through orifice  58  as encouraged by vacuum, or other means of force, etc.). 
     In one or more implementations, operation o 11  includes an operation o 1159  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part augering to convey the particular ingestible material portion into an interior volume. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information auger instructions i 1159  that when executed will direct performance of the operation o 1159 . In an implementation, the one or more receiving information auger instructions i 1159  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part augering to convey the particular ingestible material portion into an interior volume (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as augering with a portion of the screw cap, etc.). Furthermore, the receiving information auger electrical circuitry arrangement e 1159  when activated will perform the operation o 1159 . In an implementation, the receiving information auger electrical circuitry arrangement e 1159 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part augering to convey the particular ingestible material portion into an interior volume (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as augering with a portion of the screw cap, etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part augering to convey the particular ingestible material portion into an interior volume is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part augering to convey the particular ingestible material portion into an interior volume (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as augering with a portion of the screw cap, etc.). 
     In one or more implementations, operation o 11  includes an operation o 1160  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part dissolving the particular ingestible material portion in a solution. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information dissolving instructions i 1160  that when executed will direct performance of the operation o 1160 . In an implementation, the one or more receiving information dissolving instructions i 1160  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 7-9  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part dissolving the particular ingestible material portion in a solution (e.g. as shown in  FIGS. 7-9 , upon engagement of the containing assembly  44 , including container  46  with pierceable side portion  62 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  60  pierces side portion  62  allowing ingestible material  42  to flow through orifice  64 , etc.). Furthermore, the receiving information dissolving electrical circuitry arrangement e 1160  when activated will perform the operation o 1160 . In an implementation, the receiving information dissolving electrical circuitry arrangement e 1160 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 7-9  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part dissolving the particular ingestible material portion in a solution (e.g. as shown in  FIGS. 7-9 , upon engagement of the containing assembly  44 , including container  46  with pierceable side portion  62 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  60  pierces side portion  62  allowing ingestible material  42  to flow through orifice  64 , etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part dissolving the particular ingestible material portion in a solution is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 7-9  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part dissolving the particular ingestible material portion in a solution (e.g. as shown in  FIGS. 7-9 , upon engagement of the containing assembly  44 , including container  46  with pierceable side portion  62 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  60  pierces side portion  62  allowing ingestible material  42  to flow through orifice  64 , etc.). 
     In one or more implementations, as shown in  FIG. 70 , operation o 11  includes an operation o 1161  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part fluid transfer of the particular ingestible material portion. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information fluid transfer instructions i 1161  that when executed will direct performance of the operation o 1161 . In an implementation, the one or more receiving information fluid transfer instructions i 1161  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 19-21  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part fluid transfer of the particular ingestible material portion (e.g. as shown in  FIGS. 19-21 , upon engagement of the containing assembly  44 , including container  46  as a vial containing a solution with ingestible material  42  dissolved therein with pierceable wall  84 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , syringe needle  86  pierces pierceable wall  84  allowing ingestible material  42  to be sucked into the syringe needle, etc.). Furthermore, the receiving information fluid transfer electrical circuitry arrangement e 1161  when activated will perform the operation o 1161 . In an implementation, the receiving information fluid transfer electrical circuitry arrangement e 1161 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 19-21  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part fluid transfer of the particular ingestible material portion (e.g. as shown in  FIGS. 19-21 , upon engagement of the containing assembly  44 , including container  46  as a vial containing a solution with ingestible material  42  dissolved therein with pierceable wall  84 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , syringe needle  86  pierces pierceable wall  84  allowing ingestible material  42  to be sucked into the syringe needle, etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part fluid transfer of the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 19-21  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part fluid transfer of the particular ingestible material portion (e.g. as shown in  FIGS. 19-21 , upon engagement of the containing assembly  44 , including container  46  as a vial containing a solution with ingestible material  42  dissolved therein with pierceable wall  84 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , syringe needle  86  pierces pierceable wall  84  allowing ingestible material  42  to be sucked into the syringe needle, etc.). 
     In one or more implementations, operation o 11  includes an operation o 1162  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part mixing the particular ingestible material portion with other material. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information mixing instructions i 1162  that when executed will direct performance of the operation o 1162 . In an implementation, the one or more receiving information mixing instructions i 1162  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 10-12  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part mixing the particular ingestible material portion with other material (e.g. as shown in  FIGS. 10-12 , upon engagement of the containing assembly  44 , including container  46  with sliding barrier  68 , protrusion  66  pushes on sliding barrier  68  allowing ingestible material  42  to flow through orifice  70  to be poured into chamber  71  thereby mixing with other ingestible material  69 , etc.). Furthermore, the receiving information mixing electrical circuitry arrangement e 1162  when activated will perform the operation o 1162 . In an implementation, the receiving information mixing electrical circuitry arrangement e 1162 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 10-12  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part mixing the particular ingestible material portion with other material (e.g. as shown in  FIGS. 10-12 , upon engagement of the containing assembly  44 , including container  46  with sliding barrier  68 , protrusion  66  pushes on sliding barrier  68  allowing ingestible material  42  to flow through orifice  70  to be poured into chamber  71  thereby mixing with other ingestible material  69 , etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part mixing the particular ingestible material portion with other material is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 10-12  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part mixing the particular ingestible material portion with other material (e.g. as shown in  FIGS. 10-12 , upon engagement of the containing assembly  44 , including container  46  with sliding barrier  68 , protrusion  66  pushes on sliding barrier  68  allowing ingestible material  42  to flow through orifice  70  to be poured into chamber  71  thereby mixing with other ingestible material  69 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1163  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part gravity feeding the particular ingestible material portion. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information gravity instructions i 1163  that when executed will direct performance of the operation o 1163 . In an implementation, the one or more receiving information gravity instructions i 1163  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 10-12  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part gravity feeding the particular ingestible material portion (e.g. as shown in  FIGS. 10-12 , upon engagement of the containing assembly  44 , including container  46  with sliding barrier  68 , protrusion  66  pushes on sliding barrier  68  allowing ingestible material  42  to flow through orifice  70  to be poured into chamber  71  thereby mixing with other ingestible material  69 , etc.). Furthermore, the receiving information gravity electrical circuitry arrangement e 1163  when activated will perform the operation o 1163 . In an implementation, the receiving information gravity electrical circuitry arrangement e 1163 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 10-12  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part gravity feeding the particular ingestible material portion (e.g. as shown in  FIGS. 10-12 , upon engagement of the containing assembly  44 , including container  46  with sliding barrier  68 , protrusion  66  pushes on sliding barrier  68  allowing ingestible material  42  to flow through orifice  70  to be poured into chamber  71  thereby mixing with other ingestible material  69 , etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part gravity feeding the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 10-12  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part gravity feeding the particular ingestible material portion (e.g. as shown in  FIGS. 10-12 , upon engagement of the containing assembly  44 , including container  46  with sliding barrier  68 , protrusion  66  pushes on sliding barrier  68  allowing ingestible material  42  to flow through orifice  70  to be poured into chamber  71  thereby mixing with other ingestible material  69 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1164  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part opening a valve. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more receiving information valve instructions i 1164  that when executed will direct performance of the operation o 1164 . In an implementation, the one or more receiving information valve instructions i 1164  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 34-36  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part opening a valve (e.g. as shown in  FIGS. 34-36 , upon engagement of the containing assembly  44 , including container  46  with valve  110 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , valve  110  is opened by member  112  thereby allowing ingestible material  42  to move through orifice  114 , etc.). Furthermore, the receiving information valve electrical circuitry arrangement e 1164  when activated will perform the operation o 1164 . In an implementation, the receiving information valve electrical circuitry arrangement e 1164 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 34-36  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part opening a valve (e.g. as shown in  FIGS. 34-36 , upon engagement of the containing assembly  44 , including container  46  with valve  110 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , valve  110  is opened by member  112  thereby allowing ingestible material  42  to move through orifice  114 , etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part opening a valve, is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 34-36  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part opening a valve (e.g. as shown in  FIGS. 34-36 , upon engagement of the containing assembly  44 , including container  46  with valve  110 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , valve  110  is opened by member  112  thereby allowing ingestible material  42  to move through orifice  114 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1165  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part unfastening a fastener. A non-transitory signal bearing medium includes one or more receiving information fastener instructions i 1165  that when executed will direct performance of the operation o 1165 . In an implementation, the one or more receiving information fastener instructions i 1165  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part unfastening a fastener (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and unfastens screw cap  80 , as a fastener, from container  46  thereby allowing ingestible material  42  to flow through orifice  82 , etc.). Furthermore, the receiving information fastener electrical circuitry arrangement e 1165  when activated will perform the operation o 1165 . In an implementation, the receiving information fastener electrical circuitry arrangement e 1165 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part unfastening a fastener (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and unfastens screw cap  80 , as a fastener, from container  46  thereby allowing ingestible material  42  to flow through orifice  82 , etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part unfastening a fastener is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part unfastening a fastener (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and unfastens screw cap  80 , as a fastener, from container  46  thereby allowing ingestible material  42  to flow through orifice  82 , etc.). 
