Patent Publication Number: US-7708642-B2

Title: Gaming device having pitch-shifted sound and music

Description:
CROSS REFERENCE TO RELATED APPLICATIONS 
   This application is related to the following commonly-owned co-pending patent applications: “Gaming Device With Award and Deduction Proximity-Based Sound Effect Feature,” Ser. No. 09/656,663; “Gaming Device and Method for Enhancing the Issuance or Transfer of an Award,” Ser. No. 09/583,482, “Gaming Device Providing Audio Wagering Information,” Ser. No. 09/629,288; “Gaming Device Having Changed or Generated Player Stimuli,” Ser. No. 09/686,244; “Gaming Device With a Metronome System for Interfacing Sound Recordings,” Ser. No. 09/687,692; “Gaming Device With Sound Recording Changes Associated With Player Inputs,” Ser. No. 09/978,607, and “Gaming Device Having Pitched-Shifted Sound and Music,” Ser. No. 09/978,795. 
   COPYRIGHT NOTICE 
   A portion of the disclosure of this patent document contains or may contain material which is subject to copyright protection. The copyright owner has no objection to the photocopy reproduction by anyone of the patent document or the patent disclosure in exactly the form it appears in the Patent and Trademark Office patent file or records, but otherwise reserves all copyright rights whatsoever. 
   BACKGROUND OF THE INVENTION 
   The present invention relates to gaming devises having accompanying sounds or music. More particularly, the present invention relates to gaming device music or sounds that may be adapted to fit various musical contexts that occur during play of the gaming device. 
   Gaming device manufacturers provide slot machines employing a plurality of reels, wherein the reels each have a plurality of symbols. In these games, the player spins the reels, which produce a random generation of a combination of symbols. If the generated combination, or a portion of the combination, matches one of a number of predetermined award producing or winning combinations, the player receives an award. The award is commonly one or more credits that the player can play or redeem for money. 
   Gaming device manufactures also provide video poker games that generate credits for the player. The player can either use the awarded credits to play more poker hands or redeem the credits for money. These examples as well as many other types of gaming machines award credits to the player. 
   To increase player enjoyment and excitement, and to increase the popularity of the gaming machines, gaming device manufacturers constantly strive to provide players with new features that add to the excitement and enjoyment generated by the gaming device. It is common for gaming machines to play or produce sounds or music that accompanies the gaming event and is in accordance with the theme of the gaming machine. Such sounds or music may be played at various points throughout the above described games. 
   In slot machines, for example, the game typically plays music while the reels spin, i.e., while the reels are producing a wining or losing outcome for the player. Because this is an exciting time for the player, it is an opportune time to produce or play sounds and music. Very often the music follows a theme of the gaming device. For example, if the theme of the gaming device is surfing, the gaming device can play beach music and sounds associated with surfing, such as ocean waves, etc. 
   Besides reel spins, the gaming device can associate sounds with other gaming events. One well known sound that gaming devices employ is the paytone or credit roll-up sound. The paytone is the “ding”, “ding”, “ding” sound, which the gaming device plays when downloading an amount of credits to the player after a gaming device win. The paytone loosely emulates the sound of a coin or token hitting the coin payout tray upon a cash out by the player. 
   It should be appreciated that music and sounds play an important role in gaming devices in both entertaining and informing the player. The sounds and music also help to create a mood or tempo surrounding a particular game event or an overall feel for the gaming device. As gaming devices become more intricate and as the competition to produce the most fun and entertaining games stiffens, sounds and in particular interactive sounds will play an ever increasing roll in gaming devices. It is therefore desirable to provide an apparatus and a method for using the apparatus, wherein certain sounds or music stored in the gaming device may be readily adapted to fit a particular game setting or a particular musical accompaniment. 
   SUMMARY OF THE INVENTION 
   The present invention provides an apparatus and method by which sound files may be modified within a gaming device to: (i) coincide with one or more other sound files; (ii) coincide with one or more game events; or (iii) to produce a melody or song. The gaming device includes one or more processors and memory storage devices that employ a sound card to play music and sound effects through one or more speakers. The sound card stores sound files having truly synthesized sounds or true sound recordings. The output sample rate of one or more sound files is changed to produce a sound having a higher or lower pitch. 
