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Intel® 815E Scalable Performance Board
Order Number: 273432-003
Information this document provided connection with Intel® products. license, express implied, estoppel otherwise, intellectual property rights granted this document. Except provided Intel's Terms Conditions Sale such products, Intel assumes liability whatsoever, Intel disclaims express implied warranty, relating sale and/or Intel products including liability warranties relating fitness particular purpose, merchantability, infringement patent, copyright other intellectual property right. Intel products intended medical, life saving, life sustaining applications. Intel make changes specifications product descriptions time, without notice. Designers must rely absence characteristics features instructions marked "reserved" "undefined." Intel reserves these future definition shall have responsibility whatsoever conflicts incompatibilities arising from future changes them. Pentium® processor 815e chipset contain design defects errors known errata which cause product deviate from published specifications. Current characterized errata available request.
Contact your local Intel sales office your distributor obtain latest specifications before placing your product order. Copies documents which have ordering number referenced this document, other Intel literature obtained calling 1-800548-4725 visiting Intel's website http://www.intel.com. Copyright Intel Corporation, 2001 *Other names brands claimed property others.
Intel® 815E Scalable Performance Board
Contents
About This Manual
Content Overview. Text Conventions Technical Support 1.3.1 Electronic Support Systems Product Literature. Related Documents.10 Overview 2.1.1 Baseboard Features Included Hardware Software Features.13 2.3.1 Embedded BIOS Intel® 815E Scalable Performance Board Development 2.3.2 Software 2.3.2.1 BlueCat* Linux 2.3.2.2 Wind River's VxWorks* Real-Time Operating System (RTOS) 2.3.3 Information/Drivers CD.17 Before Begin Setting Evaluation Board.18 Configuring BIOS Block Diagram Mechanical Design Thermal Management System Operation.22 3.4.1 Intel® Pentium® Processor 3.4.2 Intel® CeleronProcessor 3.4.3 Intel® 815E Chipset 3.4.3.1 Graphics Memory Controller (GMCH).23 3.4.3.2 Controller (ICH2) 3.4.3.3 Firmware (FWH).24 3.4.4 System Memory SDRAM 3.4.5 Boot ROM.25 3.4.6 System I/O.25 3.4.6.1 Floppy Disk Drive Support 3.4.6.2 Support 3.4.6.3 RS-232 Serial Ports 3.4.6.4 IEEE 1284 Parallel Port 3.4.6.5 Ports 3.4.6.6 Connector.26 3.4.6.7 Audio Subsystem.27 3.4.6.8 Game Port Connector.27 3.4.6.9 Keyboard/Mouse.27
Getting Started
Theory Operation
Intel® 815E Scalable Performance Board
3.4.7
Expansion Connectors 3.4.7.1 Connector 3.4.7.2 32-bit/33-MHz Connectors. 3.4.7.3 Connectors 3.4.7.4 V-Bus Connector 3.4.8 Post Code Debugger. 3.4.9 Clock Generation. 3.4.9.1 System Clocks 3.4.10 Power Supply Requirements. Battery Requirements Thermal Management Post Code Debugging Connector Pinouts. 4.3.1 Power Connector. 4.3.2 Dual Stacked Connector 4.3.3 PS/2-Style Mouse Keyboard Connectors. 4.3.4 Port 4.3.5 Parallel Port. 4.3.6 Serial Ports. 4.3.7 Audio Connectors. 4.3.8 Wake (WOL). 4.3.9 Front Panel Connectors. 4.3.10 Connector. 4.3.11 Floppy Drive Connector. 4.3.12 32-Bit Slot Connector 4.3.13 4.5.11 Connector 4.3.14 Connector Jumpers 4.4.1 Headers. 4.4.1.1 Power (PN1: Pins 1-3) 4.4.1.2 Keylock (PN1: Pins 4.4.1.3 HDD-LED (PN1: Pins 4.4.1.4 Power (PN1: Pins 4.4.1.5 (PN1: Pins 4.4.1.6 Reset (PN2: Pins 4.4.1.7 Speaker (PN2: Pins 4-7) 4.4.1.8 SP_LED (PN2: Pins 4.4.1.9 Reserve (PN2: Pins 12-14) 4.4.2 CMOS (JP1) 4.4.3 Header 4.4.4 Settings (JP4 USB2) 4.4.5 Settings (JP5 USB2) Processor Switch Settings (SW1) Overview Power-On Self-Test (POST) BIOS User Interface. Setup Screen System
