CA2821431A1 - Dynamic storage of gaming machine data in nonvolatile memory - Google Patents

Dynamic storage of gaming machine data in nonvolatile memory Download PDF

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Publication number
CA2821431A1
CA2821431A1 CA2821431A CA2821431A CA2821431A1 CA 2821431 A1 CA2821431 A1 CA 2821431A1 CA 2821431 A CA2821431 A CA 2821431A CA 2821431 A CA2821431 A CA 2821431A CA 2821431 A1 CA2821431 A1 CA 2821431A1
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Canada
Prior art keywords
data
memory
volatile memory
ram
gaming machine
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Abandoned
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CA2821431A
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French (fr)
Inventor
Dwayne R. Nelson
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International Game Technology
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International Game Technology
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Publication of CA2821431A1 publication Critical patent/CA2821431A1/en
Abandoned legal-status Critical Current

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Classifications

    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07FCOIN-FREED OR LIKE APPARATUS
    • G07F17/00Coin-freed apparatus for hiring articles; Coin-freed facilities or services
    • G07F17/32Coin-freed apparatus for hiring articles; Coin-freed facilities or services for games, toys, sports, or amusements
    • A63F13/12
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63FCARD, BOARD, OR ROULETTE GAMES; INDOOR GAMES USING SMALL MOVING PLAYING BODIES; VIDEO GAMES; GAMES NOT OTHERWISE PROVIDED FOR
    • A63F13/00Video games, i.e. games using an electronically generated display having two or more dimensions
    • A63F13/30Interconnection arrangements between game servers and game devices; Interconnection arrangements between game devices; Interconnection arrangements between game servers
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F12/00Accessing, addressing or allocating within memory systems or architectures
    • G06F12/02Addressing or allocation; Relocation
    • G06F12/0223User address space allocation, e.g. contiguous or non contiguous base addressing
    • G06F12/023Free address space management
    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07FCOIN-FREED OR LIKE APPARATUS
    • G07F17/00Coin-freed apparatus for hiring articles; Coin-freed facilities or services
    • G07F17/32Coin-freed apparatus for hiring articles; Coin-freed facilities or services for games, toys, sports, or amusements
    • G07F17/3202Hardware aspects of a gaming system, e.g. components, construction, architecture thereof
    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07FCOIN-FREED OR LIKE APPARATUS
    • G07F17/00Coin-freed apparatus for hiring articles; Coin-freed facilities or services
    • G07F17/32Coin-freed apparatus for hiring articles; Coin-freed facilities or services for games, toys, sports, or amusements
    • G07F17/3241Security aspects of a gaming system, e.g. detecting cheating, device integrity, surveillance
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63FCARD, BOARD, OR ROULETTE GAMES; INDOOR GAMES USING SMALL MOVING PLAYING BODIES; VIDEO GAMES; GAMES NOT OTHERWISE PROVIDED FOR
    • A63F2300/00Features of games using an electronically generated display having two or more dimensions, e.g. on a television screen, showing representations related to the game
    • A63F2300/20Features of games using an electronically generated display having two or more dimensions, e.g. on a television screen, showing representations related to the game characterised by details of the game platform
    • A63F2300/206Game information storage, e.g. cartridges, CD ROM's, DVD's, smart cards
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63FCARD, BOARD, OR ROULETTE GAMES; INDOOR GAMES USING SMALL MOVING PLAYING BODIES; VIDEO GAMES; GAMES NOT OTHERWISE PROVIDED FOR
    • A63F2300/00Features of games using an electronically generated display having two or more dimensions, e.g. on a television screen, showing representations related to the game
    • A63F2300/40Features of games using an electronically generated display having two or more dimensions, e.g. on a television screen, showing representations related to the game characterised by details of platform network
    • A63F2300/401Secure communication, e.g. using encryption or authentication
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63FCARD, BOARD, OR ROULETTE GAMES; INDOOR GAMES USING SMALL MOVING PLAYING BODIES; VIDEO GAMES; GAMES NOT OTHERWISE PROVIDED FOR
    • A63F2300/00Features of games using an electronically generated display having two or more dimensions, e.g. on a television screen, showing representations related to the game
    • A63F2300/50Features of games using an electronically generated display having two or more dimensions, e.g. on a television screen, showing representations related to the game characterized by details of game servers
    • A63F2300/55Details of game data or player data management
    • A63F2300/552Details of game data or player data management for downloading to client devices, e.g. using OS version, hardware or software profile of the client device
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63FCARD, BOARD, OR ROULETTE GAMES; INDOOR GAMES USING SMALL MOVING PLAYING BODIES; VIDEO GAMES; GAMES NOT OTHERWISE PROVIDED FOR
    • A63F2300/00Features of games using an electronically generated display having two or more dimensions, e.g. on a television screen, showing representations related to the game
    • A63F2300/60Methods for processing data by generating or executing the game program
    • A63F2300/6063Methods for processing data by generating or executing the game program for sound processing
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F2212/00Indexing scheme relating to accessing, addressing or allocation within memory systems or architectures
    • G06F2212/40Specific encoding of data in memory or cache
    • G06F2212/401Compressed data

Abstract

A method and apparatus of dynamically storing critical data of a gaming machine by allocating and deallocating memory space in a gaming machine is disclosed. One or more embodiments describe downloading or removing a new game to a gaming machine such that all existing critical data in NV-RAM memory is left intact. In one embodiment, the invention discloses a method and apparatus for dynamically allocating and deallocating memory space to accommodate either permanent or temporary storage in an NV-RAM. A
method and apparatus is provided to monitor available memory space and dynamically resize the memory in NV-RAM. In one embodiment, a method is disclosed for performing an integrity check of the NV-RAM and determining whether a critical data error has occurred. In one or more embodiments, methods of compacting and shifting contents of an NV-RAM are described to consolidate available memory space or to prevent unauthorized access of NV-RAM memory.