     In one or more implementations, as shown in  FIG. 71 , operation o 11  includes an operation o 1166  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part physical severing of a seal on a container holding the particular ingestible material portion. A non-transitory signal bearing medium includes one or more receiving information seal instructions i 1166  that when executed will direct performance of the operation o 1166 . In an implementation, the one or more receiving information seal instructions i 1166  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 7-9  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part physical severing of a seal on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 7-9 , upon engagement of the containing assembly  44 , including container  46  with pierceable side portion  62 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  60  pierces side portion  62  allowing ingestible material  42  to flow through orifice  64 , etc.). Furthermore, the receiving information seal electrical circuitry arrangement e 1166  when activated will perform the operation o 1166 . In an implementation, the receiving information seal electrical circuitry arrangement e 1166 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 7-9  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part physical severing of a seal on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 7-9 , upon engagement of the containing assembly  44 , including container  46  with pierceable side portion  62 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  60  pierces side portion  62  allowing ingestible material  42  to flow through orifice  64 , etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part physical severing of a seal on a container holding the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 7-9  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part physical severing of a seal on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 7-9 , upon engagement of the containing assembly  44 , including container  46  with pierceable side portion  62 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  60  pierces side portion  62  allowing ingestible material  42  to flow through orifice  64 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1167  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part piercing a cover material on a container holding the particular ingestible material portion. A non-transitory signal bearing medium includes one or more receiving information piercing instructions i 1167  that when executed will direct performance of the operation o 1167 . In an implementation, the one or more receiving information piercing instructions i 1167  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 4-6  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part piercing a cover material on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 4-6 , upon engagement of the containing assembly  44 , including container  46  with pierceable lid  50 , protrusion  56  pierces lid  50  allowing ingestible material  42  to be collected through orifice  58  as encouraged by gravity, vacuum, or other means of force, etc.). Furthermore, the receiving information piercing electrical circuitry arrangement e 1167  when activated will perform the operation o 1167 . In an implementation, the receiving information piercing electrical circuitry arrangement e 1167 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 4-6  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part piercing a cover material on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 4-6 , upon engagement of the containing assembly  44 , including container  46  with pierceable lid  50 , protrusion  56  pierces lid  50  allowing ingestible material  42  to be collected through orifice  58  as encouraged by gravity, vacuum, or other means of force, etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part piercing a cover material on a container holding the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 4-6  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part piercing a cover material on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 4-6 , upon engagement of the containing assembly  44 , including container  46  with pierceable lid  50 , protrusion  56  pierces lid  50  allowing ingestible material  42  to be collected through orifice  58  as encouraged by gravity, vacuum, or other means of force, etc.). 
     In one or more implementations, operation o 11  includes an operation o 1168  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part moving a sliding barrier on a container holding the particular ingestible material portion. A non-transitory signal bearing medium includes one or more receiving information sliding instructions i 1168  that when executed will direct performance of the operation o 1168 . In an implementation, the one or more receiving information sliding instructions i 1168  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 10-12  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part moving a sliding barrier on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 10-12 , upon engagement of the containing assembly  44 , including container  46  with sliding barrier  68 , protrusion  66  pushes on sliding barrier  68  allowing ingestible material  42  to flow through orifice  70  to be poured into chamber  71  thereby mixing with other ingestible material  69 , etc.). Furthermore, the receiving information sliding electrical circuitry arrangement e 1168  when activated will perform the operation o 1168 . In an implementation, the receiving information sliding electrical circuitry arrangement e 1168 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 10-12  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part moving a sliding barrier on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 10-12 , upon engagement of the containing assembly  44 , including container  46  with sliding barrier  68 , protrusion  66  pushes on sliding barrier  68  allowing ingestible material  42  to flow through orifice  70  to be poured into chamber  71  thereby mixing with other ingestible material  69 , etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part moving a sliding barrier on a container holding the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 10-12  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part moving a sliding barrier on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 10-12 , upon engagement of the containing assembly  44 , including container  46  with sliding barrier  68 , protrusion  66  pushes on sliding barrier  68  allowing ingestible material  42  to flow through orifice  70  to be poured into chamber  71  thereby mixing with other ingestible material  69 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1169  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part moving a hinged lid on a container holding the particular ingestible material portion. A non-transitory signal bearing medium includes one or more receiving information lid instructions i 1169  that when executed will direct performance of the operation o 1169 . In an implementation, the one or more receiving information lid instructions i 1169  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 13-15  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part moving a hinged lid on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 13-15 , upon engagement of the containing assembly  44 , including container  46  with hinged lid  74 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  72  opens hinged lid  74  allowing ingestible material  42  to be collected through orifice  76  as encouraged by gravity, vacuum, or other means of force, etc.). Furthermore, the receiving information lid electrical circuitry arrangement e 1169  when activated will perform the operation o 1169 . In an implementation, the receiving information lid electrical circuitry arrangement e 1169 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 13-15  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part moving a hinged lid on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 13-15 , upon engagement of the containing assembly  44 , including container  46  with hinged lid  74 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  72  opens hinged lid  74  allowing ingestible material  42  to be collected through orifice  76  as encouraged by gravity, vacuum, or other means of force, etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part moving a hinged lid on a container holding the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 13-15  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part moving a hinged lid on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 13-15 , upon engagement of the containing assembly  44 , including container  46  with hinged lid  74 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  72  opens hinged lid  74  allowing ingestible material  42  to be collected through orifice  76  as encouraged by gravity, vacuum, or other means of force, etc.). 
     In one or more implementations, operation o 11  includes an operation o 1170  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part unscrewing a cap on a container holding the particular ingestible material portion. A non-transitory signal bearing medium includes one or more receiving information cap instructions i 1170  that when executed will direct performance of the operation o 1170 . In an implementation, the one or more receiving information cap instructions i 1170  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part unscrewing a cap on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as augering with a portion of the screw cap, etc.). Furthermore, the receiving information cap electrical circuitry arrangement e 1170  when activated will perform the operation o 1170 . In an implementation, the receiving information cap electrical circuitry arrangement e 1170 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part unscrewing a cap on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as augering with a portion of the screw cap, etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part unscrewing a cap on a container holding the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part unscrewing a cap on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as augering with a portion of the screw cap, etc.). 
     In one or more implementations, operation o 11  includes an operation o 1165  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part unfastening a fastener. A non-transitory signal bearing medium includes one or more receiving information fastener instructions i 1165  that when executed will direct performance of the operation o 1165 . In an implementation, the one or more receiving information fastener instructions i 1165  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part unfastening a fastener (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and unfastens screw cap  80 , as a fastener, from container  46  thereby allowing ingestible material  42  to flow through orifice  82 , etc.). Furthermore, the receiving information fastener electrical circuitry arrangement e 1165  when activated will perform the operation o 1165 . In an implementation, the receiving information fastener electrical circuitry arrangement e 1165 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part unfastening a fastener (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and unfastens screw cap  80 , as a fastener, from container  46  thereby allowing ingestible material  42  to flow through orifice  82 , etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part unfastening a fastener is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part unfastening a fastener (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and unfastens screw cap  80 , as a fastener, from container  46  thereby allowing ingestible material  42  to flow through orifice  82 , etc.). 
     In one or more implementations, as shown in  FIG. 71 , operation o 11  includes an operation o 1166  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part physical severing of a seal on a container holding the particular ingestible material portion. A non-transitory signal bearing medium includes one or more receiving information seal instructions i 1166  that when executed will direct performance of the operation o 1166 . In an implementation, the one or more receiving information seal instructions i 1166  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 7-9  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part physical severing of a seal on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 7-9 , upon engagement of the containing assembly  44 , including container  46  with pierceable side portion  62 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  60  pierces side portion  62  allowing ingestible material  42  to flow through orifice  64 , etc.). Furthermore, the receiving information seal electrical circuitry arrangement e 1166  when activated will perform the operation o 1166 . In an implementation, the receiving information seal electrical circuitry arrangement e 1166 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 7-9  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part physical severing of a seal on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 7-9 , upon engagement of the containing assembly  44 , including container  46  with pierceable side portion  62 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  60  pierces side portion  62  allowing ingestible material  42  to flow through orifice  64 , etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part physical severing of a seal on a container holding the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 7-9  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part physical severing of a seal on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 7-9 , upon engagement of the containing assembly  44 , including container  46  with pierceable side portion  62 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  60  pierces side portion  62  allowing ingestible material  42  to flow through orifice  64 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1167  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part piercing a cover material on a container holding the particular ingestible material portion. A non-transitory signal bearing medium includes one or more receiving information piercing instructions i 1167  that when executed will direct performance of the operation o 1167 . In an implementation, the one or more receiving information piercing instructions i 1167  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 4-6  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part piercing a cover material on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 4-6 , upon engagement of the containing assembly  44 , including container  46  with pierceable lid  50 , protrusion  56  pierces lid  50  allowing ingestible material  42  to be collected through orifice  58  as encouraged by gravity, vacuum, or other means of force, etc.). Furthermore, the receiving information piercing electrical circuitry arrangement e 1167  when activated will perform the operation o 1167 . In an implementation, the receiving information piercing electrical circuitry arrangement e 1167 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 4-6  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part piercing a cover material on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 4-6 , upon engagement of the containing assembly  44 , including container  46  with pierceable lid  50 , protrusion  56  pierces lid  50  allowing ingestible material  42  to be collected through orifice  58  as encouraged by gravity, vacuum, or other means of force, etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part piercing a cover material on a container holding the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 4-6  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part piercing a cover material on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 4-6 , upon engagement of the containing assembly  44 , including container  46  with pierceable lid  50 , protrusion  56  pierces lid  50  allowing ingestible material  42  to be collected through orifice  58  as encouraged by gravity, vacuum, or other means of force, etc.). 