   Known gaming devices play sound files at a specified rate. The gaming device of the present invention can play sound files at various rates. Playing sound files at various rates also varies the duration of the sound file. The tempo of a musical fragment or section also increases or decreases as the pitch shifts up or down. The gaming device can thereby play sound files at various pitches, tempos and for varying time periods. The gaming device achieves the various pitches, tempos and time periods by changing the rate of at which the gaming device plays the sound file. As used herein, a change in pitch is referred to as a “pitch-shift” and a sound file played at a different rate is referred to as a “pitch-shifted” sound or sound file. 
   The gaming device may employ the pitch-shifted sounds in a variety of different ways. In one embodiment, the gaming device pitch-shifts one or more sound files based on one or more other sound files. For example, the gaming device can modify the sound of a paytone in accordance with concurrently playing background music. That is, the gaming device pitch-shifts a sound file so that it is musically compatible with another sound file. The gaming device in another example pitch-shifts one sound file so that it has a duration and/or tempo that makes musical sense with the duration or timing of another sound file. 
   In another embodiment, the gaming device pitch-shifts one or more sound files based on one or more gaming device events or states. For example, the gaming device can modify background music to last the length of a reel spin. Or, the gaming device can pitch-shift a pitch or key of one sound based on a particular player input. That is, one input causes the gaming device to play the file at one pitch, while another input causes the file to be played at another pitch. That is, the gaming device in another example pitch-shifts a sound file so that it has a duration that makes sense with the duration of the gaming device event. 
   In a further embodiment, the gaming device pieces together one or more pitch-shifted and/or unchanged sound files to produce a melody. For example, the gaming device can string together one or more pitch-shifts of a trumpet file to play different pitches or tones to form a melody or song. In this manner, a melody can be constructed from a single sound file. That is, the sound can be pitch-shifted in different amounts to produce different pitches or notes. Other pitch-shifted sound file melodies can be so constructed and played concurrently or sequentially to produce an entire song using a single sound file for each instrument. 
   It is therefore an advantage of the present invention to provide a gaming device that pitch-shifts a sound file. 
   Another advantage of the present invention is to provide a gaming device that pitch-shifts a sound file to provide a different tempo and duration based on another sound file to play the pitch-shifted file for a desired duration. 
   Still another advantage of the present invention is to provide a gaming device that pitch-shifts a sound file one or more times and plays the pitch-shifted files to produce a desired melody. 
   Moreover, an advantage of the present invention is to provide a method of saving memory in sound files of a gaming device. 
   Still further, an advantage of the present invention is to provide a method of modifying a melody of a true sound recording without having to rerecord one or more instruments. 
   Additional features and advantages of the present invention are described in, and will be apparent from, the following Detailed Description of the Invention and the figures. 

   
     BRIEF DESCRIPTION OF THE FIGURES 
       FIGS. 1A and 1B  are perspective views of alternative embodiments of the gaming device of the present invention. 
       FIG. 2  is a schematic diagram of the electronic configuration of one embodiment of the gaming device of the present invention. 
       FIG. 3  is a schematic diagram of the electronic configuration of one embodiment of the gaming device of the present invention showing a sound card having a plurality of wave files. 
   

   DETAILED DESCRIPTION OF THE INVENTION 
   Gaming Device and Electronics 
   Referring now to the drawings, and in particular to  FIGS. 1A and 1B , gaming device  10   a  and gaming device  10   b  illustrate two possible cabinet styles and display arrangements and are collectively referred to herein as gaming device  10 . The gaming device of the present invention has the controls, displays and features of a conventional gaming machine. The player may operate the gaming device while standing or sitting. Gaming device  10  also includes being a pub-style or table-top game (not shown), which a player operates while sitting. 
   The base games of the gaming device  10  may include slot, poker, blackjack or keno, among others. The gaming device  10  may also embody any bonus triggering events, bonus games as well as any progressive game coordinating with these base games. The symbols and indicia used for any of the base, bonus and progressive games include mechanical, electronic, electrical or video symbols and indicia. 
   The gaming device  10  preferably includes monetary input devices.  FIGS. 1A and 1B  illustrate a coin slot  12  for coins or tokens and/or a payment acceptor  14  for cash money. The payment acceptor  14  also includes other devices for accepting payment, such as readers or validators for credit cards, debit cards or smart cards, tickets, notes, etc. When a player inserts money in gaming device  10 , a number of credits corresponding to the amount deposited is shown in a credit display  16 . After depositing the appropriate amount of money, a player can begin the game by pulling arm  18  or pushing play button  20 . Play button  20  can be any play activator used by the player which starts any game or sequence of events in the gaming device. 
