HP 8200 tower manual System Resources, Interrupts, Apic Mode

Page 40

System Support

4.3 System Resources

This section describes the availability and basic control of major subsystems, otherwise known as resource allocation or simply “system resources.” System resources are provided on a priority basis through hardware interrupts and DMA requests and grants.

4.3.1 Interrupts

The processor uses two types of hardware interrupts; maskable and nonmaskable. A maskable interrupt can be enabled or disabled within the processor by the use of the STI and CLI instructions. A nonmaskable interrupt cannot be masked off within the processor, but may be inhibited by legacy hardware or software means external to the microprocessor.

The maskable interrupt is a hardware-generated signal used by peripheral functions within the system to get the attention of the processor. Peripheral functions produce a unique INTA-H (PCI) or IRQ0-15 (ISA) signal that is routed to interrupt processing logic that asserts the interrupt (INTR-) input to the processor. The processor halts execution to determine the source of the interrupt and then services the peripheral as appropriate.

Most IRQs are routed through the I/O controller of the super I/O component, which provides the serializing function. A serialized interrupt stream is then routed to the ICH component.

Interrupts may be processed in one of two modes (selectable through the F10 Setup utility):

8259 mode

APIC mode

These modes are described in the following subsections.

8259 Mode

The 8259 mode handles interrupts IRQ0-IRQ15 in the legacy (AT-system) method using

8259-equivalent logic. If more than one interrupt is pending, the highest priority (lowest number) is processed first.

APIC Mode

The Advanced Programmable Interrupt Controller (APIC) mode provides enhanced interrupt processing with the following advantages:

Eliminates the processor's interrupt acknowledge cycle by using a separate (APIC) bus

Programmable interrupt priority

Additional interrupts (total of 24)

The APIC mode accommodates eight PCI interrupt signals (PIRQA-..PIRQH-) for use by PCI devices. The PCI interrupts are evenly distributed to minimize latency and wired as shown in Table 4-5.

4-6

www.hp.com

Technical Reference Guide

Image 40
Contents Technical Reference Guide MarchTechnical Reference Guide Contents System Support Processor/Memory SubsystemInput/Output Interfaces Power and Signal Distribution Integrated Graphics SubsystemError Messages and Codes IndexIntroduction About this GuideAdditional Information Sources Online Viewing HardcopySerial Number Notational ConventionsSpecial Notices ValuesAcronyms and Abbreviations Common Acronyms and AbbreviationsAcronym or Abbreviation Description CGA Eide IRQ Nvram SDR Uart Introduction System Overview IntroductionFeatures HP Uefi BiosFeature Differences by Form Factor Usdt SFF CMTArchitectural Differences by Form Factor System ArchitectureFunction HP Compaq 8200 Elite Business PC Architecture, Block diagram Intel Processor Support ChipsetSupport Components System MemorySupport Component Functions Component Name FunctionMass Storage Accommodations Legacy Input/Output InterfacesUniversal Serial Bus Interface Network Interface ControllerAudio Subsystem Graphics SubsystemHP ProtectTools Embedded Security Specifications Environmental Specifications Factory ConfigurationPower Supply Electrical Specifications Parameter Operating Non-operatingParameter Physical SpecificationsSFF CMT System Overview Processor/Memory Subsystem Processor/Memory Subsystem ArchitectureSpecifications of Supported Intel Processors Intel Processor FeaturesIntel Processor Processor Changing/Upgrading Memory Subsystem Memory Upgrading Memory Mapping and Pre-allocationMemory Socket Loading Channel B Channel a Socket TotalSystem Memory Map for maximum of 8 gigabytes PCI Bus Overview System SupportPCI 2.3 Bus Operation PCI Request/Grant Signals PCI Express Bus OperationSoftware/Driver Layer Transaction Protocol LayerPCI Power Management Support Option ROM MappingPCI Interrupts Link LayerPCI 2.3 Connector PCI ConnectorsPCI 2.3 Bus Connector Pinout PCIe Connectors PCIe Bus Connector PinoutApic Mode System ResourcesInterrupts ModeSystem Board System Interrupts Pirq Connector Direct Memory AccessPCI Interrupt Distribution Real-Time Clock and Configuration Memory Clearing CmosConfiguration Memory Cmos Map System ManagementStandard Cmos Locations Security FunctionsPower-On / Setup Password Setup PasswordCable Lock Provision Interface SecurityPower Management Smart Cover Lock OptionalAcpi Wake-Up Events Acpi Wake-Up Event System Wakes FromSystem Status System Status PowerLED Beeps Action RequiredSystem Operational Status LED Indications Thermal Sensing and Cooling Register Map and Miscellaneous FunctionsSystem I/O Map System I/O Map Port FunctionPCH-DO Functions Gpio FunctionsSIO Controller Functions System Support Input/Output Interfaces Pin Sata Connector Pinout SATA/eSATA InterfacesSata interface Pin DescriptionOptional eSATA Bracket/Cable Assembly ESATA interfacePin Signal Description DB-9 Serial Connector PinoutSerial Interface Standard Parallel Port Mode Enhanced Parallel Port ModeExtended Capabilities Port Mode Parallel Interface SupportDB-25 Parallel Connector Pinout Parallel Interface ConnectorPin Signal Function Keyboard/Pointing Device Interface Keyboard Interface OperationKeyboard/Pointing Device Connector Pinout Keyboard/Pointing Device Interface ConnectorsPointing Device Interface Operation Universal Serial Bus Interface USB Signals USB Connector Location see note belowPCH USB Port Mapping USB Connector USB Connector PinoutUSB Cable Data USB Cable Length DataAudio Subsystem PCH-D0HD Audio Link Bus HD Audio ControllerAudio Multistreaming HD Audio Subsystem Specifications Audio SpecificationsParameter Measurement 10. LAN LED Indications Network Interface ControllerFunction Activity LED Speed LED NIC Connector Power Management SupportWake-On-LAN Support 11. NIC Specifications NIC SpecificationsParameter Compatibility standard orprotocol Integrated Graphics Subsystem Functional DescriptionSupported Intel Processor IGC Specifications IGC Memory Allocation with Windows XP System Memory Installed Pre-allocatedIGC Memory Allocation with Windows Vista or Windows Resolution Analog Digital DisplayPort IGC Supported ResolutionsMaximum Refresh Rate Monitor Connectors UpgradingAnalog Monitor Connector DisplayPort ConnectorDB-15 Monitor Connector Pinout Pin SignalPower and Signal Distribution Power DistributionUsdt Power Supply Specifications Usdt Power DistributionParameter Watt supply 2 SFF/MT/CMT Power Distribution Power Supply Unit 4 3 2SFF 240-Watt Power Supply Unit Specifications MT/CMT 320-Watt Power Supply Unit SpecificationsPower Control Power ButtonPower Button Actions Pressed Power Button ResultsPower LED Indications Power LED ConditionPower Management Wake Up EventsSystem Power States Power Transition OS RestartState System Condition Consumption To S0 by RequiredSystem Board Connector, Indicator, and Switch Designations Signal DistributionDesignator Component function SW1 Shows pinouts of headers used on the system boards Power and Signal Distribution System Bios Upgrading ROM FlashingChangeable Splash Screen Boot Device Order Boot FunctionsNetwork Boot F12 Support Memory Detection and Configuration Boot Error CodesBoot Error Codes Visual power LED Audible speaker MeaningClient Management Functions Function ModeClient Management Functions INT15 Smbios Support Temperature StatusUSB Legacy Support System ID and ROM TypeManagement Engine Functions Error Messages and Codes Beep/Power LED CodesTable A-1. Beep/Power LED Codes Beeps Power LED Probable CauseDirectory. Do not power down system until Power-On Self Test Post MessagesProcessing is complete Board For systems with 2 Sata ports Root directory. Do not power down system until System Error Messages Table A-3 System Error Messages Probable CauseMemory Error Messages Memory Error MessagesTable A-4 Message Probable CauseKeyboard Error Messages Table A-5 Keyboard Error Messages Probable CausePrinter Error Messages Video Graphics Error MessagesTable A-6 Printer Error Messages Probable Cause Table A-7 Video Graphics Error Messages Probable CauseDiskette Drive Error Messages Table A-8 Diskette Drive Error Messages Probable CauseSerial Interface Error Messages Table A-9 Serial Interface Error Messages Probable CauseModem Communications Error Messages System Status Error Messages System Status Error MessagesTable A-11 Hard Drive Error Messages Table A-12 Hard Drive Error Messages Probable CauseXx = 03, Hard drive read/write compare test Table A-13 Hard Drive Error Messages Probable Cause Table A-14 Video Graphics Error Messages Probable Cause Audio Error MessagesTable A-15 Audio Error Messages Probable Cause 17 DVD/CD-ROM Error Messages Network Interface Error MessagesDVD/CD-ROM Error Messages Table A-17 Network Interface Error Messages Probable CauseScsi Interface Error Messages 65xx-xx, 66xx-xx Table A-18 Scsi Interface Error MessagesPointing Device Interface Error Messages 8601-xx Index NumericsIndex
Related manuals
Manual 6 pages 24 Kb Manual 29 pages 22.5 Kb Manual 13 pages 15.59 Kb