     In one or more implementations, operation o 11  includes an operation o 1168  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part moving a sliding barrier on a container holding the particular ingestible material portion. A non-transitory signal bearing medium includes one or more receiving information sliding instructions i 1168  that when executed will direct performance of the operation o 1168 . In an implementation, the one or more receiving information sliding instructions i 1168  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 10-12  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part moving a sliding barrier on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 10-12 , upon engagement of the containing assembly  44 , including container  46  with sliding barrier  68 , protrusion  66  pushes on sliding barrier  68  allowing ingestible material  42  to flow through orifice  70  to be poured into chamber  71  thereby mixing with other ingestible material  69 , etc.). Furthermore, the receiving information sliding electrical circuitry arrangement e 1168  when activated will perform the operation o 1168 . In an implementation, the receiving information sliding electrical circuitry arrangement e 1168 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 10-12  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part moving a sliding barrier on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 10-12 , upon engagement of the containing assembly  44 , including container  46  with sliding barrier  68 , protrusion  66  pushes on sliding barrier  68  allowing ingestible material  42  to flow through orifice  70  to be poured into chamber  71  thereby mixing with other ingestible material  69 , etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part moving a sliding barrier on a container holding the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 10-12  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part moving a sliding barrier on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 10-12 , upon engagement of the containing assembly  44 , including container  46  with sliding barrier  68 , protrusion  66  pushes on sliding barrier  68  allowing ingestible material  42  to flow through orifice  70  to be poured into chamber  71  thereby mixing with other ingestible material  69 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1169  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part moving a hinged lid on a container holding the particular ingestible material portion. A non-transitory signal bearing medium includes one or more receiving information lid instructions i 1169  that when executed will direct performance of the operation o 1169 . In an implementation, the one or more receiving information lid instructions i 1169  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 13-15  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part moving a hinged lid on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 13-15 , upon engagement of the containing assembly  44 , including container  46  with hinged lid  74 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  72  opens hinged lid  74  allowing ingestible material  42  to be collected through orifice  76  as encouraged by gravity, vacuum, or other means of force, etc.). Furthermore, the receiving information lid electrical circuitry arrangement e 1169  when activated will perform the operation o 1169 . In an implementation, the receiving information lid electrical circuitry arrangement e 1169 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 13-15  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part moving a hinged lid on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 13-15 , upon engagement of the containing assembly  44 , including container  46  with hinged lid  74 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  72  opens hinged lid  74  allowing ingestible material  42  to be collected through orifice  76  as encouraged by gravity, vacuum, or other means of force, etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part moving a hinged lid on a container holding the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 13-15  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part moving a hinged lid on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 13-15 , upon engagement of the containing assembly  44 , including container  46  with hinged lid  74 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  72  opens hinged lid  74  allowing ingestible material  42  to be collected through orifice  76  as encouraged by gravity, vacuum, or other means of force, etc.). 
     In one or more implementations, operation o 11  includes an operation o 1170  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part unscrewing a cap on a container holding the particular ingestible material portion. A non-transitory signal bearing medium includes one or more receiving information cap instructions i 1170  that when executed will direct performance of the operation o 1170 . In an implementation, the one or more receiving information cap instructions i 1170  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part unscrewing a cap on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as augering with a portion of the screw cap, etc.). Furthermore, the receiving information cap electrical circuitry arrangement e 1170  when activated will perform the operation o 1170 . In an implementation, the receiving information cap electrical circuitry arrangement e 1170 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part unscrewing a cap on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as augering with a portion of the screw cap, etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part unscrewing a cap on a container holding the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part unscrewing a cap on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as augering with a portion of the screw cap, etc.). 
     In one or more implementations, as shown in  FIG. 72 , operation o 11  includes an operation o 1171  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part insertion of a syringe into a container holding the particular ingestible material portion. A non-transitory signal bearing medium includes one or more receiving information syringe instructions i 1171  that when executed will direct performance of the operation o 1171 . In an implementation, the one or more receiving information syringe instructions i 1171  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 19-21  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part insertion of a syringe into a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 19-21 , upon engagement of the containing assembly  44 , including container  46  as a vial containing a solution with ingestible material  42  dissolved therein with pierceable wall  84 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , syringe needle  86  pierces pierceable wall  84  allowing ingestible material  42  to be sucked into the syringe needle, etc.). Furthermore, the receiving information syringe electrical circuitry arrangement e 1171  when activated will perform the operation o 1171 . In an implementation, the receiving information syringe electrical circuitry arrangement e 1171 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 19-21  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part insertion of a syringe into a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 19-21 , upon engagement of the containing assembly  44 , including container  46  as a vial containing a solution with ingestible material  42  dissolved therein with pierceable wall  84 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , syringe needle  86  pierces pierceable wall  84  allowing ingestible material  42  to be sucked into the syringe needle, etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part insertion of a syringe into a container holding the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 19-21  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part insertion of a syringe into a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 19-21 , upon engagement of the containing assembly  44 , including container  46  as a vial containing a solution with ingestible material  42  dissolved therein with pierceable wall  84 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , syringe needle  86  pierces pierceable wall  84  allowing ingestible material  42  to be sucked into the syringe needle, etc.). 
     In one or more implementations, operation o 11  includes an operation o 1172  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part lifting a tab on a container holding the particular ingestible material portion. A non-transitory signal bearing medium includes one or more receiving information tab instructions i 1172  that when executed will direct performance of the operation o 1172 . In an implementation, the one or more receiving information tab instructions i 1172  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 22-24  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part lifting a tab on a container holding the particular ingestible material portion (e.g. as shown in FIGS.  22 - 24 , upon engagement of the containing assembly  44 , including container  46  with lifting tab  88 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , lifting tab  88  is opened allowing ingestible material  42  to move through orifice  90 , etc.). Furthermore, the receiving information tab electrical circuitry arrangement e 1172  when activated will perform the operation o 1172 . In an implementation, the receiving information tab electrical circuitry arrangement e 1172 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 22-24  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part lifting a tab on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 22-24 , upon engagement of the containing assembly  44 , including container  46  with lifting tab  88 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , lifting tab  88  is opened allowing ingestible material  42  to move through orifice  90 , etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part lifting a tab on a container holding the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 22-24  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part lifting a tab on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 22-24 , upon engagement of the containing assembly  44 , including container  46  with lifting tab  88 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , lifting tab  88  is opened allowing ingestible material  42  to move through orifice  90 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1173  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part removing a tear-away enclosure element on a container holding the particular ingestible material portion. A non-transitory signal bearing medium includes one or more receiving information tear instructions i 1173  that when executed will direct performance of the operation o 1173 . In an implementation, the one or more receiving information tear instructions i 1173  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 25-27  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part removing a tear-away enclosure element on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 25-27 , upon engagement of the containing assembly  44 , including container  46  tear away barrier  92 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , shearing member  94  scraps across barrier  92  thereby tearing it away and allowing ingestible material  42  to move through orifice  96 , etc.). Furthermore, the receiving information tear electrical circuitry arrangement e 1173  when activated will perform the operation o 1173 . In an implementation, the receiving information tear electrical circuitry arrangement e 1173 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 25-27  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part removing a tear-away enclosure element on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 25-27 , upon engagement of the containing assembly  44 , including container  46  tear away barrier  92 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , shearing member  94  scraps across barrier  92  thereby tearing it away and allowing ingestible material  42  to move through orifice  96 , etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part removing a tear-away enclosure element on a container holding the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 25-27  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part removing a tear-away enclosure element on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 25-27 , upon engagement of the containing assembly  44 , including container  46  tear away barrier  92 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , shearing member  94  scraps across barrier  92  thereby tearing it away and allowing ingestible material  42  to move through orifice  96 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1174  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part deforming a material on a container holding the particular ingestible material portion. A non-transitory signal bearing medium includes one or more receiving information deform instructions i 1174  that when executed will direct performance of the operation o 1174 . In an implementation, the one or more receiving information deform instructions i 1174  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 28-30  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part deforming a material on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 28-30 , upon engagement of the containing assembly  44 , including container  46  with deformable portion  98 , As containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , deformable portion  98  is deformed to open thereby allowing ingestible material  42  to move through orifice  100 , etc.). Furthermore, the receiving information deform electrical circuitry arrangement e 1174  when activated will perform the operation o 1174 . In an implementation, the receiving information deform electrical circuitry arrangement e 1174 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 28-30  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part deforming a material on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 28-30 , upon engagement of the containing assembly  44 , including container  46  with deformable portion  98 , As containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , deformable portion  98  is deformed to open thereby allowing ingestible material  42  to move through orifice  100 , etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part deforming a material on a container holding the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 28-30  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part deforming a material on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 28-30 , upon engagement of the containing assembly  44 , including container  46  with deformable portion  98 , As containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , deformable portion  98  is deformed to open thereby allowing ingestible material  42  to move through orifice  100 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1175  for electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part disengaging a locking mechanism on a container holding the particular ingestible material portion. A non-transitory signal bearing medium includes one or more receiving information lock instructions i 1175  that when executed will direct performance of the operation o 1175 . In an implementation, the one or more receiving information lock instructions i 1175  when executed direct electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 31-33  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part disengaging a locking mechanism on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 31-33 , upon engagement of the containing assembly  44 , including container  46  with lockable portion  102 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , lockable portion  102  is unlocked and opened upon verification by code verifiers  106  electronically coupling with code transmitters  108  that receiving assembly  48  is authorized to accept ingestible material  42 , etc.). Furthermore, the receiving information lock electrical circuitry arrangement e 1175  when activated will perform the operation o 1175 . In an implementation, the receiving information lock electrical circuitry arrangement e 1175 , when activated performs electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 31-33  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part disengaging a locking mechanism on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 31-33 , upon engagement of the containing assembly  44 , including container  46  with lockable portion  102 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , lockable portion  102  is unlocked and opened upon verification by code verifiers  106  electronically coupling with code transmitters  108  that receiving assembly  48  is authorized to accept ingestible material  42 , etc.). In an implementation, the electronically receiving status information related to the first engagement to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part disengaging a locking mechanism on a container holding the particular ingestible material portion is carried out by electronically receiving status information related to the first engagement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 31-33  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.) to facilitate access by the automated dispensing system to the particular ingestible material portion via at least in part disengaging a locking mechanism on a container holding the particular ingestible material portion (e.g. as shown in  FIGS. 31-33 , upon engagement of the containing assembly  44 , including container  46  with lockable portion  102 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , lockable portion  102  is unlocked and opened upon verification by code verifiers  106  electronically coupling with code transmitters  108  that receiving assembly  48  is authorized to accept ingestible material  42 , etc.). 