Hardware Reference
BIOS Quick Reference
Intel® 815E Scalable Performance Board
5.10 5.11
5.12 5.13
Basic CMOS Configuration Screen Configuring Drive Assignments 5.4.2.1 Configuring Floppy Drive Types 5.4.3 Configuring Drive Types Configuring Boot Actions.55 Custom Configuration Setup Screen.55 Shadow Configuration Setup Screen Standard Diagnostics Routines Setup Screen Start System BIOS Debugger Setup Screen.57 Start RS232 Manufacturing Link Setup Screen.58 Manufacturing Mode.58 5.11.1 Console Redirection 5.11.2 CE-Ready Windows Loader 5.11.3 Integrated BIOS Debugger Embedded BIOS POST Codes Embedded BIOS Beep Codes.64
5.4.1 5.4.2
Bill Materials Schematics Index .111
Figures
Block Diagram Back Panel Connectors Baseboard Layout Diagram.32 Baseboard Connector Orientation.33 PN1, Diagram.46 BIOS POST Pre-Boot Environment.50 Graphical POST Embedded BIOS Setup Screen Menu.52 Embedded BIOS Basic Setup Screen.53 Embedded BIOS Custom Setup Screen Embedded BIOS Shadow Setup Screen.56 Standard Diagnostic Routines Setup Screen Start RS232 Manufacturing Link Setup Screen.58 CE-Ready Boot Feature Integrated BIOS Debugger Running Over Remote Terminal
Intel® 815E Scalable Performance Board
Tables
Related Documents. Power Connector (ATXPR1) Connector Pinout (USB1) PS/2-Style Mouse Keyboard Pinout (U1). Connector Pinout (VGA). Parallel Port Connector Pinout (LPT1). Serial Port Connector Pinout (COM1 COM2) Audio Line-Out Connector Pinouts. Audio Line-In Connector Pinouts Audio Mic-In Connector Pinouts. MIDI/Game Port Connector Pinouts. Wake-ON-LAN Connector Pinouts (WOL1, populated) Front Panel Connectors Connector Pinouts IDE1 IDE2 Floppy Drive Connector Pinouts (FDC1). 32-Bit Slot Connector Pinouts Connector Pinouts Assignment Type Connector, using 8-pin Interface Assignment Type Connector, using 17-pin Interface Processor Switch Settings IDE0-IDE3 Drive Assignments Bill Materials. Components Bill Materials
Revision History
Revision Date 4/01 Description Kits upgraded ship with Celeron processor (replacing processor). Baseboard format changes part changes); components expanded include components (excluding documentation, mounting hardware, etc.). minor corrections, typos fixed First publication this document.
1/01 10/00
Intel® 815E Scalable Performance Board
About This Manual
This manual tells evaluation board processor assembly included your Intel® 815E Scalable Performance Board Development Kit.
Content Overview
Chapter "About This Manual" This chapter contains description conventions used this manual. last sections tell obtain literature contact customer support. Chapter "Getting Started"- Provides complete instructions configure evaluation board processor assembly setting jumpers, connecting peripherals, providing power, configuring BIOS. Chapter "Theory Operation" This chapter provides information system design. Chapter "Hardware Reference" This chapter provides description jumper settings functions, pinout information each connector. Chapter "BIOS Quick Reference" This chapter describes configure BIOS your system configuration. summary BIOS menu options provided. Appendix "Bill Materials" This appendix contains bill materials evaluation board. Appendix "Schematics" This appendix contains schematics selected connectors subsystems evaluation board.
Text Conventions
following notations used throughout this manual. Variables Instructions pound symbol appended signal name indicates that signal active low. Variables shown italics. Variables must replaced with correct values. Instruction mnemonics shown uppercase. When programming, instructions case-sensitive. either upper- lowercase.
