Intel 440GX manual Electricals

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Design Checklist

3.21.1Design Considerations

The Intel® Pentium® II processor retention mechanism, retention mechanism attach mount and heat sink support is an optional support structure for retaining the Slot 1 processor in the system during shock and vibration situations. If these Intel enabled retention solutions are

used, the motherboard keep out zones and mounting hole requirements must be met. See the Intel® Pentium® II Datasheet for details.

The Boxed Intel® Pentium® II processor requires the implementation of the heatsink support holes for the heatsink support structure as defined in the Intel® Pentium® II Datasheet to properly support the Boxed Intel® Pentium® II processor fan/heatsink.

3.22Electricals

3.22.1Design Considerations

It is recommended that simulations be performed on the GTL+ bus to ensure that proper bus timings and signal integrity are met, especially if the layout guideline recommendations in this document are not followed.

It is recommended that simulations be performed to ensure proper timings and signal integrity is met, especially if the non GTL+ (CMOS) layout guideline recommendations in this document are not followed.

Verify the voltage range and tolerance of your VRM or onboard regulator adequately cover the VccCORE requirements of the Slot 1 processor(s) is supported.

Verify the maximum current value your VRM or on board regulator can support at VccCORE. This should meet the value specified by the VRM 8.2 DC-DC Converter Specification.

Verify the voltage tolerance of your VRM or on board regulator at VccCORE. This should meet the value specified by the VRM 8.2 DC-DC Converter Specification.

Adequate 5V and/or 3.3V decoupling should be provided for all components.

VREF for the AGPset should be decoupled to VTT with 0.001mF capacitors at each voltage divider. It should be decoupled to ground, to ensure an even better solution.

It is recommended that AC/DC analysis be performed to determine proper pull-up and pull- down values.