   As shown in  FIGS. 1A and 1B , gaming device  10  also includes a bet display  22  and a bet one button  24 . The player places a bet by pushing the bet one button  24 . The player can increase the bet by one credit each time the player pushes the bet one button  24 . When the player pushes the bet one button  24 , the number of credits shown in the credit display  16  decreases by one, and the number of credits shown in the bet display  22  increases by one. A player may “cash out” by pushing a cash out button  26  to receive coins or tokens in the coin payout tray  28  or other forms of payment, such as an amount printed on a ticket or credited to a credit card, debit card or smart card. Well known ticket printing and card reading machines (not illustrated) are commercially available. 
   Gaming device  10  also includes one or more display devices. The embodiment shown in  FIG. 1A  includes a central display device  30 , and the alternative embodiment shown in  FIG. 1B  includes a central display device  30  as well as an upper display device  32 . The display devices display any visual representation or exhibition, including but not limited to movement of physical objects such as mechanical reels and wheels, dynamic lighting and video images. The display device includes any viewing surface such as glass, a video monitor or screen, a liquid crystal display or any other static or dynamic display mechanism. In a video poker, blackjack or other card gaming machine embodiment, the display device includes displaying one or more cards. In a keno embodiment, the display device includes displaying numbers. 
   The slot machine base game of gaming device  10  preferably displays a plurality of reels  34 , preferably three to five reels  34 , in mechanical or video form on one or more of the display devices. Each reel  34  displays a plurality of indicia such as bells, hearts, fruits, numbers, letters, bars or other images or symbols which preferably correspond to a theme associated with the gaming device  10 . If the reels  34  are in video form, the display device displaying the video reels  34  is preferably a video monitor. Each gaming device  10  includes speakers  36  for making sounds or playing music as described below. 
   Referring now to  FIG. 2 , a general electronic configuration of the gaming device  10  preferably includes: a processor or central processing unit (“CPU”)  38 ; a memory device  40  for storing program code or other data; a central display device  30 ; an upper display device  32 ; a sound card  42 ; a plurality of speakers  36 ; and one or more input devices  44 . The processor  38  is preferably a microprocessor or microcontroller-based platform which is capable of displaying images, symbols and other indicia such as images of people, characters, places, things and faces of cards. The memory device  40  includes random access memory (“RAM”)  46  for storing event data or other data generated or used during a particular game. The memory device  40  also includes read only memory (“ROM”)  48  for storing program code, which controls the gaming device  10  so that it plays a particular game in accordance with applicable game rules and pay tables. 
   As illustrated in  FIG. 2 , the player preferably uses the input devices  44  to input signals into gaming device  10 . In the slot machine base game, the input devices  44  include the pull arm  18 , play button  20 , the bet one button  24  and the cash out button  26 . A touch screen  50  and touch screen controller  52  are connected to a video controller  54  and processor  38 . The terms “computer” or “controller” are used herein to refer collectively to the processor  38 , the memory device  40 , the sound card  42 , the touch screen controller and the video controller  54 . 
   In certain instances, it is preferable to use a touch screen  50  and an associated touch screen controller  52  instead of a conventional video monitor display device. The touch screen enables a player to input decisions into the gaming device  10  by sending a discrete signal based on the area of the touch screen  50  that the player touches or presses. As further illustrated in  FIG. 2 , the processor  38  connects to the coin slot  12  or payment acceptor  14 , whereby the processor  38  requires a player to deposit a certain amount of money in to start the game. 
   It should be appreciated that although a processor  38  and memory device  40  are preferable implementations of the present invention, the present invention also includes being implemented via one or more application-specific integrated circuits (ASIC&#39;s), one or more hard-wired devices, or one or more mechanical devices (collectively and alternatively referred to herein as a “processor”). Furthermore, although the processor  38  and memory device  40  preferably reside in each gaming device  10  unit, the present invention includes providing some or all of their functions at a central location such as a network server for communication to a playing station such as over a local area network (LAN), wide area network (WAN), Internet connection, microwave link, and the like. 
   With reference to the slot machine base game of  FIGS. 1A and 1B , to operate the gaming device  10 , the player inserts the appropriate amount of tokens or money in the coin slot  12  or the payment acceptor  14  and then pulls the arm  18  or pushes the play button  20 . The reels  34  then begin to spin. Eventually, the reels  34  come to a stop. As long as the player has credits remaining, the player can spin the reels  34  again. Depending upon where the reels  34  stop, the player may or may not win additional credits. 