Description

t DYNAMIC NV-RAM
FIELD OF THE INVENTION
[0001] The present invention relates to memory management and, in particular, a method and apparatus for dynamically storing critical data by allocating and deallocating memory space in a gaming machine.
BACKGROUND OF THE INVENTION
[0002] Advances in technology have led to gaming machines capable of providing a number of different games to a player. As a convenience to the player and as a way to extend his/her play time, multiple-game gaming machines can be a significant benefit to a casino. From the casino's perspective, a single gaming machine that is capable of playing a number of different games may provide a significant reduction in cost to the owner. It will also provide an enhanced experience to a player at reduced incremental cost to the casino owner.
[0003] In order to change the games stored on a gaming machine, a new game must be downloaded. This often requires that an existing game be removed from the gaming machine. When this is performed, the contents of the non-volatile random access memory (NV-RAM) must be modified. In systems of prior art, the modification requires that the existing NV-RAM memory be cleared and replaced with a newly compiled memory map reflecting the addition or removal of particular game(s).
[0004] The process of re-compiling or re-initialization of the contents of the NV-RAM
undesirably deletes all information related to the gaming machine's critical data. Such critical data may comprise game history information, accounting information, security information, player tracking information, or any other type of historical state related information.
[0005] The game history information may provide a record of outcomes for a number of rounds of play for a game in a gaming machine. For example, the game history information may be used to verify the payouts of a gaming machine so that a verification of a winning jackpot may be performed before a payout is made if suspicious activity is recognized. Game history may also be used, for example, to audit the types of jackpots generated over a specified number of rounds of play or to provide evidence that a gaming machine has been tampered with. Hence, this type of information is critical to the casino or gaming machine owner.
[0006]
Information that provides a running count or history of the credits that go in and out of the gaming machine may provide valuable accounting information.
For example, a gaming machine's cumulative number of credits may be based on the bills or coins collected, the amount of credits generated from the insertion of a credit card, or bonus credits created by inputting a PIN (personal identification number).
This type of data is extremely important to a casino owner because it provides the revenue a gaming machine generates over a period of time.
[0007] Security information may provide information related to a tampering event on the gaming machine. The details of this information may include time of day, type of game, the amount wagered, the specific outcome, and any operational information, such as diagnostics related to the condition of the gaming machine when tampering occurred.
[0008] Player tracking information is also vital to providing valuable feedback regarding a player's preferences. A casino may track player information to provide the best and most desirable playing environment to the player. Whether it be type of game, denomination of game, length of play, amount played, or the like, these factors provide invaluable information to the casino owner on how he/she can better attract and maintain play from a player.
[0009] Hence, it is important that the various critical data previously described be securely maintained during the addition or removal of a game from a gaming machine and at all other times. The deletion of critical data from NV-RAM results in numerous drawbacks.

i A
[0010] As touched on above, the prior art process for adding or removing a game from a gaming machine requires a complete recompilation of the NV-RAM memory, creating a new fixed map. This procedure is tedious because it may require the careful removal and replacement of the existing NV-RAM from the gaming machine. It is contemplated that the NV-RAM may be reprogrammed without removing it from the gaming machine;
however, the process may result in downtime and inconvenience to a customer, resulting in loss of casino revenue. Additional time and labor is required to accomplish this task for each gaming machine. As a result, the incremental cost per machine may be substantial.
[0011] Prior art systems utilize a fixed memory map approach that does not permit the dynamic use of NV-RAM memory space. Hence, the fixed memory map reserves memory that is often unused and un-needed for a game during the mapping process.
Were this memory space not reserved, it could be used to store critical data associated with another game or created from the addition of new game software. This memory allocation procedure results in a barrier to providing efficient and expedient game changes on a gaming machine.
[0012] Thus, there is a need in the art for a method and apparatus for gaming machine memory management that overcomes the drawbacks of the prior art.
SUMMARY OF THE INVENTION
[0013] In one embodiment the invention comprises a method and apparatus for downloading a game onto a gaming machine without altering or deleting critical data unrelated to the added game. A method is described to dynamically verify and allocate adequate memory space for downloading critical data information into the non-volatile random access memory (NV-RAM). In one embodiment the NV-RAM's contents are verified after data is written into NV-RAM.
[0014] In one embodiment the invention comprises a method and apparatus for I

removing a game from a gaming machine without altering or deleting critical data unrelated to the removed game. After deleting the critical data related to the removed game, the NV-RAM is dynamically resized to increase the available memory size.
In one embodiment the NV-RAM's contents are verified after data is written into NV-RAM.
[0015] In one embodiment a method and apparatus is provided for dynamically allocating and deallocating memory space to accommodate storage of either temporary or permanent data in an NV-RAM. The available memory is resized after an allocation or deallocation is performed. Temporary memory space is used only for the duration of the operational transaction required by the gaming machine, maximizing the use of [0016] In one embodiment a method and apparatus is provided for identifying and replacing erroneous data stored in NV-RAM with corrected data without altering or deleting critical data unrelated to the erroneous data.
[0017] Further objects, features, and advantages of the present invention over the prior art will become apparent from the detailed description of the drawings which follows, when considered with the attached figures.
DESCRIPTION OF THE DRAWINGS
Figure 1 illustrates a block diagram of an example embodiment of non-volatile random access memory.
Figure 2A illustrates an operational flow diagram of an example method for downloading a game into a gaming machine.
Figure 2B illustrates an operational flow diagram of an example method for verifying contents of non-volatile random access memory after downloading a game into I