Intel® 815E Scalable Performance Board Development Manual
About This Manual
Numbers
Hexadecimal numbers represented string hexadecimal digits followed character zero prefix added numbers that begin with through (For example, shown 0FFH.) Decimal binary numbers represented their customary notations. (That decimal number 1111 1111 binary number. some cases, letter added clarity.) following abbreviations used represent units measure: Gbyte Kbyte Mbyte amps, amperes gigabytes kilobytes kilo-ohms milliamps, milliamperes megabytes megahertz milliseconds milliwatts nanoseconds picofarads watts volts microamps, microamperes microfarads microseconds microwatts
Units Measure
Signal Names
Signal names shown uppercase. When several signals share common name, individual signal represented signal name followed number, while group represented signal name followed variable (n). example, lower chip-select signals named CS0#, CS1#, CS2#, they collectively called CSn#. pound symbol appended signal name identifies active-low signal. Port pins represented port abbreviation, period, number (e.g., P1.0).
Intel® 815E Scalable Performance Board
About This Manual
1.3.1
Technical Support
Electronic Support Systems
Intel's site World Wide (http://www.intel.com/) provides up-to-date technical information product support. This information available hours day, days week, providing technical information whenever need it.Telephone Technical Support U.S. Canada, technical support representatives available answer your questions between a.m. p.m. PST. also your questions (Please include your voice telephone number indicate whether prefer response phone fax). Outside U.S. Canada, please contact your local distributor. 1-800-628-8686 916-356-7599 916-356-6100 (fax) U.S. Canada U.S. Canada U.S. Canada
Product Literature
order product literature from following Intel literature centers. 1-800-548-4725 708-296-9333 44(0)1793-431155 44(0)1793-421333 44(0)1793-421777 81(0)120-47-88-32 U.S. Canada U.S. (from overseas) Europe (U.K.) Germany France Japan (fax only)
Intel® 815E Scalable Performance Board
About This Manual
Table
Related Documents
Related Documents
Document Title Pentium Processor PGA370 Socket 1.0B datasheet Intel Pentium Processor Specification Update Intel Pentium Processor Thermal Design Guide Intel® CeleronProcessor datasheet Intel CeleronProcessor Specification Update Intel 815E Chipset Platform Design Guide Intel Series Chipsets: 82815 Graphics Memory Controller (GMCH) Datasheet Intel® 82801BA Controller (ICH2) Datasheet Intel® 82802AB/82802AC Firmware (FWH) Intel 82802 Firmware Hub: Random Number Generator Programmer's Reference Manual Intel® Chipset: Graphics Controller Programmer's Reference Manual Family Processors Hardware Developer's Manual Intel Architecture Software Developer's Manual, Volume1: Basic Architecture Intel Architecture Software Developer's Manual, Volume Instruction Reference Manual Intel Architecture Software Developer's Manual, Volume System Programming Guide Intel Processor Serial Number application note
Order Number 245264 244453 273325 243658 243748 298234 290688 290687 290658 298029 298237 244001 243190 243191 243192 245125
Intel® 815E Scalable Performance Board
Getting Started
This chapter identifies evaluation kit's components, features specifications. also tells board operation.
Overview
evaluation board consists baseboard (with Intel® Pentium® processor populated), 815E chipset, other system board components peripheral connectors. Note: evaluation board shipped open system allowing maximum flexibility changing hardware configuration peripherals. Since board protective chassis, take extra precaution when handling operating system.
2.1.1
Note:
Baseboard Features
ABIT manufactured Intel® 815E Scalable Performance Board compliance with Rev. 0.93 Intel® 815E Chipset Platform Design Guidelines. evaluation board features summarized below:
Supports both Intel® CeleronProcessors (566 above) Intel® Pentium®
processors GHz); both flip chip-pin grid array (FC-PGA) package.
Supports 100, processor system (PSB).