   In addition to winning base game credits, the gaming device  10 , including any of the base games disclosed above, may also include one or more bonus games that give players the opportunity to win credits. The gaming device  10  may employ a video-based display device  30  or  32  for the bonus games. The bonus games include a program that automatically begins when the player achieves a qualifying condition in the base game. 
   In the slot machine embodiment, the qualifying condition may include a particular symbol or symbol combination generated on a display device. As illustrated in the five reel slot game shown in  FIGS. 1A and 1B , the qualifying condition includes the number seven appearing on, e.g., three adjacent reels  34  along a payline  56 . It should be appreciated that the gaming device may include one or more paylines, such as payline  56 , wherein the paylines can be horizontal, diagonal or any combination thereof. An alternative scatter pay qualifying condition includes the number seven appearing on, e.g., three adjacent reels  34  but not necessarily along a payline  56 , appearing on any different set of reels  34  three times or appearing anywhere on the display device the necessary number of times. 
   Referring now to  FIG. 3 , a schematic diagram shows the interaction of the sound card  42 , the processor or CPU  38 , the memory device  40  and the speakers  36  in more detail. Each of the sound card  42 , the CPU  38  and the memory device  40  electronically communicate with one another through a bus  60 . For reference, the coin slot  12  or bill acceptor  14 , the central display device  30 , the upper display device  32 , one or more speakers  36  and one or more input devices  44  are also illustrated. 
   Although the present invention is illustrated herein using the sound speakers  36 , the present invention is equally applicable to any type of sound emitting device. As used in the claimed invention, the term “sound emitting device” includes the speakers  36  as well as any other type of device that is capable of emitting sound. For example, sound emitting device also includes ultrasonic emitters. 
   In one embodiment, sound card  42  is an expansion board that enables the CPU  38  in coordination with a game program stored in memory device  40  to manipulate and output sounds. Sound card  42  enables the CPU  38  to output sound through speakers  36  connected to the card  42 . The sound card  42  also enables sounds to be recorded from a microphone (not illustrated) connected to the CPU  38  or to store prerecorded sound files. The sound card  42 , as described in more detail below, also enables sound files to be manipulated. 
   Sound card  42  includes sound random access memory (“RAM”)  62  which includes a plurality of sound files  64   a ,  64   b  and  64   c . Obviously, the sound card  42  can store many sound files and is not limited to the three shown here for purposes of illustration. The sound files include any type of sound file readable by the CPU  38 . In one embodiment, sound files  64   a  to  64   c  are digital wave files of musical sound recordings and sound effect recordings. 
   In an alternative embodiment, sound files are stored on a sound chip, which may or may not be part of a sound card  42 . Although the present invention is illustrated herein using the sound card, the present invention is equally applicable to any suitable type of sound storage medium. Thus, for the purposes of the describing the claimed invention, the term “sound storage medium” includes the sound card  42 , a sound chip or any other type of device that enables sound to be stored, recalled and played. The sound card  42  is also any device capable of reading sound files from the storage medium and converting the sounds into a form ultimately usable by the sound emitting device. 
   Typically, the quality of a sound file depends on the sampling rate and the bit depth or number of bits used to record the file. The sampling rate is the number of times per second that a snapshot of the sound is taken during its recording. For musical sound recordings, the sound files  64   a  to  64   c  in one embodiment have been recorded at about 44,000 Hz or 44,000 samples per second. Lower sampling rates cut off the higher and lower frequencies that are typical in music files. Acceptable sound effect recordings, e.g., voice, paytones or other “ding” type sounds, can be recorded at sampling rates as low as 8,000 Hz. 
   The bit depth is the number of digital ones and zeros used to record the sound files  64   a ,  64   b  and  64   c . As is well known in the art of sound recording, the more bits per file, the more accurately the files  64   a ,  64   b  and  64   c  can be reproduced. Equipment using eight-bit sampling can be used to produce sound files  64   a ,  64   b  and  64   c . In a preferred embodiment, the equipment uses 16-bit sampling or better. 
   The sound card  42  includes a sound processor  66  which drives a mixer  68  and a digital to analog converter  70 . Mixer  68  enables the sound processor  66  to vary the volume of the sound recordings. The digital to analog converter  70  converts the digital sound files  64   a  to  64   c  to analog signals suitable for the speakers  36  to amplify into desired sounds. As discussed below, the sound processor  66  also enables the sound files  64   a  to  64   c  to be sampled at various rates, so that the files are outputted to the speakers at a desired pitch or for a desired duration of time. 