a gaming machine.
Figure 3 illustrates an operational flow diagram of an example method memory management during removal of a game from a gaming machine.
Figure 4A illustrates an operational flow diagram of an example method for allocating and deallocating memory space during a critical game transaction.
Figure 4B illustrates an operational flow diagram of an example method for monitoring and dynamically resizing available memory space within a non-volatile random access memory.
Figure 5 illustrates an operational flow diagram of an example method for performing an integrity check of data in non-volatile random access memory.
Figure 6A illustrates an operational flow diagram of an example method for compaction or reorganizing memory space in non-volatile random access memory.
Figure 6B illustrates an operational flow diagram of an alternate example method for compaction or reorganizing memory space in non-volatile random access memory.
Figure 6C illustrates an operational flow diagram of an alternate example method for compaction or reorganizing memory space in non-volatile random access memory.
Figure 7 illustrates an operational flow diagram of an example method of data re-ordering in memory.
Figure 8 is an operational flow diagram of an example method of encrypting data prior to writing the data into memory.
DETAILED DESCRIPTION OF THE INVENTION
[0018] Disclosed herein is a method and apparatus for dynamically downloading or removing a game(s) stored on a gaming machine without altering or deleting "critical data" unrelated to the added or removed game(s). The term critical data may be defined as data that records the past and present states of a gaming machine. Examples of such states include a game's history, accounting, security information, or the like. This type of critical data may be stored in a gaming machine's non-volatile memory or in a non-volatile storage device permanently or temporarily. In one embodiment when downloading or removing a game(s) in a gaming machine occurs, critical data is added or removed by allocating or deallocating memory space in a non-volatile random access memory (NV-RAM) of a gaming machine.
[0019] One embodiment of the invention relates to a method of downloading a game on a gaming machine without altering or deleting critical data unrelated to the added game. A number of embodiments of the invention relate to methods to maximize the use of free memory space in an NV-RAM during the course of the gaming machine's operation and maintenance. A number of embodiments of the invention relate to methods to efficiently utilize the memory space in an NV-RAM when a game is downloaded or removed from a gaming machine. One embodiment of the invention relates to a method of dynamically sizing the NV-RAM memory space based on the gaming machine's operational requirements. One embodiment of the invention relates to a method of identifying erroneous data within an NV-RAM, removing the erroneous data, and restoring correct data into NV-RAM. A number of embodiments of the invention relate to manipulation of the data over time so as to mitigate a willful modification of critical data by an unauthorized user. In the following descriptions, numerous specific details are set forth in order to provide a more thorough description of the present invention. It will be apparent, however, to one skilled in the art, that the present invention may be practiced without these specific details. In other instances, well-known features have not been described in detail so as not to obscure the invention.
[0020] Figure 1 illustrates a block diagram of an example embodiment of non-volatile random access memory. In one embodiment the NV-RAM 104 consists of a number of memory elements arranged in rows and columns. For the purposes of discussion, a rudimentary memory element is described as a heap block 108. As illustrated in Figure 1, the entire NV-RAM 104 comprises heap blocks 108 arranged in rows and columns. A
particular heap block 108 may be specified by giving its row and column numbers. For the sake of simplicity, the example NV-RAM 104 is physically divided into 10 rows and columns, providing a total of 100 heap blocks for the NV-RAM 104. For example, the first heap block 112, located at the top of the memory stack, may be referenced by its physical location in memory as the heap block located at (row 1, column 1), while the last heap block 116 may be referenced by its location defined by (row 10, column 10).
[0021] NV-RAM 104 plays a significant role in the normal operation of a gaming machine. The heap blocks 108 store data that may be classified as permanent or temporary data. The permanent type of data is described in this document as critical data. Critical data comprises data considered to be highly important. Critical data stores information related to the current or previous state(s) of a gaming machine.
Examples of critical data include game history information, security information, accounting information, player tracking information, wide area progressive information, game state information, or any "critical" game related data. Critical data such as the amount of funds credited to or paid out from a gaming machine may be stored permanently in NV-RAM 104 as accounting information. This critical accounting information would reflect its current and prior states over successive rounds of play. To the casino owner, this information is important in determining the casino's profitability.
[0022] In contrast, temporary space may be used to process important commands related to the current state or operations of a gaming machine. After the commands are processed, the temporary space may be allocated for other purposes, such as storing critical data. For example, the operations that are necessary in transferring credits from a debit card to the gaming machine may require the use of data that is stored temporarily in the NV-RAM 104. This temporary, or non-critical, data may be used as part of a series of transactions or instructions to be executed. When the operations are completed, however, the contents of the memory may be purged, generating additional memory space.
[0023] NV-RAM 104 may maintain the contents of its memory over time through the use of a battery as a power source and is thus independent of externally supplied power.
As a result, NV-RAM can continue to store data such as critical data as long as power is supplied. Typically, an NV-RAM contains its own internal battery source.
[0024] Figure 2A illustrates an example method of downloading a new game to a gaming machine without destroying or deleting existing critical data.. This is but one possible method of operation, and the present embodiment should not be considered as being limited to this example method of operation. In a step 204, a software client requests new game code. In one embodiment the request is transmitted though use of a device interface such as a key pad, touch pad, or card reader of a gaming machine. In other instances, the new game code may be transmitted from a remote computing device (i.e, workstation, server, or the like) or by a portable device (i.e., laptop, PDA, handheld, or the like) that may communicate with the gaming machine. The transmission may occur by either wireless or wireline communications. The software client may comprise a communication manager, bank manager, virtual player tracking manager, event distribution manager, event manager, or power hit detection manager. A
more complete discussion of the term software client is disclosed in parent Application No. 09/690,931, entitled High Performance Battery Backed RAM Interface, which is incorporated herein by reference.
[0025] At a step 208, the software client transfers critical data to or from an NV-RAM
manager. In one embodiment the NV-RAM manager comprises non-volatile memory or non-volatile storage management software capable of effectively managing the non-volatile memory or non-volatile storage device. Critical data may be stored and I