Intel 815E Chipset
82815 Graphics Memory Controller (GMCH) 82801BA Controller (ICH2) 82802AC Firmware (FWH) Supports Ultra 100/66/33 protocol Supports including data transfers
Memory Support
100/133 system memory interface Three 168-pin DIMM sockets support SDRAM (3.3 non-ECC) modules Supports 8-Mbyte 512-Mbyte using Mbit/64 Mbit/128 Mbit/256 Mbit technology
Intel® 815E Scalable Performance Board
Getting Started
Flash System BIOS
General Software system BIOS
Power Supply/Management
Standard power supply connector SMRAM space remapping A0000H (128 Kbyte) Optional Extended SMRAM space above Mbyte, additional Kbyte/1 Mbyte TSEG
from memory, cacheable
Stop clock grant halt special cycle translation from host interface APIC buffer management
Accelerated Graphics Port (AGP) Support
Interface Specification compliant Backward compatible with Single V/1.5 device support
System
floppy connector supporting 2.88 Mbytes, three-mode floppy drives Ultra 100/66/33 connectors supporting four devices Built-in standard/EPP/ECP parallel port connector built-in 16550 fast UART compatible serial port connectors built-in Universal Serial (USB) connectors Built-in PS/2-style keyboard PS/2 mouse (6-pin mini-DIN) connectors built-in connector Built-in audio connectors (Line-in, Line-out, MIC-in) with Yamaha Audio CODEC built-in game port Built-in audio line-in headers (CD1, CD2, AUX1)
Peripheral Connectors
Three expansion slots Communication Network Riser (CNR) slot slot ABIT V-Bus* connector accepts expansion card video output capability (TV-Out)
Miscellaneous Features
Micro form factor built-in SMBus headers Built-In standard IrDA TX/RX header
Intel® 815E Scalable Performance Board
Getting Started
Built-in Wake (WOL) header Three built-in power connectors (FAN1, FAN2 FAN3) Power/Reset jumpers Jumper select speed (66, 100, MHz) Jumper clear CMOS
Included Hardware
Evaluation board (baseboard) with battery Intel N82802AC8 Firmware Intel® Pentium® Processor with Intel® CeleronProcessor with fansink thermal solution 128-Mbyte PC133 SDRAM (168-pin) Western Digital ATA66 hard disk drive pre-loaded with evaluation copy BlueCat* Linux from LynuxWorks* 80-pin ATA/66 cable hard disk drive Comm port cable Floppy drive cable 82559 fast ethernet controller card
Software Features
software chosen facilitate development real-time applications based components used evaluation board. software tools included your described this section. Note: Software provided free vendor only licensed evaluation purposes. Refer documentation your evaluation further details terms conditions that applicable granted licenses. Customers using tools that work with Microsoft* products must license those products.Any targets created those tools should also have appropriate licenses. Software included subject change. Refer details additional software from other third-party vendors.
Intel® 815E Scalable Performance Board
Getting Started
2.3.1
Embedded BIOS Intel® 815E Scalable Performance Board Development
Intel® 815E Scalable Performance Board Development ships pre-installed with Embedded BIOS* pre-boot firmware from General Software. Embedded BIOS provides industry-standard BIOS platform standard operating system, including DOS*, Windows* Embedded*, Windows 95/98, Windows QNX*, VxWorks*, Linux* among others. Embedded BIOS Application (available through General Software) includes complete source code, reference manual, Windows-based expert system, BIOStart*, enable easy rapid configuration customized firmware your Intel* 815E Scalable Performance Board Development Kit. following features Embedded BIOS have been enabled Intel® 815E Scalable Performance Board Development Kit:
SDRAM detection, configuration, initialization Intel® 815E chipset configuration Firmware Post codes displayed port serial ports, EPP/ECP parallel port device enumeration configuration configuration initialization Super programming Pentium® processor microcode update Integrated debugger Burn-in diagnostics Console redirection Manufacturing mode
2.3.2
2.3.2.1
Software
BlueCat* Linux
drive comes pre-loaded with BlueCat Linux. Some features BlueCat Linux include:
development environment operating system embedded deployment that lets
developers combine specialized, custom-developed software hardware with off-the-shelf, third-party Linux applications.
Configuration accurately match requirements embedded development from small
devices large-scale multi-processor systems. BlueCat Linux includes royalty-free, open source Linux distribution, enhanced with LynuxWorks' cross-development embedding tools that improve quality reduce development time.