Intel®440GX AGPset Design Guide

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Contents Design Guide Intel 440GX AGPsetIntel440GX AGPset Design Guide Contents System Bus Clock Layout 6.3 Dimm Solution With FET Switches6.4 6.5ISA and X-Bus Signals PIIX4E Power And Ground PinsThermals / Cooling Solutions 20.1 82371EB PIIX4EFET Switches4 DIMM/FET Design IntelPentiumII Processor LAI IssueVoltage Regulator Control Silicon Intel440GX AGPset Platform Reference DesignExample NLX Placement for a UP Intel Pentium II processor Example ATX Placement for a UP Pentium II processorSolution Space for Single Processor Design Based on Results Solution Space for Single Processor Designs With Single-EndIntel Pentium II Processor and Intel 440GX AGPset TablesIntel Pentium II Processor and Intel 440GX AGPset 100 MHz Motherboard Model MAB12,11,90#, MAB14,13,10, 4 DIMMsDate Revision Description Revision HistoryIntel440GX AGPset Design Guide Introduction Page About This Design Guide IntroductionReferences Intel Pentium II Processor Intel Pentium II Processor / Intel 440GX AGPset OverviewVCR Intel 440GX AGPsetDram Interface System Bus InterfaceAccelerated Graphics Port Interface PCI-to-ISA/IDE Xcelerator PIIX4E Wired for Management InitiativePCI Interface System ClockingInstrumentation Remote Service BootDesign Recommendations Power ManagementVoltage Definitions Remote Wake-UpGeneral Design Recommendations Introduction Motherboard Design Page BGA Quadrant Assignment Major Signal Sections 82443GX Top ViewATX Form Factor NLX Form Factor Board DescriptionFour Layer Board Stack-up Routing Guidelines 2 GTL+ Layout Recommendations 1 GTL+ DescriptionSingle Processor Design Single Processor Network Topology and ConditionsRecommended Trace Lengths for Single Processor Design Single Processor Recommended Trace LengthsTrace Minimum Length Maximum Length Single Processor Systems-Single-End Termination SET Dual Processor SystemsDual Processor Network Topology and Conditions Dual Processor Recommended Trace LengthsSET Trace Length Requirements SET Trace Length RequirementsMinimizing Crosstalk Additional GuidelinesPractical Considerations Design Methodology 12. GTL+ Design Process Performance RequirementsPre-Layout Simulation Sensitivity Analysis Topology DefinitionSimulation Methodology Recommended 100 MHz System Flight Time SpecsPost-Layout Simulation Placement & LayoutValidation Crosstalk and the Multi-Bit Adjustment FactorFlight Time Measurement Edge Guideline @ Processor Edge Spec @ Processor Core Signal Quality MeasurementTerm Description Timing Analysis11. Recommended 100 MHz System Flight Time Specs 10. Recommended 100 MHz System Timing ParametersTiming Term Intel Pentium II Processor Intel 440GX AGPset Timing Term ValueConnector AGP Connector Up Option Layout GuidelinesAGP Layout and Routing Guidelines 12. Data and Associated StrobeOn-board AGP Compliant Device Down Option Layout Guidelines 14. Control Signal Line Length Recommendations13. Source Synchronous Motherboard Recommendations WidthSpace Trace Line Length Line Length MatchingCompliant 82443GX Graphics Data Routing Device 16. Control Signal Line Length Recommendations15. Source Synchronous Motherboard Recommendations 1 100 MHz 82443GX Memory Array Considerations 82443GX Memory Subsystem Layout and Routing GuidelinesTo 82443GX MDs & MECCs To DIMM10 DQs To DIMM32 DQs Adding Additional Decoupling Capacitor Matching the Reference PlanesRegister Register Data Control ClockTrace Width vs. Trace Spacing Memory Layout & Routing GuidelinesSwitch 16212 Dimm Module 18. FET Switch DQ Route Example82443GX Dimm Module 82443GX 0.6 0.4 0.6 0.4 Dimm Module24. Motherboard Model-DQMB1,5, 4 DIMMs 20. Motherboard Model SCASA#, 4 DIMMs 19. Motherboard Model SRASB#, 4 DIMMs21. Motherboard Model SCASB#, 4 DIMMs 23. Motherboard Model WEB#, 4 DIMMs 22. Motherboard Model WEA#, 4 DIMMs24. Motherboard Model MAA140, 4 DIMMs PCI Bus Routing Guidelines 3 4 Dimm Routing Guidelines no FET25. Motherboard Model MAB12,11,90#, MAB14,13,10, 4 DIMMs VCC3Host Bridge Controller 492 BGA Decoupling Guidelines Intel 440GX AGPset PlatformClock Routing Spacing Intel 440GX AGPset Clock Layout RecommendationsSystem Bus Clock Layout 014 018 ClockSdram Clock Layout PCI Clock LayoutNet Trace Length Min Max Cap 440GX Ckbf DlkoNet Trace Length Min Max Card Trace AGP Clock LayoutDesign Checklist Page Pull-up and Pull-down Resistor Values OverviewSlot Connectivity Sheet 1 Intel Pentium II Processor ChecklistProcessor Pin Pin Connection Slot Connectivity Sheet 2 Slot Connectivity Sheet 3 GND & Power Pin DefinitionVtt VCC3 Reserved NC Vcc Intel Pentium II Processor Clocks Intel Pentium II Processor SignalsDesign Checklist Dual-Processor DP Slot 1 Checklist Uni-Processor UP Slot 1 ChecklistSlot 1 Decoupling Capacitors Voltage Regulator Module, VRM1 CK100 100 MHz Clock Synthesizer Intel 440GX AGPset ClocksProcessor Frequency Select SEL100/66#Gcke and Dclkwr Connection Ckbf Sdram 1 to 18 Clock Buffer1 82443GX Interface 82443GX Host BridgeGX Connectivity Sheet 1 GX Connectivity Sheet 2 3 82443GX PCI Interface 2 82443GX GTL+ Bus InterfaceGX Connectivity Sheet 3 VTTA, Vttb4 82443GX AGP Interface Signal Description Register Pulled to ‘0’ Pulled to ‘1’Strapping Options Intel 440GX AGPset Memory Interface 82443GX Pins/Connection Dimm Pins Pin FunctionSdram Connections Sdram ConnectivityRegistered Sdram Dimm Solution With FET Switches82371EB PIIX4E Signal Names ConnectionPIIX4E Connections PIIX4E Connectivity Sheet 1PIIX4E Connectivity Sheet 2 PIIX4E Connectivity Sheet 3 PIIX4E Connectivity Sheet 4 IDE Routing Guidelines Signal ResistorCabling MotherboardPDD150 PDA20 Reset#Pin32,34 IDEPIIX4E Power And Ground Pins PCI Bus SignalsPIIX4E PWR & GND ISA and X-Bus Signals ISA Signals10. Non-PIIX4E PCI Signals 11. Non-PIIX4E ISA SignalsIDE Interface USB Interface12. Non-PIIX4E IDE Dual-Footprint Flash Design Flash DesignFlash Design Considerations PLCC32 to TSOP40 PLCC32 to PSOP44 PDIP32 to TDIP40XD70 Write Protection 13. Flash Vpp RecommendationsPower Management Signals System and Test SignalsVCC3 Power Button Implementation Miscellaneous 17 82093AA Ioapic Manageability Devices 18.1 Max1617 Temperature Sensor18.2 LM79 Microprocessor System Hardware Monitor Pin Number Pin Name Resistor Value Comment 18.3 82558B LOM ChecklistRequired in both a and B stepping designs USB and Multi-processor Bios Software/BIOSWake On LAN WOL Header Mechanicals Thermals / Cooling SolutionsDesign Considerations Electricals Applications and Add-in Hardware Layout ChecklistRouting and Board Fabrication Design ConsiderationDebug Recommendations Page Debug/Simulation Tools Slot 1 Test ToolsLogic Analyzer Interface LAI In-Target Probe ITPIntel Pentium II Processor LAI Issue Debug FeaturesBus Functional Model BFM 4 I/O Buffer ModelsKohm 150 330 ohm430 ohm 150 ohmA20M# 150 330 ohm Debug Logic RecommendationsPICD0# 150 ohm PICD1# Debug Layout Debug ProceduresDebug Considerations Design ConsiderationsDebug Recommendations Third Party Vendors Page Processors Slot 1 ConnectorGTL+ Bus Slot 1 Terminator Cards Supplier Contact PhoneVoltage Regulator Control Silicon Voltage Regulator ModulesVoltage Regulator Modules Voltage Regulator Control Silicon VendorsFET Switches4 DIMM/FET Design Power Management ComponentsIntel 440GX AGPset Clock DriversOther Processor Components Reference Design Schematics Page Intel 440GX AGPset Platform Reference Design 82443GX Component System bus and Dram Interfaces VRM Power Connectors Front Panel Jumpers