accessed by a software controlled non-volatile memory or non-volatile storage file system. The non-volatile memory or non-volatile storage file system facilitates the viewing and modification of data residing in an NV-RAM. The non-volatile memory or non-volatile storage file system may be thought of as a file allocation system found in computer oPerating systems where files are organized by directories, subdirectories, and files. The NV-RAM manager communicates function requests to the NV-RAM. The function requests may include a request allocating or deallocating memory space, opening or closing files or data, and reading, writing, resizing, and moving of heap blocks within NV-RAM memory. As used herein, the term NV-RAM management system comprises a combination of the NV-RAM manager, the non-volatile memory or non-volatile storage file system, and NV-RAM, supported by processes executed by an operating system residing on the gaming machine. The operating system may comprise an operating system manufactured from companies such as a Microsoft, Apple, or LINUX. The NV-RAM management system may use standard application tools, such as a word processor program, to view the contents in NV-RAM. It is contemplated that any word processor, in conjunction with the non-volatile memory or non-volatile storage file system, may facilitate the display, addition, removal, and modification of critical data associated with the addition or removal of a particular game(s) within NV-RAM.
An example word processor program includes Corel Word Perfect or Microsoft Word.
The NV-RAM management system leaves existing critical data resident in NV-RAM
intact during any addition or removal of critical data.
[0026] At a step 212, the NV-RAM manager dynamically interacts with the NV-RAM

to perform function requests related to allocating or deallocating heap blocks that relate to writing or deleting critical data. The function requests are performed in collaboration with the software client and may comprise any one of the requests mentioned in the preceding paragraph.
[0027] At a step 216, the NV-RAM manager allocates the amount of NV-RAM

required for the new game. It is contemplated that a program executed by the software client or hardware device may determine the size of the game to be loaded into NV-RAM. This information may be communicated to the manager in any manner.
Thereafter, the NV-RAM manager verifies that adequate memory space exists and issues a request to allocate memory. The NV-RAM manager may perform an open function request to access an existing NV-RAM memory node. A node represents a range of related heap blocks in NV-RAM. A read function request on the NV-RAM provides a handle (or address) for the NV-RAM node of interest associated with a range of heap blocks. The heap blocks comprise used or unused blocks of memory associated with a particular handle. In sum, the appropriate heap blocks are allocated by the NV-RAM
manager for a subsequent write function.
[0028] At a step 220, a decision is made regarding whether or not the memory size is adequate. If the memory size is not adequate, the process proceeds to step 224, in which a process called compaction, described below in more detail, is performed up to a set .
number of times, in this embodiment N times, to reorganize (or defragment) the memory. The process of compaction generates unused contiguous memory of a size sufficient for the storage of new critical data. At a step 228, the operation determines whether the number of compaction routines performed is less than or equal to N
and continues the operation until n = N. If the available memory size is still insufficient, then the process terminates at a step 232, as indicated by Tilt Mode. A step follows, indicating that the gaming machine now requires human intervention.
[0029] Alternatively, if at step 240 the adequate memory size is available, the operation proceeds to a step 240, wherein the available heap blocks are identified and a dynamic allocation of the heap blocks takes place. An appropriate number of heap blocks are assigned to the node with a unique handle. At a step 244, the NV-RAM
manager performs a write function of the critical data associated with the new game onto contiguous heap blocks in NV-RAM.

