Abstract:
A system and method for determining temperature anomalies that would affect the proper operation of a computer and, upon receipt of a determined temperature anomaly, causing certain data to be saved within a storage device in a file location appropriate for such data.

Description:
FIELD OF THE INVENTION  
         [0001]    This invention relates to computer protection systems and methods and more particularly to such systems and methods which allow for the safe protection of currently active files during extreme conditions.  
         BACKGROUND OF THE INVENTION  
         [0002]    In computer systems, there is always the possibility of a fire or other extreme temperature condition. Such extreme conditions can occur because of a problem internal to the computer, or they may occur as a result of events taking place outside the computer housing.  
           [0003]    Regardless of where the high temperature event occurs, the results can be devastating to data being worked on by the computer. In a typical scenario, as the temperature rises, the computer&#39;s control system begins to sense a problem and reacts by trying to cool the equipment. This could, for example, be by running the cooling fan faster and faster. At some point, the internal control system cannot keep up with the cooling requirements for the computer and the system either turns off or continues to function until it becomes disabled. In either event, data that has not been stored is either lost or stored in a temporary file which then must be recovered when the system is restarted.  
           [0004]    In some situations, the computer internal control, upon sensing a problem, signals a user so that the user may then take protective action. If this signaling is done too soon, the user is encouraged to take premature action when, in fact, no action would have been required. On the other hand, if the system waits too long to inform the user of a pending temperature problem, the user may not have enough time to react properly (or may react improperly) and valuable data will be lost. Also, in many situations, data is being worked on by a computer, or computer system, without the presence of a user. In such cases, notification of a pending trouble condition is of no effect.  
         BRIEF SUMMARY OF THE INVENTION  
         [0005]    A computer system has incorporated therein at least one sensor for determining high temperature fault conditions that would affect the proper operation of the computer. Upon a determined high temperature fault condition, certain data is saved within a storage device in a file location appropriate for such data. If desired, the stored data, as well as any other data from the computer, can be saved at a location remote from the computer. 
       
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0006]    [0006]FIG. 1 shows one embodiment of the invention; and;  
         [0007]    [0007]FIG. 2 shows a flow chart of one embodiment of the invention. 
     