Stabilization ensure that consistent development deployment environment available
complete lifecycle embedded product
Intel® 815E Scalable Performance Board
Getting Started
selected subset standard Linux distribution tailored embedded development
deployment, with LynuxWorks cross-development embedding tools. Components selected ensure functionality, reliability, maintainability, both host target side. BlueCat Linux configurable meet varied requirements kernel size, hardware configurations, boot method, other embedded requirements. uses Package Manager (RPM) allow customized installations development system.
2.3.2.2
Wind River's VxWorks* Real-Time Operating System (RTOS)
wind microkernel
Efficient task management
Multitasking, unlimited number tasks Preemptive round-robin scheduling Fast, deterministic context switching priority levels
Fast, flexible intertask communications
Binary, counting mutual exclusion semaphores with priority inheritance Message queues POSIX pipes, counting semaphores, message queues, signals scheduling Control sockets Shared memory
High scalability Incremental linking loading components Fast, efficient interrupt exception handling Optimized floating-point support Dynamic memory management System clock timing facilities
Networking support TCP/IP networking IGMP, CIDR, TCP, UDP, v.1/v.2 Standard Berkeley sockets, zbufs (a.k.a., zero-copy sockets) SLIP, CSLIP, BOOTP, DNS, DHCP, TFTP NFS, FTP, rlogin, rsh, telnet SNTP
Intel® 815E Scalable Performance Board
Getting Started
WindNet SNMP v.1/v.2c with compiler-optional WindNet OSPF v.2-optional
Fast, flexible local file system
SCSI support MS-DOS compatible file system disk file system TrueFFS flash file system-optional 9660 CD-ROM file system PCMCIA support
Target Development Features
Full ANSI compliance enhanced features exception handling template
support
Extensive POSIX 1003.1, compatibility Interactive interpreter target shell Symbolic debugging disassembly Powerful performance monitoring Extensive kernel, task system information utilities Dynamic linking loader Libraries over 1800 utility routines Flexible booting from ROM, local disk, over network Highly scalable design allows wide range applications System-level debugging Ethernet, serial line, ICE, emulator
Supported VxWorks Targets PowerPC 68K, ColdFire MCORE 80x86 Pentium i960 StrongARM MIPS SPARC V8xx
Intel® 815E Scalable Performance Board
Getting Started
RAD6000 TriCore
2.3.3
Information/Drivers
ABIT, manufacturer baseboard, provided that contains drivers standard versions Windows operating systems (Windows 95/98/NT/2000). includes drivers on-board audio, on-board video Intel® ATA/66. addition, there other utilities provided that useful. updated drivers, refer
Before Begin
Before configure your evaluation board, want gather some additional hardware software. Monitor: standard multi-resolution monitor. setup instructions this chapter assume that using standard monitor. Keyboard: need keyboard with PS/2-style connector adapter. Mouse: Optional. mouse with PS/2-style connector adapter. Hard Drives andFloppy Drives: connect four drives floppy drives evaluation board. devices (master slave) attached each connector. Only hard drive included your kit, will need provide cables additional drives. have these storage devices attached board same time. Video Adapter: integrated video adapter supplied with your kit, choose install video adapter. your responsibility install correct driver software video adapters other than provided. Check BIOS proper video settings (AGP/onboard PCI). Network Adapter: network interface card included evaluation kit. different network card other than card included kit; responsible installing correct drivers such network card. evaluation board supports standard PCI-compatible network cards. must supply network cable connect connector other network card chose install. Power Supply: must standard power supply. Other Devices Adapters: evaluation board functions much like standard desktop computer motherboard. Most compatible peripherals attached configured work with evaluation board. example, want install sound card graphics card.
Intel® 815E Scalable Performance Board
Getting Started
Setting Evaluation Board
Once have gathered hardware described section Section 2.4, follow steps below your evaluation board. This manual assumes familiar with basic concepts involved with installing configuring hardware personal computer system. Refer Figure page locations connectors, jumpers, etc.When installing drives/devices baseboard, refer Figure page correct orientation connecting cable. Note: location pin1 COM2 header INCORRECT ABIT Brief Installation Guide ver. 1.00 (included ABIT drivers CD). been corrected this manual. Create safe work environment. Make sure static-free environment before removing components from their anti-static packaging. evaluation board susceptible electrostatic discharge damage, such damage cause product failure unpredictable operation. Inspect contents your kit. Check damage that have occurred during shipment. Contact your sales representative items missing damaged.