     In one or more implementations, as shown in  FIG. 73 , operation o 11  includes an operation o 1176  for electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a smoothie drink. A non-transitory signal bearing medium includes one or more receiving information smoothie instructions i 1176  that when executed will direct performance of the operation o 1176 . In an implementation, the one or more receiving information smoothie instructions i 1176  when executed direct electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a smoothie drink (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  as part of a smoothie drink contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). Furthermore, the receiving information smoothie electrical circuitry arrangement e 1176  when activated will perform the operation o 1176 . In an implementation, the receiving information smoothie electrical circuitry arrangement e 1176 , when activated performs electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a smoothie drink (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  as part of a smoothie drink contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a smoothie drink is carried out by electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a smoothie drink (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  as part of a smoothie drink contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1177  for electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a snack bar. A non-transitory signal bearing medium includes one or more receiving information bar instructions i 1177  that when executed will direct performance of the operation o 1177 . In an implementation, the one or more receiving information bar instructions i 1177  when executed direct electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a snack bar (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  as part of a snack bar contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). Furthermore, the receiving information bar electrical circuitry arrangement e 1177  when activated will perform the operation o 1177 . In an implementation, the receiving information bar electrical circuitry arrangement e 1177 , when activated performs electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a snack bar (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  as part of a snack bar contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a snack bar is carried out by electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a snack bar (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  as part of a snack bar contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1178  for electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a sandwich. A non-transitory signal bearing medium includes one or more receiving information sandwich instructions i 1178  that when executed will direct performance of the operation o 1178 . In an implementation, the one or more receiving information sandwich instructions i 1178  when executed direct electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a sandwich (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  as part of a sandwich contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). Furthermore, the receiving information sandwich electrical circuitry arrangement e 1178  when activated will perform the operation o 1178 . In an implementation, the receiving information sandwich electrical circuitry arrangement e 1178 , when activated performs electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a sandwich (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  as part of a sandwich contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a sandwich is carried out by electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a sandwich (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  as part of a sandwich contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1179  for electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a fruit drink. A non-transitory signal bearing medium includes one or more receiving information drink instructions i 1179  that when executed will direct performance of the operation o 1179 . In an implementation, the one or more receiving information drink instructions i 1179  when executed direct electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a fruit drink (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  as part of a fruit drink contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). Furthermore, the receiving information drink electrical circuitry arrangement e 1179  when activated will perform the operation o 1179 . In an implementation, the receiving information drink electrical circuitry arrangement e 1179 , when activated performs electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a fruit drink (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  as part of a fruit drink contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a fruit drink is carried out by electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a fruit drink (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  as part of a fruit drink contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1180  for electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a meal replacement. A non-transitory signal bearing medium includes one or more receiving information meal instructions i 1180  that when executed will direct performance of the operation o 1180 . In an implementation, the one or more receiving information meal instructions i 1180  when executed direct electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a meal replacement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  as part of a meal replacement contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). Furthermore, the receiving information meal electrical circuitry arrangement e 1180  when activated will perform the operation o 1180 . In an implementation, the receiving information meal electrical circuitry arrangement e 1180 , when activated performs electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a meal replacement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  as part of a meal replacement contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a meal replacement is carried out by electronically receiving status information as related to a particular ingestible material portion for dispensing of the particular ingestible material portion as part of a meal replacement (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  as part of a meal replacement contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). 
     In one or more implementations, as shown in  FIG. 74 , operation o 11  includes an operation o 1181  for electronically receiving status information including information based at least in part upon whether the automated dispensing system has been disengaged subsequent to an engagement with the at least one manufacture, during the first condition and prior to the first engagement. A non-transitory signal bearing medium includes one or more receiving information disengaged instructions i 1181  that when executed will direct performance of the operation o 1181 . In an implementation, the one or more receiving information disengaged instructions i 1181  when executed direct electronically receiving status information including information based at least in part upon whether the automated dispensing system has been disengaged subsequent to an engagement with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture without any prior engagements with the containing assembly  44  containing the ingestible material, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.), during the first condition and prior to the first engagement (e.g. prior to the first engagement as prior to as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as augering with a portion of the screw cap, etc.). Furthermore, the receiving information disengaged electrical circuitry arrangement e 1181  when activated will perform the operation o 1181 . In an implementation, the receiving information disengaged electrical circuitry arrangement e 1181 , when activated performs electronically receiving status information including information based at least in part upon whether the automated dispensing system has been disengaged subsequent to an engagement with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture without any prior engagements with the containing assembly  44  containing the ingestible material, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.), during the first condition and prior to the first engagement (e.g. prior to the first engagement as prior to as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as augering with a portion of the screw cap, etc.). In an implementation, the electronically receiving status information including information based at least in part upon whether the automated dispensing system has been disengaged subsequent to an engagement with the at least one manufacture, during the first condition and prior to the first engagement is carried out by electronically receiving status information including information based at least in part upon whether the automated dispensing system has been disengaged subsequent to an engagement with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture without any prior engagements with the containing assembly  44  containing the ingestible material, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.), during the first condition and prior to the first engagement (e.g. prior to the first engagement as prior to as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as augering with a portion of the screw cap, etc.). 
     In one or more implementations, operation o 11  includes an operation o 1182  for electronically receiving status information including instruction to prevent dispensing of the particular ingestible material if the automated dispensing system has been disengaged subsequent to an engagement with the at least one manufacture, during the first condition and prior to the first engagement. A non-transitory signal bearing medium includes one or more receiving information prevent instructions i 1182  that when executed will direct performance of the operation o 1182 . In an implementation, the one or more receiving information prevent instructions i 1182  when executed direct electronically receiving status information including instruction to prevent dispensing of the particular ingestible material if the automated dispensing system has been disengaged subsequent to an engagement with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information including instructions not to dispense the ingestible material  42  contained by containing assembly  44  when the containing assembly containing the ingestible material has already been engaged and disengaged with the receiving assembly  48  prior to the present engagement as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.), during the first condition and prior to the first engagement (e.g. as shown in  FIGS. 16-18 , as the first engagement whereupon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as augering with a portion of the screw cap, etc.). Furthermore, the receiving information prevent electrical circuitry arrangement e 1182  when activated will perform the operation o 1182 . In an implementation, the receiving information prevent electrical circuitry arrangement e 1182 , when activated performs electronically receiving status information including instruction to prevent dispensing of the particular ingestible material if the automated dispensing system has been disengaged subsequent to an engagement with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information including instructions not to dispense the ingestible material  42  contained by containing assembly  44  when the containing assembly containing the ingestible material has already been engaged and disengaged with the receiving assembly  48  prior to the present engagement as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.), during the first condition and prior to the first engagement (e.g. as shown in  FIGS. 16-18 , as the first engagement whereupon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as augering with a portion of the screw cap, etc.). In an implementation, the electronically receiving status information including instruction to prevent dispensing of the particular ingestible material if the automated dispensing system has been disengaged subsequent to an engagement with the at least one manufacture, during the first condition and prior to the first engagement is carried out by electronically receiving status information including instruction to prevent dispensing of the particular ingestible material if the automated dispensing system has been disengaged subsequent to an engagement with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information including instructions not to dispense the ingestible material  42  contained by containing assembly  44  when the containing assembly containing the ingestible material has already been engaged and disengaged with the receiving assembly  48  prior to the present engagement as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.), during the first condition and prior to the first engagement (e.g. as shown in  FIGS. 16-18 , as the first engagement whereupon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as augering with a portion of the screw cap, etc.). 
     In one or more implementations, operation o 11  includes an operation o 1183  for electronically receiving status information including information based at least in part upon whether the automated dispensing system has remained unengaged with the at least one manufacture during the first condition and prior to the first engagement. A non-transitory signal bearing medium includes one or more receiving information remained instructions i 1183  that when executed will direct performance of the operation o 1183 . In an implementation, the one or more receiving information remained instructions i 1183  when executed direct electronically receiving status information including information based at least in part upon whether the automated dispensing system has remained unengaged with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged for the first time while it has contained the ingestible material with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.), during the first condition and prior to the first engagement (e.g. during the first condition as the ingestible material  42  being contained by the containing assembly  44  and the first engagement as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as augering with a portion of the screw cap, etc.). Furthermore, the receiving information remained electrical circuitry arrangement e 1183  when activated will perform the operation o 1183 . In an implementation, the receiving information remained electrical circuitry arrangement e 1183 , when activated performs electronically receiving status information including information based at least in part upon whether the automated dispensing system has remained unengaged with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged for the first time while it has contained the ingestible material with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.), during the first condition and prior to the first engagement (e.g. during the first condition as the ingestible material  42  being contained by the containing assembly  44  and the first engagement as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as augering with a portion of the screw cap, etc.). In an implementation, the electronically receiving status information including information based at least in part upon whether the automated dispensing system has remained unengaged with the at least one manufacture during the first condition and prior to the first engagement is carried out by electronically receiving status information including information based at least in part upon whether the automated dispensing system has remained unengaged with the at least one manufacture (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged for the first time while it has contained the ingestible material with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.), during the first condition and prior to the first engagement (e.g. during the first condition as the ingestible material  42  being contained by the containing assembly  44  and the first engagement as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  allowing ingestible material  42  to flow through orifice  82  from the container as encouraged by means of force such as augering with a portion of the screw cap, etc.). 