=
[0030] Figure 1 may aid in understanding the process described by steps 204-244 of Figure 2A. As shown, a second game is added to an NV-RAM 104; the NV-RAM
previously contained critical data elements associated with an existing game #1. As shown, the critical data elements corresponding to the first game have been stored in the first 8 heap blocks 108 of the NV-RAM 104 (i.e., row 1, columns 1-8). As part of the above-described process, the NV-RAM manager determines that the critical data requires 12 heap blocks. The NV-RAM manager facilitates the allocation of 12 contiguous heap blocks in NV-RAM. As illustrated in Figure 1, the next 12 sequential heap blocks are allocated corresponding to the last two heap blocks in row 1 and all of row 2.
[0031] Returning to the method described in conjunction with Figure 2, and in reference to Figure 2A, the following discussion relates to verification of data integrity.
At a step 248, the NV-RAM manager retrieves a copy of the original critical game data from the device interface and sends it to the software client, where it is stored in a first location in a memory, such as SDRAM or any other memory device.
[0032] SDRAM is synchronous dynamic random access memory and may be used to store data required for immediate processing performed by a processor in a gaming machine. This type of random access memory provides faster read and write cycle times . but is not feasible for use in long term storage of critical data information in a gaining machine. Thereafter, at a step 252, the software client stores a copy of the data retrieved from NV-RAM in SDRAM.
[0033] Next, at a step 256, the software client compares the original critical game data in SDRAM with critical game data stored in NV-RAM. It is contemplated that a CRC
may be performed on the original critical game data, as well as the data stored in NV-RAM, to verify that the data has not been altered. Thereafter, a decision is made, at a step 260, regarding whether or not the data stored in SDRAM matches the data stored in 4.
NV-RAM. If the data matches, the operation proceeds to a step 264.
Alternatively, if the data does not match, the gaming machine enters a tilt mode as shown in step 268, and a wait state is entered at a step 272. This process insures that the critical data associated with new game software is written into NV-RAM without error before game play may occur.
[0034] The aforementioned steps represent a method to dynamically allocate memory space of an NV-RAM comprising the storage of critical game information related to the addition of a new game. As an advantage to this method over the prior art, the addition of the new game does not affect any critical data previously written into the NV-RAM, such as data associated with another game. Hence, the method insures the preservation of existing critical game information in NV-RAM without the need to re-initialize and re-map the contents of the entire NV-RAM memory.
[0035] Figure 3 illustrates an operational flow diagram of an example method of deallocating or deleting critical data associated with the removal of a game from a multi-game gaming machine. When a game is removed, critical data associated with that particular game may be removed from the gaming machine. As an advantage to this method, a game may be removed from a gaining machine without disrupting the storage of other data, such as critical data, in the gaming machine. As a result, games may be rapidly and efficiently removed from a gaming machine. Moreover, these operations may be undertaken by service technicians without need of software experts.
[0036] At a step 304, a software client receives a request to remove a game from a gaming machine. Next, at a step 308, the software client invokes a function request to the NV-RAM manager to identify the handle or node of the critical data associated with the game to be removed. At a step 312, the heap blocks of memory corresponding to the node are tagged for removal. In step 316, the NV-RAM manager removes the NV-RAM
heap blocks by deallocating the appropriate range of heap blocks. As part of this process, the heap block may be opened and read.

i i [0037] After removal of the data contained in the range of heap blocks, as shown at a step 320, the remaining available heap blocks in memory are resized to thereby provide a potentially larger memory space for future critical data storage. At a step 324, the NV-RAM manager or any other device, system, or software verifies the accuracy of the critical data stored in NV-RAM.
[0038] Figure 4A illustrates an operational flow diagram of an example method of dynamically resizing available memory space in a gaming machine. The advantages of applying this method include the allocation and deallocation of memory space as required. When memory is required to perform an operational transaction, memory space is allocated only during that period of time when it is needed. When memory is deallocated, the memory is resized, providing increased available memory space for subsequent use.
[0039] At a step 404, the operation initiates a critical game transaction.
Examples of critical game transactions include, but are not limited to, reading the credit information from a debit card, adding an amount of credit to a gaming machine, and accepting currency from a player. The critical game transaction may require the use of NV-RAM
either temporarily or more permanently. The NV-RAM may store values temporarily as an intermediate step in the calculation of critical data. For example, when accepting currency from a player, a bill validator may determine the value of the currency as an integer number of dollars. This information may be stored into NV-RAM
temporarily, as an intermediate operational step, prior to determining the number of credits credited in the gaming machine. If the game comprises a 25 cent game, the number of credits calculated would correspond to forty credits if the player inserts a ten dollar bill. In this example, the critical data stored permanently in NV-RAM may comprise the number of credits (forty), although the number of dollars (ten) would comprise an intermediate operational value in the calculation of the number of credits. As a consequence, the intermediate value ten may comprise data that is stored temporarily in NV-RAM
and is I