Caution:
Connecting wrong cable reversing cable damage evaluation board damage device being connected. Since board protective chassis, caution when connecting cables this product. evaluation board standard micro-ATX form factor. chassis used protected environment desired. Check jumper settings. used clear CMOS memory (pin Make sure this jumper normal operation (jumper pins Refer Section 4.4.2, "CMOS (JP1)" page Check switch settings. Make sure board's switch configured correct PSB. switch settings shown Table page Make sure following hardware populated your evaluation board: Intel® Pentium® processor 128-Mbyte PC133 SDRAM DIMM (168-pin) (thermal solution) network interface card Install hard disk drive included your kit: evaluation board supports Primary Secondary interfaces that each host devices (master/slave). When using multiple devices, such hard disk CD-ROM drive, make sure hard disk drive jumper master position CDROM jumper slave position. When using single device with evaluation board, ensure that jumpers correctly single drive operation. jumper settings different configurations, consult drive's documentation. Connect hard drive's cable connector IDE1 connector evaluation board.
Note:
Intel® 815E Scalable Performance Board
Getting Started
Connect other cable hard disk drive. Connect power cable hard drive. Caution: Make sure tracer ribbon cable aligned with both hard disk connector header. Connecting cable backwards damage evaluation board hard disk. Connect additional storage devices evaluation board. Note: hard disk already formatted pre-loaded with customized target image BlueCat Linux LynuxWorks. Connect Floppy drive (optional). Insert floppy cable into FDC1 sure orient correctly). Connect other ribbon cable floppy drive. Connect power cable floppy drive. Connect keyboard mouse. Connect PS/2-style mouse keyboard (see Figure page connector locations). Note: baseboard) stacked PS/2 connector. bottom connector keyboard mouse. Connect Ethernet adapter provided your (optional). Connect audio speakers (optional). audio, connect audio speakers on-board line connector. Connect power supply. Connect power supply evaluation board. Make sure power supply plugged into wall (turned off). Insert board connector power supply cord into ATXPR1 power supply header evaluation board. After connecting power supply board connector ATXPR1 header, plug power supply cord into wall. Power board. Power reset implemented evaluation board through jumpers located PN2. Power Jumper: power jumper consists pins PN1. (See Figure page 46.) power evaluation board, briefly short pins then, release short. power off, short pins about five seconds, until power shuts off.) reset jumper consists pins PN2. (See Figure page 46.) reset evaluation board, short pins until board resets, then release short.
Reset Jumper:
Turn power monitor evaluation board. Ensure that fansink processor operating.
Intel® 815E Scalable Performance Board
Getting Started
Configuring BIOS
General Software's BIOS pre-loaded evaluation board. will need make changes BIOS enable hard disks, floppy disks other supported features. Setup program modify BIOS settings control special features system. Setup options configured through menu-driven user interface. Chapter "BIOS Quick Reference" contains description BIOS options. BIOS updates periodically posted Intel's Developers' site
Intel® 815E Scalable Performance Board
Theory Operation
Block Diagram
Figure Block Diagram
370-Pin Socket Processor
ADDR ADDR DATA CTRL DATA CTRL
Clock
Termination
Connector GMCH Digital Video Device
DIMM Modules
Primary Secondary Port Port Port Port Firmware
CONN
CONN
CONN
UDMA/100
CTRL
ICH2
ADDR/DATA
AC'97 Link
Connector
Audio Codec
Game Port
Mouse
Keyboard
Intel® 815E Scalable Performance Board
Floppy
Serial
Serial
Parallel
A8255-01
Theory Operation
Mechanical Design
evaluation board conforms micro-ATX form factor. extra protection development environment, want install evaluation board chassis. evaluation board three bit/33 connectors, connector, connector, three SDRAM DIMM connectors, ABIT V-Bus connector. system connectors rear board defined micro-ATX window.