     In one or more implementations, operation o 11  includes an operation o 1184  for electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a container with screw cap containing the particular ingestible material portion. A non-transitory signal bearing medium includes one or more receiving information cap instructions i 1184  that when executed will direct performance of the operation o 1184 . In an implementation, the one or more receiving information cap instructions i 1184  when executed direct electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a container with screw cap containing the particular ingestible material portion (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20  and as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  holding the ingestible material  42  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  thereby releasing allowing ingestible material  42  under aerosol pressure to flow through orifice  82 , etc.). Furthermore, the receiving information cap electrical circuitry arrangement e 1184  when activated will perform the operation o 1184 . In an implementation, the receiving information cap electrical circuitry arrangement e 1184 , when activated performs electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a container with screw cap containing the particular ingestible material portion (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20  and as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  holding the ingestible material  42  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  thereby releasing allowing ingestible material  42  under aerosol pressure to flow through orifice  82 , etc.). In an implementation, the electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a container with screw cap containing the particular ingestible material portion is carried out by electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a container with screw cap containing the particular ingestible material portion (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20  and as shown in  FIGS. 16-18 , upon engagement of the containing assembly  44 , including container  46  holding the ingestible material  42  with screw cap  80 , protrusion  78  receives, unscrews, and pulls off screw cap  80  from container  46  thereby releasing allowing ingestible material  42  under aerosol pressure to flow through orifice  82 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1185  for electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a container with hinged lid containing the particular ingestible material portion. A non-transitory signal bearing medium includes one or more receiving information lid instructions i 1185  that when executed will direct performance of the operation o 1185 . In an implementation, the one or more receiving information lid instructions i 1185  when executed direct electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a container with hinged lid containing the particular ingestible material portion (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 13-15  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , and as shown in  FIGS. 13-15 , upon engagement of the containing assembly  44 , including container  46  with hinged lid  74 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  72  opens hinged lid  74  allowing ingestible material  42  to be collected through orifice  76  as encouraged by gravity, vacuum, or other means of force, etc.). Furthermore, the receiving information lid electrical circuitry arrangement e 1185  when activated will perform the operation o 1185 . In an implementation, the receiving information lid electrical circuitry arrangement e 1185 , when activated performs electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a container with hinged lid containing the particular ingestible material portion (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 13-15  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , and as shown in  FIGS. 13-15 , upon engagement of the containing assembly  44 , including container  46  with hinged lid  74 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  72  opens hinged lid  74  allowing ingestible material  42  to be collected through orifice  76  as encouraged by gravity, vacuum, or other means of force, etc.). In an implementation, the electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a container with hinged lid containing the particular ingestible material portion is carried out by electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a container with hinged lid containing the particular ingestible material portion (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 13-15  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , and as shown in  FIGS. 13-15 , upon engagement of the containing assembly  44 , including container  46  with hinged lid  74 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , protrusion  72  opens hinged lid  74  allowing ingestible material  42  to be collected through orifice  76  as encouraged by gravity, vacuum, or other means of force, etc.). 
     In one or more implementations, as shown in  FIG. 75 , operation o 11  includes an operation o 1186  for electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a container with a tear away enclosure element containing the particular ingestible material portion. A non-transitory signal bearing medium includes one or more receiving information tear instructions i 1186  that when executed will direct performance of the operation o 1186 . In an implementation, the one or more receiving information tear instructions i 1186  when executed direct electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a container with a tear away enclosure element containing the particular ingestible material portion (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained and inhibited access to by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). Furthermore, the receiving information tear electrical circuitry arrangement e 1186  when activated will perform the operation o 1186 . In an implementation, the receiving information tear electrical circuitry arrangement e 1186 , when activated performs electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a container with a tear away enclosure element containing the particular ingestible material portion (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained and inhibited access to by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in FIGS.  16 - 18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). In an implementation, the electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a container with a tear away enclosure element containing the particular ingestible material portion is carried out by electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a container with a tear away enclosure element containing the particular ingestible material portion (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained and inhibited access to by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1187  for electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a deformable container containing the particular ingestible material portion. A non-transitory signal bearing medium includes one or more receiving information deform instructions i 1187  that when executed will direct performance of the operation o 1187 . In an implementation, the one or more receiving information deform instructions i 1187  when executed direct electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a deformable container containing the particular ingestible material portion (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , and as shown in  FIGS. 28-30 , upon engagement of the containing assembly  44 , including container  46  with deformable portion  98 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , deformable portion  98  is deformed to open thereby allowing ingestible material  42  to move through orifice  100 , etc.). Furthermore, the receiving information deform electrical circuitry arrangement e 1187  when activated will perform the operation o 1187 . In an implementation, the receiving information deform electrical circuitry arrangement e 1187 , when activated performs electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a deformable container containing the particular ingestible material portion (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , and as shown in  FIGS. 28-30 , upon engagement of the containing assembly  44 , including container  46  with deformable portion  98 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , deformable portion  98  is deformed to open thereby allowing ingestible material  42  to move through orifice  100 , etc.). In an implementation, the electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a deformable container containing the particular ingestible material portion is carried out by electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a deformable container containing the particular ingestible material portion (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 16-18  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , and as shown in  FIGS. 28-30 , upon engagement of the containing assembly  44 , including container  46  with deformable portion  98 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , deformable portion  98  is deformed to open thereby allowing ingestible material  42  to move through orifice  100 , etc.). 
     In one or more implementations, operation o 11  includes an operation o 1188  for electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a container with a locking mechanism containing the particular ingestible material portion. A non-transitory signal bearing medium includes one or more receiving information lock instructions i 1188  that when executed will direct performance of the operation o 1188 . In an implementation, the one or more receiving information lock instructions i 1188  when executed direct electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a container with a locking mechanism containing the particular ingestible material portion (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 31-33  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , and as shown in  FIGS. 31-33 , upon engagement of the containing assembly  44 , including container  46  with lockable portion  102 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , lockable portion  102  is unlocked and opened upon verification by code verifiers  106  electronically coupling with code transmitters  108  that receiving assembly  48  is authorized to accept ingestible material  42 , etc.). Furthermore, the receiving information lock electrical circuitry arrangement e 1188  when activated will perform the operation o 1188 . In an implementation, the receiving information lock electrical circuitry arrangement e 1188 , when activated performs electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a container with a locking mechanism containing the particular ingestible material portion (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 31-33  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , and as shown in  FIGS. 31-33 , upon engagement of the containing assembly  44 , including container  46  with lockable portion  102 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , lockable portion  102  is unlocked and opened upon verification by code verifiers  106  electronically coupling with code transmitters  108  that receiving assembly  48  is authorized to accept ingestible material  42 , etc.). In an implementation, the electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a container with a locking mechanism containing the particular ingestible material portion is carried out by electronically receiving status information related to the at least one manufacture arranged to inhibit access to the particular ingestible material portion as a container with a locking mechanism containing the particular ingestible material portion (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 31-33  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , and as shown in  FIGS. 31-33 , upon engagement of the containing assembly  44 , including container  46  with lockable portion  102 , as containing assembly  44  is inserted into receiving assembly  48  of the substance control dispensing system  10 , lockable portion  102  is unlocked and opened upon verification by code verifiers  106  electronically coupling with code transmitters  108  that receiving assembly  48  is authorized to accept ingestible material  42 , etc.). 
     As shown in  FIG. 57 , the operational flow o 10  proceeds to operation o 12  for electronically outputting selection information associated with the particular ingestible material portion including information related to the received status information regarding the particular ingestible material portion and associated with ingestible material other than that associated with the particular ingestible material portion subsequent to electronically receiving the status information regarding the particular ingestible material portion. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more outputting selection information instructions i 12  that when executed will direct performance of the operation o 12 . In an implementation, the one or more outputting selection information instructions i 12  when executed direct electronically outputting selection information associated with the particular ingestible material portion (e.g. the microprocessor component s 102 , which subsequently displays information concerning point of origin and authority endorsements for ingestible material  42  such as a spirulina extract contained as an ingredient a product to be selected display by the selection indicators  20 , etc.) including information related to the received status information regarding the particular ingestible material portion (e.g. point of origin and authority endorsements can be related to received status information by being included in the received status information, etc.) and associated with ingestible material other than that associated with the particular ingestible material portion (e.g. information concerning ingestible material as other ingredients in the product containing the ingestible material  42  or as ingredients of other products can also be displayed by the microprocessor component s 102  via the selection indicators  20 , etc.) subsequent to electronically receiving the status information regarding the particular ingestible material portion (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 31-33  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). Furthermore, the outputting selection information electrical circuitry arrangement e 12  when activated will perform the operation o 12 . In an implementation, the outputting selection information electrical circuitry arrangement e 12 , when activated performs electronically outputting selection information associated with the particular ingestible material portion (e.g. the microprocessor component s 102 , which subsequently displays information concerning point of origin and authority endorsements for ingestible material  42  such as a spirulina extract contained as an ingredient a product to be selected display by the selection indicators  20 , etc.) including information related to the received status information regarding the particular ingestible material portion (e.g. point of origin and authority endorsements can be related to received status information by being included in the received status information, etc.) and associated with ingestible material other than that associated with the particular ingestible material portion (e.g. information concerning ingestible material as other ingredients in the product containing the ingestible material  42  or as ingredients of other products can also be displayed by the microprocessor component s 102  via the selection indicators  20 , etc.) subsequent to electronically receiving the status information regarding the particular ingestible material portion (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 31-33  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). In an implementation, the electronically outputting selection information associated with the particular ingestible material portion including information related to the received status information regarding the particular ingestible material portion and associated with ingestible material other than that associated with the particular ingestible material portion subsequent to electronically receiving the status information regarding the particular ingestible material portion is carried out by electronically outputting selection information associated with the particular ingestible material portion (e.g. the microprocessor component s 102 , which subsequently displays information concerning point of origin and authority endorsements for ingestible material  42  such as a spirulina extract contained as an ingredient a product to be selected display by the selection indicators  20 , etc.) including information related to the received status information regarding the particular ingestible material portion (e.g. point of origin and authority endorsements can be related to received status information by being included in the received status information, etc.) and associated with ingestible material other than that associated with the particular ingestible material portion (e.g. information concerning ingestible material as other ingredients in the product containing the ingestible material  42  or as ingredients of other products can also be displayed by the microprocessor component s 102  via the selection indicators  20 , etc.) subsequent to electronically receiving the status information regarding the particular ingestible material portion (e.g. electronic memory  52  coupled to containing assembly  44  as a manufacture is read by receiver  54  to obtain status information regarding ingestible material  42  contained by containing assembly  44  when the containing assembly is engaged with the receiving assembly  48  as shown in  FIGS. 31-33  as the first engagement of the automated dispensing system with the at least one manufacture, the information to be passed on to the microprocessor component s 102 , which subsequently displays the information on selection indicators  20 , etc.). 