deleted upon the calculation of the critical data value forty which may be stored permanently in NV-RAM.
[0040] At a step 408, the NV-RAM manager allocates memory to facilitate a critical game transaction. The NV-RAM manager may allocate memory in preparation for storage of an example critical data associated with a game download, or it may deallocate memory (as when deleting contents from temporary NV-RAM memory) if a particular data is no longer required on the gaming machine. Typically, a critical game transaction will cause the NV-RAM manager to allocate memory space either temporarily or permanently, as shown at a step 412. The new data will reside in memory over a period of time as dictated by its function. At a step 416, operational transaction data is loaded, on a temporary basis, into NV-RAM space. As described earlier, this data may be used in an intermediate step as part of the calculation of a critical data. , Thereafter, at a step 420, the resulting critical data is stored permanently in NV-RAM
memory. At a step 424, data created, stored, or used for intermediate operational transactions may be destroyed, and the NV-RAM memory space may be deallocated.
[0041] Continuing on to Figure 4B, the gaming machine may enter a game play mode at a step 428. During the course of game play, the gaming machine may undergo a number of different events, such as receiving currency, hopper tilt, reel tilt, protective tilt, power loss, player's card input, player's card removal, personal identification input, reel spin, multi-denomination change, jackpot tilt, and the like. During these transactional events, the temporary or permanent non-volatile memory or non-volatile storage requirements of the game or the gaming machine may change.
Accordingly, at a step 428, the memory space allocations are continuously monitored. A decision occurs at a step 432 regarding the adequacy of memory at any point in time during gaming machine operation.
[0042] If memory is adequate, the gaming machine resumes game play by returning to step 424. Alternatively, if at step 532 the system determines that the memory space or I i size allocations are not adequate, the operation then advances to a step 436.
At step 436, the operation dynamically resizes memory to facilitate a game play or any other operational transaction. The process may involve compaction, described below in more detail, to provide contiguous memory large enough for a particular transaction to occur.
[0043] Referring back to Figure 1, a temporary NV-RAM memory space is illustrated as the first four heap blocks in third row 120 of the NV-RAM 104. It is contemplated that these blocks are used to store intermediate data required in the generation of critical data. For example, the critical data associated with the second game, contained in heap blocks located in row 2, columns 1-10, may have been generated through the use of data stored in the temporary NV-RAM space. The contents in temporary NV-RAM space may be deleted after use, and the associated heap blocks may be deallocated.
[0044] Figure 5 illustrates an operational flow diagram of an example method for performing an integrity check of data in non-volatile random access memory. In one embodiment this method is utilized to detect and fix changes to data that may have been caused by an electrical problem, such as a static discharge or a high voltage surge. This process may begin by powering up a gaming machine. This is shown at a step 504. The gaming machine performs an initialization of an NV-RAM which may include integrity testing of the memory.
[0045] In one embodiment the integrity testing comprises a CRC (cyclic redundancy check) algorithm or another method, such as a checksum, to determine if a critical data element stored in the NV-RAM contains an error. When the gaming machine is powered up, the state of the machine prior to its power up will be captured in the NV-RAM
header. The state information may comprise a particular signature that may be recognized during the integrity check. For example, a particular signature may indicate that the gaming machine has a particular malfunction or that power was interrupted during its previous operation. If the signatures generated for the NV-RAM
header do not correspond with the signatures stored in the NV-RAM header, an error in critical 1 i a data may have occurred, such as a tampering of the gaming machine or some other hardware or software malfunction. A further check of the NV-RAM heap blocks may indicate errors in the critical data. In the case where the signature indicates that a power outage had occurred, the NV-RAM manager may be directed to further perform an integrity check of memory contents within a heap block that contains the critical data associated with the particular operation during the time the power outage occurred.
[0046] Thereafter, at a step 508, the NV-RAM manager performs an integrity check on the NV-RAM and determines errors in a critical data element. At a step 512, the NV-RAM manager identifies the handle of the erroneous critical data element and determines the appropriate heap blocks that contain the erroneous critical data element.
In one embodiment this comprises the NV-RAM manager performing an open function request to access memory containing the affected heap blocks. A read function request may then generate the appropriate ranges of heap blocks that require removal.
[0047] At a step 516, the NV-RAM manager performs a delete function request, allowing the NV-RAM to delete the heap blocks associated with the discovered error.
At a step 520, any heap blocks containing unrelated critical data elements are left intact within the NV-RAM as the NV-RAM manager reloads the affected data into the appropriate locations in NV-RAM to restore the integrity of the critical data.
In one embodiment, after the reload or rewrite occurs, the restored data may be re-tested. In one embodiment, an alert may be generated upon defection of corrupt data.
[0048] As an advantage to this embodiment, the error removal process is such that a minimal subset of all critical data elements are cleared from non-volatile memory or non-volatile storage. As a result, the process described in Figure 5 typically removes the erroneous critical data element while leaving intact all other critical data elements that are unrelated to the erroneous critical data element.
[0049] In the prior art, an error in a data element required the re-initialization or clearing of the entire NV-RAM, causing the loss of all data unrelated to the error. This , is undesirable because all of the critical data is lost or must be reloaded.
[0050] Figures 6A, 6B, and 6C illustrate example methods of NV-RAM compaction.