     FIG. 3  also illustrates that the game ROM  48  of the memory device  40  includes game code  72 , i.e., a game program, and music code  74 . Game code  72  includes the instructions that control the gaming device  10  to play a particular game in accordance with applicable game rules and pay tables. The music code  74  includes a set of instructions that the CPU  38  uses to determine the type, duration, and volume of the files  64   a  to  64   c  to be played. In an embodiment, the music code  74  is a commercially available code such as music instrument digital interface (MIDI). 
   The RAM  46  includes game state data  76 . The game state data  76  is data generated by the CPU  38  when a sound-causing event occurs in a game. As discussed below, any predetermined event can be a sound-causing event. Sound-causing events of the present invention include the initiation or triggering of a primary or bonus game; any type of loss or accumulation of credits; a credit roll-up; an award of a jackpot; any type of random generation event, such as the spin of the reels  34  ( FIGS. 1A and 1B ), the generation of a number of poker or blackjack cards or numbers for keno; a winning, losing or push outcome; or a display designed to attract a play to play gaming device  10 , etc. 
   Sound-causing events also occur upon a player&#39;s selection of an electromechanical input device  44  or an input device that is an area of the touch screen  50 . The inputs include any type of decision made by the player in a primary or secondary game of the gaming device  10 . The inputs include any type of wagering input such as a selection of the play button  20 , the bet one button  24 , the cash out button  26 , max line or max bet buttons (not illustrated), etc. In one embodiment, each sound-causing event is associated with its own game state data  140  which includes flag data. The flag data directs the CPU  38  to make a particular sound file change. 
   Thus, upon a sound causing event, CPU  38  selects one or more sound files  64   a  to  64   c . In accordance with the game code  72  and the music code  74  of the present invention, the sound processor  66  acts to pitch-shift one or more of the sound files  64   a  to  64   c  that have been selected by the CPU  38  to be played from one or more speakers  36 . 
   The sound card  42  of the present invention can translate the digital sound files  64   a  to  64   c  into analog sounds using a variety of techniques. In one embodiment, the sound card  42  uses frequency modulation or FM synthesis. FM synthesis mimics different musical instruments according to mathematical formulas built into the sound card  42 . The electronics of the sound card  42  produces combinations of waveforms that approximate the sounds of different instruments. That is, the sounds are synthetic. Because the sounds are simulated, they are readily pitch-shifted to produce a desired pitch or to be played for a desired duration of time. FM synthesis enables a plurality of sounds to be played and/or pitch-shifted concurrently or sequentially. 
   In another embodiment, the sound card  42  uses wave table synthesis. In this embodiment, the digital sound files  64   a  to  64   c  are recordings of actual instruments or sound effects. A real piano, for example, is recorded, wherein a small sample based on the recording is stored as one of the sound files  64   a  to  64   c  on the sound card  42 . Thus when the game code  72  and music code  74  cause the sound card  42  to play a tuba sound, the speakers  36  emit the sound of an actual tuba. 
   The sound files  64   a  to  64   c  store digital samples of sound from any type of instrument, sound effect device, voice or from any other desired sound producing device. The sound processor  66  of the sound card  42  can thereafter combine, edit, pitch-shift speed-up, slow-down, enhance and reproduce one or more of the sounds through the speakers  36 . In an embodiment, gaming device  10  can play up to 32 different instruments or sound effects at one time or in a specified sequence. 
   The present invention includes employing one of the synthesizing methods above to produce a desired pitch-shifted sound, wherein the method plays a sound file  64   a  to  64   c  at a faster or slower speed than the speed at which it has been recorded. The resulting pitch-shifted sound file has a different pitch and plays for a different amount of time than would the unchanged sound file. For example, one of the sound files  64   a  to  64   c  may include the sound of a trumpet playing at a particular pitch or note for a particular amount of time. When the sound card  42  speeds the play of the sound file up, the pitch of the trumpet raises and the duration of the sound shortens. Conversely, when the sound card  42  slows the play of sound file down, the pitch of the trumpet lowers and the duration of the sound lengthens. 
   In one embodiment, the sound card  42  pitch-shifts the sound files by changing or modifying the sample rate at which the processor  66  outputs the file. Increasing the sample rate speeds up the output of the sound file and likewise increases its pitch. Decreasing the sample rate slows down the output of the sound file and thereby decreases its pitch. Although the processor  66  can pitch-shift the output speed of a file by any desired factor, when the sound file  64   a  to  64   c  stores music, the factor preferably makes musical sense. For instance, doubling the speed of a musical sound file raises its pitch an entire octave and likewise cuts its duration in half. 