     In one or more implementations, as shown in  FIG. 76 , operation o 12  includes an operation o 1201  for electronically outputting selection information via an electronic display. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more outputting information display instructions i 1201  that when executed will direct performance of the operation o 1201 . In an implementation, the one or more outputting information display instructions i 1201  when executed direct electronically outputting selection information via an electronic display (e.g. the selection indicators  20  can include graphical user interface (GUI) component s 302  to electronically outputting the selection information, etc.). Furthermore, the outputting information display electrical circuitry arrangement e 1201  when activated will perform the operation o 1201 . In an implementation, the outputting information display electrical circuitry arrangement e 1201 , when activated performs electronically outputting selection information via an electronic display (e.g. the selection indicators  20  can include graphical user interface (GUI) component s 302  to electronically outputting the selection information, etc.). In an implementation, the electronically outputting selection information via an electronic display is carried out by electronically outputting selection information via an electronic display (e.g. the selection indicators  20  can include graphical user interface (GUI) component s 302  to electronically outputting the selection information, etc.). 
     In one or more implementations, operation O 12  includes an operation o 1202  for electronically outputting selection information via an electronic audio file. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more outputting information audio instructions i 1202  that when executed will direct performance of the operation o 1202 . In an implementation, the one or more outputting information audio instructions i 1202  when executed direct electronically outputting selection information via an electronic audio file (e.g. the selection indicators  20  can include audio in/out component s 328  to electronically outputting the selection information, etc.). Furthermore, the outputting information audio electrical circuitry arrangement e 1202  when activated will perform the operation o 1202 . In an implementation, the outputting information audio electrical circuitry arrangement e 1202 , when activated performs electronically outputting selection information via an electronic audio file (e.g. the selection indicators  20  can include audio in/out component s 328  to electronically outputting the selection information, etc.). In an implementation, the electronically outputting selection information via an electronic audio file is carried out by electronically outputting selection information via an electronic audio file (e.g. the selection indicators  20  can include audio in/out component s 328  to electronically outputting the selection information, etc.). 
     In one or more implementations, operation o 12  includes an operation o 1203  for electronically outputting selection information via a computer network. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more outputting information computer instructions i 1203  that when executed will direct performance of the operation o 1203 . In an implementation, the one or more outputting information computer instructions i 1203  when executed direct electronically outputting selection information via a computer network (e.g. the microprocessor component s 102  can be electronically coupled to the local area network component s 518  to electronically output selection information through a local area network in addition to the selection indicators  20 , etc.). Furthermore, the outputting information computer electrical circuitry arrangement e 1203  when activated will perform the operation o 1203 . In an implementation, the outputting information computer electrical circuitry arrangement e 1203 , when activated performs electronically outputting selection information via a computer network (e.g. the microprocessor component s 102  can be electronically coupled to the local area network component s 518  to electronically output selection information through a local area network in addition to the selection indicators  20 , etc.). In an implementation, the electronically outputting selection information via a computer network is carried out by electronically outputting selection information via a computer network (e.g. the microprocessor component s 102  can be electronically coupled to the local area network component s 518  to electronically output selection information through a local area network in addition to the selection indicators  20 , etc.). 
     In one or more implementations, operation o 12  includes an operation o 1204  for electronically outputting selection information via a cellular network. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more outputting information cellular network instructions i 1204  that when executed will direct performance of the operation o 1204 . In an implementation, the one or more outputting information cellular network instructions i 1204  when executed direct electronically outputting selection information via a cellular network (e.g. the microprocessor component s 102  can be electronically coupled to the cellular network component s 514  to electronically output selection information through a cellular network in addition to the selection indicators  20 , etc.). Furthermore, the outputting information display electrical circuitry arrangement e 1204  when activated will perform the operation o 1204 . In an implementation, the outputting information cellular network electrical circuitry arrangement e 1204 , when activated performs electronically outputting selection information via a cellular network (e.g. the microprocessor component s 102  can be electronically coupled to the cellular network component s 514  to electronically output selection information through a cellular network in addition to the selection indicators  20 , etc.). In an implementation, the electronically outputting selection information via a cellular network is carried out by electronically outputting selection information via a cellular network (e.g. the microprocessor component s 102  can be electronically coupled to the cellular network component s 514  to electronically output selection information through a cellular network in addition to the selection indicators  20 , etc.). 
     In one or more implementations, operation o 12  includes an operation o 1205  for electronically outputting selection information via wireless communication. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more outputting information wireless instructions i 1205  that when executed will direct performance of the operation o 1205 . In an implementation, the one or more outputting information wireless instructions i 1205  when executed direct electronically outputting selection information via wireless communication (e.g. the microprocessor component s 102  can be electronically coupled to the wireless network component s 510  to electronically output selection information through a wireless network in addition to the selection indicators  20 , etc.). Furthermore, the outputting information wireless electrical circuitry arrangement e 1205  when activated will perform the operation o 1205 . In an implementation, the outputting information wireless electrical circuitry arrangement e 1205 , when activated performs electronically outputting selection information via wireless communication (e.g. the microprocessor component s 102  can be electronically coupled to the wireless network component s 510  to electronically output selection information through a wireless network in addition to the selection indicators  20 , etc.). In an implementation, the electronically outputting selection information via wireless communication is carried out by electronically outputting selection information via wireless communication (e.g. the microprocessor component s 102  can be electronically coupled to the wireless network component s 510  to electronically output selection information through a wireless network in addition to the selection indicators  20 , etc.). 
     In one or more implementations, as shown in  FIG. 77 , operation o 12  includes an operation o 1206  for electronically outputting selection information including information based at least in part upon whether the automated dispensing system has been disengaged subsequent to an engagement with the at least one manufacture, during the first condition and prior to the first engagement. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more outputting information disengaged instructions i 1206  that when executed will direct performance of the operation o 1206 . In an implementation, the one or more outputting information disengaged instructions i 1206  when executed direct electronically outputting selection information including information based at least in part upon whether the automated dispensing system has been disengaged subsequent to an engagement with the at least one manufacture, during the first condition and prior to the first engagement (e.g. the microprocessor s 102  can direct the selection indicators  20  to display selection information to indicate that the ingestible material  42  has been contained in the containing assembly  44  while the containing assembly only been engaged once with the substance control dispensing system  10 , etc.). Furthermore, the outputting information disengaged electrical circuitry arrangement e 1206  when activated will perform the operation o 1205 . In an implementation, the outputting information disengaged electrical circuitry arrangement e 1206 , when activated performs electronically outputting selection information including information based at least in part upon whether the automated dispensing system has been disengaged subsequent to an engagement with the at least one manufacture, during the first condition and prior to the first engagement (e.g. the microprocessor s 102  can direct the selection indicators  20  to display selection information to indicate that the ingestible material  42  has been contained in the containing assembly  44  while the containing assembly only been engaged once with the substance control dispensing system  10 , etc.). In an implementation, the electronically outputting selection information including information based at least in part upon whether the automated dispensing system has been disengaged subsequent to an engagement with the at least one manufacture, during the first condition and prior to the first engagement is carried out by electronically outputting selection information including information based at least in part upon whether the automated dispensing system has been disengaged subsequent to an engagement with the at least one manufacture, during the first condition and prior to the first engagement (e.g. the microprocessor s 102  can direct the selection indicators  20  to display selection information to indicate that the ingestible material  42  has been contained in the containing assembly  44  while the containing assembly only been engaged once with the substance control dispensing system  10 , etc.). 
