Intel J2 650 system manual Theory of Operation, Values Monitored

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Theory of Operation

The J2 Health Monitor software is an application program that loads on system boot-up and runs in the background. At a predefined interval the software reads the health monitoring hardware and updates a set of registry keys with the current values.

Any software application can read these registry key values to check the current status of the systems health monitoring hardware.

The registry was chosen to store the health values because different systems have different hardware values that are monitored. By using registry keys the software applications can just scan for the keys present to determine which values need to be monitored for that particular hardware. One example would be the J2 650 system that supports Intel’s Core 2 DUO processors which have two CPU temperatures where other systems only have one. Additional registry keys are added for this second CPU core temperature. Minimum and maximum values for some keys are also stored in the registry so that the application can determine if a value is within J2’s specification.

It is solely up to the user’s software how to use this information. J2 makes no assumption as to how this information is used other than to say that if the hardware health values are within J2 specification the product is consider good. For example, people may make the wrong assumption that higher temperatures reduce product life, however this is not the case if the product is running within specification.

Values Monitored

Most J2 POS hardware monitors all critical system voltages, fan speed, processor and system temperatures. The number of parameters monitored varies depending on the system. For instance the J2 580 monitors eight voltages where the J2 650 monitors six because the 650 only has six different voltages. Other parameters maybe monitored on future systems.

650 System Manual (Draft)

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Version 0.4 August 20, 2008

 

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Contents Integrated Touchscreen Computer Contents Bios Setup Rfid / MSR Overview System Manual Draft Version 0.4 August 20 Specification CF adapter Quick ChangePower Unique Features Green Mode / Fan less OperationIntel’s Desktop Processor Socket LGA Hot Swappable RAID/ Dual Hard DrivesPrinter Power Port Automatic LCD Brightness ControlCooling System VersatilityConfigurations SystemProcessor Support System Board, back viewProcessors currently supported on TDPPorts PanelOff / On Button Off / On button LocationHDD access panel HDD slide in-slide out drive bay Hard DisksTouch Screen Compact Flash access panelCompact Flash LCD Display System BoardSystem board Secondary Display Port Secondary Display PortPS/2 Keyboard port PS/2 Keyboard portSerial Port Serial portsDB9 pin out serial ports Parallel Port Parallel PortUSB ports USB port Cable Well USB port left sideKensington slot Cable Well Kensington slot Base Ethernet ConnectionKensington Security Slot Audio Jack Location Printer Power Port Printer Power Port CableAudio Cash Drawer Ports Cash Drawer Ports Cash Drawer Pin AssignmentCash drawer I/O ports Power SupplyPower Input connector Service Removing the Head from the BaseBase Locking Screw Slide off towards bottom of unitRemoving the Power Supply Screw locationWall Mounting Bracket Units slides on to the mounting bracket hooksVesa Mounting Wall Mount Bracket / Mounting Holes 75mm Vesa PatternRemoving the Back Cover Remove two screws as shown Carefully tilt up the back coverChanging the System Board Screw location System BoardPage Changing the Processor Adding MemoryMemory sockets Accessing the CF Card Accessing the Hard Drives Remove cover screw as shown Remove or insert drive as neededBios Setup Entering the Bios SetupMain, System Overview Main screenSata Configuration Advanced SettingsAdvanced Setting Screen Sata Configuration Screen Drive Information ScreenSuper I/O Configuration Configure Super I/O Chipsets screenUSB Mass Storage Device Configuration USB ConfigurationUSB Configuration screen Manual Mode Setting screen Green ModeLCD Brightness Control Mode / Manual Mode LCD Brightness Control Mode / Auto Mode Auto Mode Setting screenRun PXE ROM Restore on AC Power Loss2nd Display D-SUB15 19V Out RTC Configuration Display OEM LogoRTC Configuration Screen Boot SettingsWake On LAN Cmos ClearBoot Settings Screen Exit Options Exit Options ScreenGraphics Driver Installation Driver Installation / Vista, XPChipset Driver Installation Audio Driver Installation First Audio setup screenLAN driver install screen Second Audio setup screenLAN Driver Installation Touch Screen Driver Installation Page Page Page Opos drivers Additional information to be addedJ2 Health Monitor Running Health Monitor Theory of Operation Values MonitoredRegistry Keys HKEYLOCALMACHINE\HARDWARE\DESCRIPTION\J2HealthRefresh Interval ApplicationsRAID RAID OverviewF6 Installation Method Enabling RAID in the BiosRAID Volume Creation Press the S key to Specify Additional Device Drive Failed Icon in trayRescan for Plug and Play Devices screen shot Drive detectedRebuilding Rebuilt Packing List Standard ItemsOptional Peripherals With front swipe MSRRemove plastic hole covers Installing the 650 MSRRemove MSR cover plate Mounting MSR J2 650 MSR Utility MSR Utility, Basic SettingsMSR Utility Basic Settings screen Advanced Settings Alphanumeric touch keyboard Control Key entry touch keyboard MSR Firmware Update Specifications 650 UPSHardware Picture to be added hereSoftware Setup in XP Double click Power OptionsPage Status LED Fingerprint Reader / MSR Customer DisplaySecondary Video Display IButton / MSR Laser ScannerContact Information Worldwide Headquarters

J2 650 specifications

The Intel J2 650 is a microprocessor that has garnered attention for its robust performance and advanced features, tailored for a range of applications from embedded systems to high-performance computing tasks. As a member of Intel’s J-series, the J2 650 is designed to balance power efficiency with computational capabilities, making it a versatile choice for developers and manufacturers.

One of the standout characteristics of the Intel J2 650 is its architecture, built on Intel’s established x86 core. This architecture allows the processor to efficiently handle a multitude of tasks, thanks to its multi-core design, which enhances parallel processing capabilities. Typically, the configuration includes multiple cores that can operate at varying frequencies, optimizing performance based on workload demands.

The J2 650 is equipped with Intel's Hyper-Threading technology, enabling each core to handle two threads simultaneously. This feature significantly improves multitasking efficiency and is particularly beneficial for applications requiring substantial data processing. Whether in a data-driven application or an intensive gaming scenario, the J2 650 provides a responsive experience.

In terms of power management, the Intel J2 650 is designed with energy efficiency in mind. It features advanced power-saving technologies that allow it to scale down power consumption when idle or under light loads. This is critical for embedded applications, where preserving battery life can be a significant factor. The processor also supports Intel Turbo Boost Technology, which allows it to dynamically increase its clock speed when more processing power is needed, ensuring adaptability under varying workload conditions.

The J2 650 supports a wide range of connectivity options, including integrated graphics capabilities, which provide a solid visual performance without the need for additional hardware. It is compatible with various memory standards, allowing for superior data throughput and increased bandwidth essential for demanding applications.

In addition to its technical specifications, the Intel J2 650 is backed by comprehensive software support, including various development tools and SDKs. This allows developers to optimize their applications and make full use of the processor’s capabilities. The combination of performance, efficiency, and flexibility positions the Intel J2 650 as a formidable contender in the realm of microprocessors, suitable for a diverse array of industries and use cases.