Compaction is a process of re-organizing used and free memory within an NV-RAM
to consolidate the free memory space into a larger size or into the largest contiguous memory size possible. The process of compaction causes an NV-RAM manager to write related critical data over a series of contiguous heap blocks. The process results in more efficient write and read functions performed by the NV-RAM manager. As a consequence, performance is improved significantly when related data is stored contiguously. Further, compaction achieves more efficient use of the memory by allowing a block of data to be written contiguously.
[0051] Figure 6A illustrates an alternate embodiment of a method of compacting or reorganizing memory in NV-RAM. This may be accomplished by segregating used heap blocks from unused heap blocks. In a step 604, the NV-RAM manager sequentially analyzes heap blocks in NV-RAM. It is contemplated that the NV-RAM manager starts analyzing at the location of the first heap block (row 1, column 1) of the NV-RAM as described in Figure 1, or at any location. In a step 608, a determination is made whether the heap block is in use (contains data). If the heap block is in use, the heap block is shifted or positioned to the top portion of the NV-RAM memory stack at a step 612.
The used heap blocks that are shifted to the top portion of NV-RAM may be sorted based on the type of critical data stored within the heap block. The sorting criteria may include the type of critical data (i.e., accounting vs. game history data), type of game, or =
any other factor, [0052] At a step 616, the nodes are resized to reflect the number of heap blocks associated with a particular node. A node is discussed in parent Application No.
09/690,931, High Performance Battery Backed RAM Interface. Thereafter, at a step 620, the next heap block is analyzed and the process repeats itself by returning to a step 604. The process may time out or stop after the entire NV-RAM memory is compacted.
[0053] At a step 608, if the heap block is unused, the process reverts back to step 604, where the next heap block is analyzed. It is contemplated that the process of shifting heap blocks can be controlled by the software client in conjunction with the NV-RAM
manager. It is contemplated that the process may commence and terminate based on factors such as time of day, frequency of NV-RAM use, the rounds of play on the gaming machine, or some other criteria.
[0054] Figure 6B illustrates an alternate embodiment of a method for compacting or reorganizing memory in NV-RAM. This may be accomplished by shifting heap blocks either to the top or to the bottom of the NV-RAM memory stack. At a step 624, the NV-RAM manager sequentially analyzes the heap blocks in NV-RAM. As described in Figure 6A, the NV-RAM manager may begin analysis starting at the first heap block located at (row 1, columnl) of the NV-RAM or from any other location. At a step 628, a decision is made concerning whether or not the heap block in use.
[0055] If the heap block is in use, the process advances to a step 632, where the heap block is shifted to the top portion of NV-RAM. If the heap block is unused, the process advances to a step 636, and the heap block is shifted to the bottom portion of the NV-RAM memory stack. Thereafter, in either case, the associated nodes are resized to reflect the new re-organization or new ranges of used or unused heap blocks.
This is illustrated at steps 640 and 644. At a step 648, the next heap block is analyzed and the process repeats itself. Because shifting of heap blocks is performed on both in use and unused heap blocks, it is contemplated that the system described in Figure 6B
may provide a faster method of compaction as compared to the system described in Figure 6A.
[0056] Figure 6C illustrates an alternate embodiment of a system of compacting or reorganizing memory in NV-RAM. This may be accomplished by shifting heap blocks to the top of the NV-RAM memory stack based on particular criteria. At a step 652, the NV-RAM manager sequentially analyzes the heap blocks in NV-RAM. At a step 656, a decision is made as to whether or not a heap block is in use. If the heap block contains data, the process proceeds to a step 660. Next, a decision is made concerning block size criteria. For example, the size criteria may be that the heap block size is less than or equal to 200 kilobytes before heap block shifting occurs. This type of criteria may facilitate the shifting of smaller blocks prior to the shifting of larger blocks, and the criteria may be controlled, such as for example, by a casino employee. At a step 664, an in use heap block meeting the desired criteria is shifted to the top portion of the memory stack in NV-RAM. It is contemplated the heap block may be shifted to portions of memory other than the top portion as described in this example embodiment. At a step 668, the range of available heap blocks is resized to reflect the additional available memory space. Next, at a step 672, the process repeats itself as the NV-RAM
manager analyzes the next heap block.
[0057] It is contemplated that the shifting of heap blocks as described in Figures 6A, 6B, or 6C may be accomplished by shifting data to a distinct portion of memory different from that of the top or bottom of an NV-RAM memory stack. The methods of shifting to a specific location as described in these embodiments are examples and are meant for discussion purposes. Furthermore, it is contemplated that compacting may occur more readily when the availability of unused NV-RAM is low. In addition, it is contemplated that compacting may occur periodically or on specific times in a day, or specific days in a week. As part of initializing the NV-RAM, it is contemplated the NV-RAM is compacted when the NV-RAM manager is first started.
[0058] Figure 7 illustrates an example method of shifting the contents of heap blocks to various locations within NV-RAM memory. This process may occur to provide additional security by re-organizing data in memory to prevent unauthorized access of data. By continually or periodically changing the location of data in memory, the ability of an individual to access a particular type of data is reduced.
[0059] At a step 704, the NV-RAM manager randomly generates a node record. A

node record stores a handle for the NV-RAM which may be a unique handle. This handle, used by the software client, may provide a pointer to the location in NV-RAM at where the node or file resides. Further, the node record may provide the file size, file name, and information regarding the status of the file. It is contemplated the status may be a flag that indicates and allows a possible resizing or removal of data in NV-RAM to occur. At a step 708, an associated heap block or a random heap block corresponding to the node record is selected. At a step 712, the heap blocks are placed at the bottom portion of the memory stack in NV-RAM. It is contemplated that data may be shifted to portions of the memory stack other than the bottom portion. Figure 1 illustrates the physical location of the heap block as a result of shuffling the data to the bottom portion of the memory stack (shown as the heap block in (row 10, column 10)).
[0060] Next, in step 716, a compaction routine, such as that described in Figures 6A, B, or C, may be employed. The process hinders an unauthorized user's ability to identify the contents of a particular heap block because the contents of randomly selected heap blocks are continuously shifting to a new location within the NV-RAM.
[0061] Figure 8 illustrates an operational flow diagram of an alternate method of operation of a system to prevent unauthorized access of data written into NV-RAM. At a step 808, critical game data associated with game code is identified and stored in SDRAM. At a step 812, the NV-RAM manager facilitates the processing of the critical data by providing the critical data to the NV-RAM manager. At a step 816, the NV-RAM manager identifies and allocates heap blocks to store the critical data.
At a step 820, the NV-RAM facilitates the encryption and subsequent storage of critical data into SDRAM. The encryption can be any simple type of encryption. In one embodiment, the encryption comprises multiplying the critical data by a number that is unique to a gaming machine. This creates a unique encryption key that would not be known by a potential cheater. At a step 824, the encrypted critical data is written into NV-RAM.
[0062] It is contemplated that the above-described software may be embodied in machine readable code, such as software code and computer programs, that are processor executable.
[0063] It will be understood that the above described arrangements of apparatus and the method therefrom are merely illustrative of applications of the principles of this invention and many other embodiments and modifications may be made without departing from the spirit and scope of the invention as defined in the claims.