     In one or more implementations, operation o 12  includes an operation o 1207  for electronically outputting selection information including warnings against selecting one or more products containing the particular ingestible material if the automated dispensing system has been disengaged subsequent to an engagement with the at least one manufacture, during the first condition and prior to the first engagement. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more outputting information warning instructions i 1207  that when executed will direct performance of the operation o 1207 . In an implementation, the one or more outputting information warning instructions i 1207  when executed direct electronically outputting selection information including warnings against selecting one or more products containing the particular ingestible material if the automated dispensing system has been disengaged subsequent to an engagement with the at least one manufacture, during the first condition and prior to the first engagement (e.g. the microprocessor s 102  can direct the selection indicators  20  to display selection information to indicate a warning that the ingestible material  42  has been contained in the containing assembly  44  while the containing assembly been engaged more than once with the substance control dispensing system  10 , etc.). Furthermore, the outputting information warning electrical circuitry arrangement e 1207  when activated will perform the operation o 1207 . In an implementation, the outputting information warning electrical circuitry arrangement e 1207 , when activated performs electronically outputting selection information including warnings against selecting one or more products containing the particular ingestible material if the automated dispensing system has been disengaged subsequent to an engagement with the at least one manufacture, during the first condition and prior to the first engagement (e.g. the microprocessor s 102  can direct the selection indicators  20  to display selection information to indicate a warning that the ingestible material  42  has been contained in the containing assembly  44  while the containing assembly been engaged more than once with the substance control dispensing system  10 , etc.). In an implementation, the electronically outputting selection information including warnings against selecting one or more products containing the particular ingestible material if the automated dispensing system has been disengaged subsequent to an engagement with the at least one manufacture, during the first condition and prior to the first engagement is carried out by electronically outputting selection information including warnings against selecting one or more products containing the particular ingestible material if the automated dispensing system has been disengaged subsequent to an engagement with the at least one manufacture, during the first condition and prior to the first engagement (e.g. the microprocessor s 102  can direct the selection indicators  20  to display selection information to indicate a warning that the ingestible material  42  has been contained in the containing assembly  44  while the containing assembly been engaged more than once with the substance control dispensing system  10 , etc.). 
     In one or more implementations, operation o 12  includes an operation o 1208  for electronically outputting selection information including information based at least in part upon whether the automated dispensing system has remained unengaged with the at least one manufacture during the first condition and prior to the first engagement. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more outputting information remained instructions i 1208  that when executed will direct performance of the operation o 1208 . In an implementation, the one or more outputting information remained instructions i 1208  when executed direct electronically outputting selection information including information based at least in part upon whether the automated dispensing system has remained unengaged with the at least one manufacture during the first condition and prior to the first engagement (e.g. the microprocessor s 102  can direct the selection indicators  20  to display selection information to indicate that the ingestible material  42  has been contained in the containing assembly  44  while the containing assembly only been engaged once with the substance control dispensing system  10 , etc.). Furthermore, the outputting information remained electrical circuitry arrangement e 1208  when activated will perform the operation o 1208 . In an implementation, the outputting information remained electrical circuitry arrangement e 1208 , when activated performs electronically outputting selection information including information based at least in part upon whether the automated dispensing system has remained unengaged with the at least one manufacture during the first condition and prior to the first engagement (e.g. the microprocessor s 102  can direct the selection indicators  20  to display selection information to indicate that the ingestible material  42  has been contained in the containing assembly  44  while the containing assembly only been engaged once with the substance control dispensing system  10 , etc.). In an implementation, the electronically outputting selection information including information based at least in part upon whether the automated dispensing system has remained unengaged with the at least one manufacture during the first condition and prior to the first engagement is carried out by electronically outputting selection information including information based at least in part upon whether the automated dispensing system has remained unengaged with the at least one manufacture during the first condition and prior to the first engagement (e.g. the microprocessor s 102  can direct the selection indicators  20  to display selection information to indicate that the ingestible material  42  has been contained in the containing assembly  44  while the containing assembly only been engaged once with the substance control dispensing system  10 , etc.). 
     In one or more implementations, operation o 12  includes an operation o 1209  for electronically outputting selection information including information regarding one or more products available to be dispensed from the automated dispensing system that contain the particular ingestible material portion. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more outputting information products instructions i 1209  that when executed will direct performance of the operation o 1209 . In an implementation, the one or more outputting information products instructions i 1209  when executed direct electronically outputting selection information including information regarding one or more products available to be dispensed from the automated dispensing system that contains the particular ingestible material portion (e.g. the microprocessor s 102  can direct the selection indicators  20  to display selection information to indicate that the ingestible material  42 , such as organic stevia, is an ingredient of fruit drink and a snack bar being dispensed by the substance control dispensing system  10 , etc.). Furthermore, the outputting information products electrical circuitry arrangement e 1209  when activated will perform the operation o 1209 . In an implementation, the outputting information products electrical circuitry arrangement e 1209 , when activated performs electronically outputting selection information including information regarding one or more products available to be dispensed from the automated dispensing system that contains the particular ingestible material portion (e.g. the microprocessor s 102  can direct the selection indicators  20  to display selection information to indicate that the ingestible material  42 , such as organic stevia, is an ingredient of fruit drink and a snack bar being dispensed by the substance control dispensing system  10 , etc.). In an implementation, the electronically outputting selection information including information regarding one or more products available to be dispensed from the automated dispensing system that contain the particular ingestible material portion is carried out by electronically outputting selection information including information regarding one or more products available to be dispensed from the automated dispensing system that contains the particular ingestible material portion (e.g. the microprocessor s 102  can direct the selection indicators  20  to display selection information to indicate that the ingestible material  42 , such as organic stevia, is an ingredient of fruit drink and a snack bar being dispensed by the substance control dispensing system  10 , etc.). 
     In one or more implementations, operation o 12  includes an operation o 1210  for electronically outputting selection information including information regarding one or more categories of products available to be dispensed from the automated dispensing system related to the particular ingestible material portion. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more outputting information categories instructions i 1210  that when executed will direct performance of the operation o 1210 . In an implementation, the one or more outputting information categories instructions i 1210  when executed direct electronically outputting selection information including information regarding one or more categories of products available to be dispensed from the automated dispensing system related to the particular ingestible material portion (e.g. the microprocessor s 102  can direct the selection indicators  20  to display selection information to indicate that the ingestible material  42 , such as vitamin B12 is an ingredient found in product categories including snack products, athletic performance products, and weight loss products, etc.). Furthermore, the outputting information categories electrical circuitry arrangement e 1210  when activated will perform the operation o 1210 . In an implementation, the outputting information categories electrical circuitry arrangement e 1210 , when activated performs electronically outputting selection information including information regarding one or more categories of products available to be dispensed from the automated dispensing system related to the particular ingestible material portion (e.g. the microprocessor s 102  can direct the selection indicators  20  to display selection information to indicate that the ingestible material  42 , such as vitamin B12 is an ingredient found in product categories including snack products, athletic performance products, and weight loss products, etc.). In an implementation, the electronically outputting selection information including information regarding one or more categories of products available to be dispensed from the automated dispensing system related to the particular ingestible material portion is carried out by electronically outputting selection information including information regarding one or more categories of products available to be dispensed from the automated dispensing system related to the particular ingestible material portion (e.g. the microprocessor s 102  can direct the selection indicators  20  to display selection information to indicate that the ingestible material  42 , such as vitamin B12 is an ingredient found in product categories including snack products, athletic performance products, and weight loss products, etc.). 
     In one or more implementations, as shown in  FIG. 78 , operation o 12  includes an operation o 1211  for electronically outputting selection information including information regarding one or more products available to be dispensed from the automated dispensing system that contain other than the particular ingestible material portion. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more outputting information products instructions i 1211  that when executed will direct performance of the operation o 1211 . In an implementation, the one or more outputting information products instructions i 1211  when executed direct electronically outputting selection information including information regarding one or more products available to be dispensed from the automated dispensing system that contain other than the particular ingestible material portion (e.g. the microprocessor s 102  can direct the selection indicators  20  to display selection information to indicate that the ingestible material  42 , such as organic stevia, is an ingredient of fruit drink and a snack bar being dispensed by the substance control dispensing system  10 , etc.). Furthermore, the outputting information products electrical circuitry arrangement e 1211  when activated will perform the operation o 1211 . In an implementation, the outputting information products electrical circuitry arrangement e 1211 , when activated performs electronically outputting selection information including information regarding one or more products available to be dispensed from the automated dispensing system that contain other than the particular ingestible material portion (e.g. the microprocessor s 102  can direct the selection indicators  20  to display selection information to indicate that the ingestible material  42 , such as organic stevia, is an ingredient of fruit drink and a snack bar being dispensed by the substance control dispensing system  10 , etc.). In an implementation, the electronically outputting selection information including information regarding one or more products available to be dispensed from the automated dispensing system that contain other than the particular ingestible material portion is carried out by electronically outputting selection information including information regarding one or more products available to be dispensed from the automated dispensing system that contain other than the particular ingestible material portion (e.g. the microprocessor s 102  can direct the selection indicators  20  to display selection information to indicate that the ingestible material  42 , such as organic stevia, is an ingredient of fruit drink and a snack bar being dispensed by the substance control dispensing system  10 , etc.). 