    
     DETAILED DESCRIPTION OF THE INVENTION  
       [0008]    Turning now to FIG. 1 there is shown representative computer system  10 , which includes CPU  11 , console  12 , volatile memory/cache  13 , media storage  14 , non-volatile memory  15 , one or more power supplies  16 , service processor  17 , which includes therein firmware  170 , temperature sensing device  18  and fans  19 .  
         [0009]    It is noted this is a representative system and the invention could be utilized in any type of computer system, whether it be within a single housing or several housings. Also, the various portions of system  10 , such as CPU  11 , console  12  and memory storage  13 ,  14 ,  15 , or any of the other portions, could be spread over several systems, either contained at the same location or remoted together via a network connection, such as the Internet, T1, T3 or even a wireless interconnection between different units.  
         [0010]    Temperature sensing device  18  could be remote from the system and could, if desired, be a signal received from another system, perhaps physically co-located with the system. This signal from another system could be used as an ‘early warning’ signal to modify the operation of the system pending an anticipated rise in temperature  
         [0011]    Service processor  17  in the system shown is utilized to perform various functions on the operation of the system while main processor CPU  11  is processing data for one or more applications. Service processor  17 , controlled in part by firmware  170 , monitors various functions, for example, it can monitor the temperature as provided by temperature sensing device  18 . Service processor  17  also monitors power supply(ies)  16  and could serve to control fans  19 . User input  101  can be used, if desired, to set and change sensor levels; for example, as will be discussed with respect to boxes  203 ,  204 ,  206 ,  207  and  209  of FIG. 2.  
         [0012]    Temperature sensing device  18  could be one or more transducers that pick up the actual temperature, or detect the rate of temperature rise, or detect products of combustion and would perform various functions, such as, for example, the calculations shown in U.S. Pat. No. 5,835,885, U.S. Pat. No. 5,631,852 or U.S. Pat. No. 6,082,623, all of which are incorporated herein by reference. The method of the identified patents can be run by temperature sensing device  18  and/or by service processor  17  and could be under control of firmware  170 . If desired, the system and method of this invention could be run, in whole or in part, in CPU  11  directly.  
         [0013]    In some operations, service processor  17  would monitor the temperature of the computer systems and would control fans  19  to keep the temperature under control within certain set limits. As will be discussed, when the temperature rate of rise, and/or actual temperature, or other device for determining that a problem exists, reaches a certain level, action will be taken to store in-process data in a proper non-volatile memory  14  or  15 . In-process data could be defined as all (or a portion) of the data that is outside of a non-volatile memory. Or it can be defined as all of the data, at the time of the detected trouble condition, not in a certain memory device. The system can be designed to select one or more storage devices, some of which could be located remotely from the trouble site. The data could be stored in multiple such devices, if desired, and the selection could be based on the source, and/or the intensity of the heat.  
         [0014]    During normal operation of the computer, CPU  11  causes one or more applications to be loaded into its active memory, for example, volatile memory/cache  13 . CPU  11  would receive data, perhaps via console  12 , or from other sources not shown, and would work on this data in accordance with a then active information. During processing, this data is sometimes stored in storage  14 ,  15 , but most often stored in volatile memory/cache  13 .  
         [0015]    When a high temperature fault condition occurs, as will be discussed with respect to FIG. 2, several actions are taken under control of, in this embodiment, service processor  17  and firmware  170 . These actions culminate with the in-process data being stored in a non-volatile (and ideally in a heat resistant) memory, such as memory  14  or  15 . Under some conditions, CPU  11 , as well as the rest of the equipment including power supply  16 , fans  19  will be turned off to preserve their integrity for later use.  
         [0016]    Turning to FIG. 2, there is shown one embodiment  20  that starts with normal computer operation  201 . As the temperature increases, process  202 , under control of temperature sensing device  18 , or remotely from another system, box  220 , or from remote sensor box  221  working in conjunction with service processor  17  in the embodiment of FIG. 1, a decision, box  203 , will be made to determine if the temperature is within the normal limits. If it is, the operation continues. Temperature monitoring can be combined, or can be periodic, as desired. If at any time the temperature is not within normal limits, then the determination is made, via decision box  204 , as to whether the temperature is at the warn level, if not, the system continues operating.  
         [0017]    When operation  204  determines that the temperature has risen (or will rise) to a certain limit, a message (or other signal) is sent, box  205 , to the user in one of various ways. A message can be put on the screen, or a message can be sent by wireline or wireless, including e-mail, to a user to warn the user that there is an impending problem. The message could be sent, as above-discussed, to another system, via boxes  222  and  223 , if desired.  
         [0018]    When the temperature moves above the warning level, decision box  206 , a decision will then be made as to when the temperature is at the danger level, decision box  207 . Until the temperature is at the danger level, the system continues to monitor the temperature, provide warnings (including, if desired, the actual current computer temperature) to the user, but no further action is taken.  
         [0019]    Once the temperature rises to the danger level, then the system initiates a stable storage of the in-process data via procedure  208 . The system continues to monitor the temperature and at the point when the temperature rises to a level where a shut-down must occur, decision box  209 , such system shut-down is undertaken. When that occurs, the user is given a warning, via warning  210 , similar to the warning previously given, but, at this time, the warning indicates to the user that the system is going to be shut down. Process  211  initiates the system shut-down so as to preserve the integrity of the system. As shown in FIG. 2, data can be sent to one or more other systems at various times to help control those systems.  
         [0020]    Note that prior to this time, the in-process data had been stored in a non-volatile memory. This memory can be located within the housing, which is preferable, on a hard drive, alternatively, the data can be transmitted to a remote location via the Internet or other means, including wireless connections. The stored data could include, not only the in-process data, but certain other data that is desired to be preserved, based upon either the temperature&#39;s rate of rise or the fact that there is a fault condition that has occurred.