Claims (45)

1. A non-volatile memory allocation system in a gaming machine comprising:
a non-volatile memory having memory space configured to store data;
a non-volatile memory manager configured to allocate and deallocate memory space in the non-volatile memory for first data without altering or modifying existing second data also stored in the non-volatile memory; and a data file system for accessing and organizing the data stored in the non-volatile memory.
2. The system of Claim 1, wherein the first data comprises critical data.
3. The system of Claim 1, wherein the non-volatile memory comprises memory with a battery back-up.
4. The system of Claim 1, wherein the non-volatile memory manager comprises machine readable code.
5. The system of Claim 1, wherein the data is identified by files using a file system.
6. The system of Claim 5, further comprising an application tool for accessing files in the file system.
7. A method of incorporating a new game into a gaming machine comprising:
receiving game code, the game code associated with a new wagering game to be installed on the gaming machine;

generating first data associated with the new game code;
allocating memory space in non-volatile memory for the first data utilizing a non-volatile memory allocation system;
writing the first data into the non-volatile memory, wherein the non-volatile memory contains existing second data; and wherein the existing second data remains intact after incorporating the new game.
8. The method of Claim 7, further comprising verifying the accuracy, after the writing, of the first data that was written into the non-volatile memory.
9. The method of Claim 7, wherein the first data comprises critical data.
10. The method of Claim 7, wherein allocation further comprises verifying that adequate memory space exists in the non-volatile memory.
11. The method of Claim 7, further comprising compacting the non-volatile memory to generate additional memory space.
12. A method of removing a first game from a gaming machine having two or more games stored thereon comprising:
identifying first critical data associated with the first game to be removed;
identifying a memory space of the first critical data in a non-volatile memory through use of a non-volatile memory manager;
deleting the first critical data associated with the game, wherein deleting does not interfere with use of second critical data also stored in the non-volatile memory; and deallocating the memory space previously occupied by the first critical data.
13. The method of Claim 12, further comprising resizing remaining memory space resulting from the deletion of the first data.
14. The method of Claim 12, further comprising verifying the accuracy of the second critical data in non-volatile memory after removal of the first data.
15. The method of Claim 12, wherein the non-volatile memory manager comprises machine readable code.
16. The method of Claim 12, wherein the deallocating is performed by the memory manager.
17. A method of dynamically maximizing available memory space in a non-volatile memory in a gaming machine comprising.
identifying a critical game transaction to be performed, the critical game transaction generating a first type of data;
allocating memory space having a first size in a non-volatile memory for storing the first type of data;
storing first type of data in the first amount of memory space, monitoring memory allocations for during gaming machine operations; and reallocating memory space having a second size for storing the first type of data.
18 The method of Claim 17, wherein the second size is less than the first size.
19. The method of Claim 17, wherein the second size is greater than the first size.
20. The method of Claim 17, wherein the first type of data comprises critical data.
21. The method of Claim 17, wherein allocating memory space is performed by a memory manager.
22. A method of removing corrupt data stored in a non-volatile memory in a gaming machine comprising:
testing data stored in a first memory space in non-volatile memory;
identifying corrupt data responsive to the testing; and re-writing non-corrupt data into the first memory space;
wherein re-writing leaves intact other data elements stored in the non-volatile memory.
23. The method of Claim 22, wherein the testing occurs periodically.
24. The method of Claim 22, further including re-testing the non-corrupt data after the re-writing.
25. The method of Claim 22, wherein the testing comprises performing a cyclic redundancy check algorithm.
26. The method of Claim 22, further comprising generating an alert regarding the identification of corrupt data.
27. The method of Claim 22, wherein re-writing comprises deleting the corrupt data.
28. A method of de-fragmenting to maximize the use of non-volatile memory in a gaming machine comprising:

analyzing a first memory space of the non-volatile memory to determine if it is occupied with data;
responsive to the analyzing, shifting the data in the first memory space to a second memory space within the non-volatile memory; and resizing a node to account for the shifting.
29. The method of Claim 28, further comprising assigning new handle to the data after the shifting.
30. The method of Claim 28, wherein the analyzing occurs sequentially in the non-volatile memory.
31. The method of Claim 28, wherein the shifting causes data to be compacted into adjacent memory space.
32. The method of Claim 28, wherein the shifting does not require the re-writing of other data in the non-volatile memory.
33. The method of Claim 28, wherein shifting comprises shifting to a top or to a bottom portion of a memory stack in the non-volatile memory.
34. The method of Claim 28, further comprising analyzing the data prior to shifting to determine if the data qualifies as movable data.
35. The method of Claim 28, wherein the analyzing analyzes heap block size.
36. The method of Claim 28, further comprising analyzing the amount of unused space within the non-volatile memory, and if the amount of unused space within the non-volatile memory is less than a predetermined amount, then executing the method of analyzing the first memory space, shifting, and resizing.
37. The method of Claim 28, wherein the analyzing, shifting and resizing occurs periodically.
38. The method of Claim 28, wherein the analyzing, shifting and resizing occurs whenever memory manager operation is initiated.
39. A method to hindering access to data stored in a non-volatile memory comprising:
selecting a first memory element in the non-volatile memory;
reading the data in the memory element;
writing the data to a second memory element within the non-volatile memory;
and reassigning the data in the file manager.
40. The method of Claim 39, further comprising compacting the memory elements sequentially to maximize memory utilization.
41. The method of Claim 39, wherein the selecting occurs randomly.
42. The method of Claim 39, wherein the memory elements comprise data.
43. The method of Claim 39, wherein the memory elements comprise a block of data.
44. The method of Claim 39, further comprising encrypting the data prior to writing into a non-volatile memory.
45. The method of Claim 44, wherein the encrypting comprises multiplying the critical data with a unique value corresponding to a gaming machine.
CA2821431A 2002-09-13 2003-09-11 Dynamic storage of gaming machine data in nonvolatile memory Abandoned CA2821431A1 (en)

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US10/243,104 US7111141B2 (en) 2000-10-17 2002-09-13 Dynamic NV-RAM
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