     In one or more implementations, operation o 12  includes an operation o 1212  for electronically outputting selection information including information regarding one or more categories of products available to be dispensed from the automated dispensing system related to other than the particular ingestible material portion. An exemplary version of the non-transitory signal bearing medium n 100  is depicted as bearing one or more outputting information categories instructions i 1212  that when executed will direct performance of the operation o 1212 . In an implementation, the one or more outputting information categories instructions i 1212  when executed direct electronically outputting selection information including information regarding one or more categories of products available to be dispensed from the automated dispensing system related to other than the particular ingestible material portion (e.g. the microprocessor s 102  can direct the selection indicators  20  to display selection information to indicate that the ingestible material  42 , such as peanut extract is an ingredient not found in product categories including snack products, athletic performance products, and weight loss products, etc.). Furthermore, the outputting information categories electrical circuitry arrangement e 1212  when activated will perform the operation o 1212 . In an implementation, the outputting information categories electrical circuitry arrangement e 1212 , when activated performs electronically outputting selection information including information regarding one or more categories of products available to be dispensed from the automated dispensing system related to other than the particular ingestible material portion (e.g. the microprocessor s 102  can direct the selection indicators  20  to display selection information to indicate that the ingestible material  42 , such as peanut extract is an ingredient not found in product categories including snack products, athletic performance products, and weight loss products, etc.). In an implementation, the electronically outputting selection information including information regarding one or more categories of products available to be dispensed from the automated dispensing system related to other than the particular ingestible material portion is carried out by electronically outputting selection information including information regarding one or more categories of products available to be dispensed from the automated dispensing system related to other than the particular ingestible material portion (e.g. the microprocessor s 102  can direct the selection indicators  20  to display selection information to indicate that the ingestible material  42 , such as peanut extract is an ingredient not found in product categories including snack products, athletic performance products, and weight loss products, etc.). 
     Those having skill in the art will recognize that the state of the art has progressed to the point where there is little distinction left between hardware and software implementations of aspects of systems; the use of hardware or software is generally (but not always, in that in certain contexts the choice between hardware and software can become significant) a design choice representing cost vs. efficiency tradeoffs. Those having skill in the art will appreciate that there are various vehicles by which processes and/or systems and/or other technologies described herein can be effected (e.g., hardware, software, and/or firmware in one or more machines or articles of manufacture), and that the preferred vehicle will vary with the context in which the processes and/or systems and/or other technologies are deployed. For example, if an implementer determines that speed and accuracy are paramount, the implementer may opt for a mainly hardware and/or firmware vehicle; alternatively, if flexibility is paramount, the implementer may opt for a mainly software implementation that is implemented in one or more machines or articles of manufacture; or, yet again alternatively, the implementer may opt for some combination of hardware, software, and/or firmware in one or more machines or articles of manufacture (limited to patentable subject matter under 35 USC 101). Hence, there are several possible vehicles by which the processes and/or devices and/or other technologies described herein may be effected, none of which is inherently superior to the other in that any vehicle to be utilized is a choice dependent upon the context in which the vehicle will be deployed and the specific concerns (e.g., speed, flexibility, or predictability) of the implementer, any of which may vary. Those skilled in the art will recognize that optical aspects of implementations will typically employ optically-oriented hardware, software, and or firmware in one or more machines or articles of manufacture. 
     The foregoing detailed description has set forth various embodiments of the devices and/or processes via the use of block diagrams, flowcharts, and/or examples. Insofar as such block diagrams, flowcharts, and/or examples contain one or more functions and/or operations, it will be understood by those within the art that each function and/or operation within such block diagrams, flowcharts, or examples can be implemented, individually and/or collectively, by a wide range of hardware, software, firmware, or virtually any combination thereof (limited to patentable subject matter under 35 U.S.C. 101). In one embodiment, several portions of the subject matter described herein may be implemented via Application Specific Integrated Circuitry (ASICs), Field Programmable Gate Arrays (FPGAs), digital signal processors (DSPs), or other integrated formats. However, those skilled in the art will recognize that some aspects of the embodiments disclosed herein, in whole or in part, can be equivalently implemented in integrated circuitry, as one or more computer programs running on one or more computers (e.g., as one or more programs running on one or more computer systems), as one or more programs running on one or more processors (e.g., as one or more programs running on one or more microprocessors), as firmware, or as virtually any combination thereof, and that designing the circuitry and/or writing the code for the software and or firmware would be well within the skill of one of skill in the art in light of this disclosure (limited to patentable subject matter under 35 USC 101). In addition, those skilled in the art will appreciate that the mechanisms of the subject matter described herein are capable of being distributed as a program product in a variety of forms, and that an illustrative embodiment of the subject matter described herein applies regardless of the particular type of signal bearing medium used to actually carry out the distribution. Examples of a signal bearing medium include, but are not limited to, the following: a recordable type medium such as a floppy disk, a hard disk drive, a Compact Disc (CD), a Digital Video Disk (DVD), a digital tape, a computer memory, etc.; and a transmission type medium such as a digital and/or an analog communication medium (e.g., a fiber optic cable, a waveguide, a wired communications link, a wireless communication link, etc.). 
     In a general sense, those skilled in the art will recognize that the various aspects described herein which can be implemented, individually and/or collectively, by a wide range of hardware, software, firmware, or any combination thereof (limited to patentable subject matter under 35 U.S.C. 101) can be viewed as being composed of various types of “electrical circuitry.” Consequently, as used herein “electrical circuitry” includes, but is not limited to, electrical circuitry having at least one discrete electrical circuit, electrical circuitry having at least one integrated circuit, electrical circuitry having at least one application specific integrated circuit, electrical circuitry forming a general purpose computing device configured by a computer program (e.g., a general purpose computer configured by a computer program which at least partially carries out processes and/or devices described herein, or a microprocessor configured by a computer program which at least partially carries out processes and/or devices described herein), electrical circuitry forming a memory device (e.g., forms of random access memory), and/or electrical circuitry forming a communications device (e.g., a modem, communications switch, or optical-electrical equipment). Those having skill in the art will recognize that the subject matter described herein may be implemented in an analog or digital fashion or some combination thereof. 
     Those having skill in the art will recognize that it is common within the art to describe devices and/or processes in the fashion set forth herein, and thereafter use engineering practices to integrate such described devices and/or processes into data processing systems. That is, at least a portion of the devices and/or processes described herein can be integrated into a data processing system via a reasonable amount of experimentation. Those having skill in the art will recognize that a typical data processing system generally includes one or more of a system unit housing, a video display device, a memory such as volatile and non-volatile memory, processors such as microprocessors and digital signal processors, computational entities such as operating systems, drivers, graphical user interfaces, and applications programs, one or more interaction devices, such as a touch pad or screen, and/or control systems including feedback loops and control motors (e.g., feedback for sensing position and/or velocity; control motors for moving and/or adjusting components and/or quantities). A typical data processing system may be implemented utilizing any suitable commercially available components, such as those typically found in data computing/communication and/or network computing/communication systems. 
     The herein described subject matter sometimes illustrates different components contained within, or connected with, different other components. It is to be understood that such depicted architectures are merely exemplary, and that in fact many other architectures can be implemented which achieve the same functionality. In a conceptual sense, any arrangement of components to achieve the same functionality is effectively “associated” such that the desired functionality is achieved. Hence, any two components herein combined to achieve a particular functionality can be seen as “associated with” each other such that the desired functionality is achieved, irrespective of architectures or intermedial components. Likewise, any two components so associated can also be viewed as being “operably connected”, or “operably coupled”, to each other to achieve the desired functionality, and any two components capable of being so associated can also be viewed as being “operably couplable”, to each other to achieve the desired functionality. Specific examples of operably couplable include but are not limited to physically mateable and/or physically interacting components and/or wirelessly interactable and/or wirelessly interacting components and/or logically interacting and/or logically interactable components. 
     While particular aspects of the present subject matter described herein have been shown and described, it will be apparent to those skilled in the art that, based upon the teachings herein, changes and modifications may be made without departing from the subject matter described herein and its broader aspects and, therefore, the appended claims are to encompass within their scope all such changes and modifications as are within the true spirit and scope of the subject matter described herein. Furthermore, it is to be understood that the invention is defined by the appended claims. 
     It will be understood by those within the art that, in general, terms used herein, and especially in the appended claims (e.g., bodies of the appended claims) are generally intended as “open” terms (e.g., the term “including” should be interpreted as “including but not limited to,” the term “having” should be interpreted as “having at least,” the term “includes” should be interpreted as “includes but is not limited to,” etc.). It will be further understood by those within the art that if a specific number of an introduced claim recitation is intended, such an intent will be explicitly recited in the claim, and in the absence of such recitation no such intent is present. For example, as an aid to understanding, the following appended claims may contain usage of the introductory phrases “at least one” and “one or more” to introduce claim recitations. However, the use of such phrases should not be construed to imply that the introduction of a claim recitation by the indefinite articles “a” or “an” limits any particular claim containing such introduced claim recitation to inventions containing only one such recitation, even when the same claim includes the introductory phrases “one or more” or “at least one” and indefinite articles such as “a” or “an” (e.g., “a” and/or “an” should typically be interpreted to mean “at least one” or “one or more”); the same holds true for the use of definite articles used to introduce claim recitations. 
     In addition, even if a specific number of an introduced claim recitation is explicitly recited, those skilled in the art will recognize that such recitation should typically be interpreted to mean at least the recited number (e.g., the bare recitation of “two recitations,” without other modifiers, typically means at least two recitations, or two or more recitations). Furthermore, in those instances where a convention analogous to “at least one of A, B, and C, etc.” is used, in general such a construction is intended in the sense one having skill in the art would understand the convention (e.g., “a system having at least one of A, B, and C” would include but not be limited to systems that have A alone, B alone, C alone, A and B together, A and C together, B and C together, and/or A, B, and C together, etc.). 
     In those instances where a convention analogous to “at least one of A, B, or C, etc.” is used, in general such a construction is intended in the sense one having skill in the art would understand the convention (e.g., “a system having at least one of A, B, or C” would include but not be limited to systems that have A alone, B alone, C alone, A and B together, A and C together, B and C together, and/or A, B, and C together, etc.). It will be further understood by those within the art that virtually any disjunctive word and/or phrase presenting two or more alternative terms, whether in the description, claims, or drawings, should be understood to contemplate the possibilities of including one of the terms, either of the terms, or both terms. For example, the phrase “A or B” will be understood to include the possibilities of “A” or “B” or “A and B.”