440GX specifications

The Intel 440GX chipset was launched in 1997 as part of Intel's series of chipsets known as the 440 family, and it served as a critical component for various Pentium II and Pentium III-based motherboard architectures. Specifically designed for the second generation of Intel’s processors, the 440GX delivered enhanced performance and supported a range of important technologies that defined PC architectures of its time.

One of the main features of the Intel 440GX was its support for a 100 MHz front-side bus (FSB), which significantly improved data transfer rates between the CPU and the memory subsystem. This advancement allowed the 440GX to accommodate both the original Pentium II processors as well as the later Pentium III chips, providing compatibility and flexibility for system builders and consumers alike.

The 440GX chipset included an integrated AGP (Accelerated Graphics Port) controller, which supported AGP 2x speeds. This enabled high-performance graphics cards to be utilized effectively, delivering many enhanced graphics capabilities for gaming and multimedia applications. The AGP interface was crucial at the time as it offered a dedicated pathway for graphics data, increasing bandwidth compared to traditional PCI slots.

In terms of memory support, the 440GX could address up to 512 MB of SDRAM, allowing systems built with this chipset to run comfortably with sufficient memory for the era’s demanding applications. The memory controller was capable of supporting both single and double-sided DIMMs, which provided versatility in memory configuration for system builders.

Another notable feature of the Intel 440GX was its support for multi-processor configurations through its Dual Processors support feature. This allowed enterprise and workstation computers to leverage the performance advantages of multiple CPUs, making the chipset suitable for business and professional environments where multitasking and high-performance computing were essential.

On the connectivity front, the chipset supported up to six PCI slots, enhancing peripheral device integration and expansion capabilities. It also included integrated IDE controllers, facilitating connections for hard drives and CD-ROM devices.

Overall, the Intel 440GX chipset represented a balanced combination of performance, flexibility, and technology advancements for its time. Its introduction helped establish a foundation for subsequent advancements in PC technology and set the stage for more powerful computing systems in the years to come.