   The smallest factor by which the processor  66  pitch-shifts the musical sound file is preferably that which produces the smallest musical interval, i.e., a half-step. There are twelve half-steps in an octave. To raise or lower the pitch of a musical sound file a single half-step, the processor pitch-shifts the sound file  64   a  to  64   c  by a factor of 2 1/12  or 1.0595. To raise the pitch two half-steps, the sound file is pitch-shifted by a factor of 1.0595×1.0595, and so on. 
   The present invention may be employed in a variety of ways and in a variety of scenarios. In one embodiment, the sound processor  66  pitch-shifts one or more sound files to match one or more other sound files. For example, a paytone file can be modified based on a background music file. That is, a paytone or credit roll-up sound may be recorded or stored at a particular pitch or key. If played unchanged, the sound card  42  plays the paytone at its recorded pitch and key. If the sound card  42  plays credit roll-up while simultaneously playing background music, the sound card  42  in one embodiment speeds up or slows down the paytone and increases or decreases its pitch or key accordingly to match fluctuations in pitch, key or mood of the background music. The paytone, which is used to provide game information to the player, i.e., to signal an award of game credits, thereby additionally becomes part of the background music. 
   In another example, the processor  66  pitch-shifts the sound file to alter the time duration of that sound file. For example, the background music file can be modified so that it only plays while paytones are played. The processor  66  pitch-shifts the background music file to coincide with shorter or longer credit roll-ups. Paytones generally coincide with the issuance of an increment of game credits. When the issuance stops, so do the paytones. Larger payouts therefore produce more paytones. The background music can therefore be pitch-shifted based on the size of the player&#39;s payout to match the duration of time of the corresponding paytones. In another illustration, one or more sound files may be pitch-shifted so that their play coincides with the play of background music during a reel spin. 
   Although the above examples illustrate concurrently played sound files, the processor  66  can alternatively play a pitch-shifted sound file sequentially with the another sound file. For example, a pitch-shifted sound file can be played to fill in a time gap left between two other sound files. The two other sound files dictate the duration of the time gap and the processor pitch-shifts a sound file based on the time gap. Two or more pitch-shifted sound files may be played concurrently or simultaneously. The two or more pitch-shifted sound files may be pitch-shifted based on the same sound file or different sound files. 
   In another embodiment, the sound processor  66  pitch-shifts one or more sound files based on a game event. For example, if a bonus game includes a mouse that “squeaks” upon a player&#39;s selection, the “squeak” file can be modified and played whenever the player inputs a selection that causes an award to be issued. The pitch of a sound file can therefore be tied to particular inputs, e.g., the bet one button  24  yields a certain pitch while the cash out button  26  yields another. Any game event or sound-causing event listed above of the gaming device  10  can be set to yield a desired pitch for a selected sound file  64   a  to  64   c . The processor  66  alternatively raises or lowers the pitch of one or more files based on the intensity of a particular game, e.g., higher pitch if the stakes are high. 
   The processor  66  in another example changes the duration of the sound file based on a game event. In the credit roll-up example, the processor  66  can pitch-shift the speed of the background music file based on the length of time that a display device displays the credit roll-up rather than on the length of time that gaming device  10  plays the paytones. Or, in the reel spin example, the processor  66  can pitch-shift one or more sound files to end when the reel spins end. As above, two or more pitch-shifted sound files may be played concurrently or simultaneously, wherein the two or more pitch-shifted sound files may be pitch-shifted based on the same or different game event. 
   In a further embodiment, one or more sound files may be pitch-shifted one or more times and sequentially played to create a melody. The sound card  42  can take a single sound file  62   a  to  62   c  of, e.g., a trumpet and sequentially pitch-shift the sound file to create a continuously playing trumpet solo. The sound card can add other solos to form an entire song using a single sound file of each instrument. The sound card  42  can further add in sound effects as desired. 
   Considering that sound files consume a considerable amount of memory, especially the wave table files, it may be advantageous to pitch shift files to desired pitches rather than store an entire melody. Further, since it may be impractical to obtain a musician to record a small yet desirable change on an instrument, the present invention provides a method for the gaming device  10  to provide a “synthesized”, true sound recording of a melody. 
   It should be understood that various changes and modifications to the presently preferred embodiments described herein will be apparent to those skilled in the art. Such changes and modifications can be made without departing from the spirit and scope of the present invention and without diminishing its intended advantages. It is therefore intended that such changes and modifications be covered by the appended claims.