8200 tower specifications

The HP 8200 Tower is a robust desktop computer designed for professional environments, delivering performance and expandability for a variety of business needs. This workstation is part of HP's Elite series, known for its reliability and advanced technologies, making it a sound choice for companies requiring consistent operation.

One of the defining features of the HP 8200 Tower is its versatile processing power, powered by the Intel Core i5 and i7 processors. These processors offer a multi-core architecture, ensuring that users can efficiently handle multitasking and processor-intensive applications. With options for up to 32GB of DDR3 RAM, the HP 8200 Tower can smoothly run multiple applications simultaneously, making it suitable for tasks ranging from everyday office work to more demanding software like graphical design programs.

The system also provides a range of storage options, including traditional hard disk drives and faster solid-state drives, allowing users to select the balance of capacity and speed that best suits their needs. Additionally, the HP 8200 supports RAID configurations, enhancing data redundancy and performance, thereby protecting critical business data.

In terms of expandability, the HP 8200 Tower offers multiple PCIe slots for adding graphic cards, sound cards, or other expansion cards. This capability makes it adaptable for various purposes, whether that involves improving graphics performance for video editing or integrating specialized hardware for specific business functions.

The design of the HP 8200 Tower ensures efficient cooling and quiet operation. It features a tool-less chassis, allowing for easy upgrades and maintenance. The internal layout maximizes airflow, keeping components cool even under heavy workloads, an important feature for maintaining long-lasting performance.

Connectivity options are plentiful, with USB 2.0 and USB 3.0 ports, enabling speedy data transfer and peripheral connectivity. Additionally, integrated Gigabit Ethernet offers reliable networking capabilities, essential for seamless communication within a business environment.

The HP 8200 Tower showcases HP's commitment to sustainability, featuring energy-efficient components and a design aimed at reducing environmental impact. Overall, this powerful workstation combines performance, expandability, and energy efficiency, making it an excellent choice for any professional setting. With its blend of modern technologies and traditional reliability, the HP 8200 Tower stands out as a dependable tool for businesses looking to enhance productivity.