Thermal Management
objective thermal management ensure that temperature each component maintained within specified functional limits. functional temperature limit range within which electrical circuits expected meet their specified performance requirements. Operation outside functional limit degrade system performance cause reliability problems. development shipped with heatsink/fan thermal solution pre-installed processor using metal clips. This thermal solution been tested open environment room temperature sufficient evaluation purposes. designer must ensure that adequate thermal management provided customer-derived designs.
System Operation
Intel® 815E Scalable Performance Board Development designed support Intel® Celeronprocessors (566 above) Intel® Pentium® processors flip chip-grid array (FC-PGA) package. 815E chipset includes GMCH, ICH2, FWH.
3.4.1
Intel® Pentium® Processor
Intel® Pentium® processor member family Intel® IA-32 processor line. Like Intel® Pentium® processor, Intel® Pentium® processor implements Dynamic Execution microarchitecture unique combination multiple branch prediction, data flow analysis, speculative execution. Intel® Pentium® processor features include following:
Dynamic Execution technology Includes Intel media enhancement technology Intel streaming SIMD extensions Incorporates separate Kbyte level-one caches Kbytes total); instructions data
Kbytes integrated, full-speed level cache with error correcting code (ECC) 8-way level cache associativity, which provides improved cache-hit rate read/store
operations
Double quad word-wide (256 bit) cache data bus, which provides extremely high throughput
read/store operations
Intel® 815E Scalable Performance Board
Theory Operation
Support MHz, processor system frequencies Intel® processor serial number
3.4.2
Intel® CeleronProcessor
Intel® Celeronprocessor family delivers quality, reliability, compatibility while offering good performance today's most widely-used applications. Intel® Celeronprocessor features include:
Dynamic Execution technology Includes Intel MMX* media enhancement technology Intel streaming SIMD extensions Incorporates separate Kbyte level-one caches Kbytes total); instructions data reducing average memory access time providing fast access recently used instructions data
Incorporates Kbyte unified, non-blocking, level-two cache that improves performance 66/100 Intel® micro-architecture's multi-transaction system that supports multiple
outstanding transactions increase bandwidth availability
pipelined Floating-Point Unit (FPU) supporting 32-bit 64-bit formats specified
IEEE standard 754, well 80-bit format
Parity-protected address/request response system signals with retry mechanism
high data integrity reliability
3.4.3
3.4.3.1
Intel® 815E Chipset
Graphics Memory Controller (GMCH)
GMCH provides processor interface (optimized Intel® Pentium® processors Intel® Celeronprocessors), DRAM interface, interface interface internal graphics. provides flexibility scalability graphics memory subsystem performance. GMCH features:
package 100, Processor System 32-bit host addressing Four deep in-order queue Processor support Celeronprocessor (128 Kbytes) 370-pin FC-PGA package Pentium® processor (256 Kbytes) 370-pin FC-PGA package
Intel® 815E Scalable Performance Board
Theory Operation
System DRAM controller
Three DIMM slots 100/133 clock
Accelerated architecture Digital video port 1X/2X/4X port 3.4.3.2 Controller (ICH2)
Intel 82801BA Controller (ICH2) highly integrated multifunctional controller that provides interface integrates many functions needed today's platforms. ICH2 communicates with host controller over dedicated interface. ICH2 Features:
3.4.3.3
with REQ/GNT pairs Eight interrupts AC'97 with channel audio support interface Wake-On-LAN support System management GPIO signals Interrupt controller 82C54-based timer ACPI compliant eBGA package Four controllers providing four ports Enhanced SMBus with slave interface Integrated
Firmware (FWH)
Firmware (FWH) stores system BIOS video BIOS, well Intel® Random Number Generator (RNG). Intel provides truly random numbers enable stronger encryption, digital signing security protocols. enabling future security manageability infrastructures. Features:
32-pin PLCC package 8-Mbit flash memory
Intel® 815E Scalable Performance Board
Theory Operation
Symmetrically-blocked flash memory array Kbyte) register-based block locking Integrated hardware Single-byte read/write Five GPIs
3.4.4
System Memory SDRAM
Memory Features:
Three 168-pin SDRAM DIMM sockets Supports Mbyte Mbyte using Mbit/64 Mbit/128 Mbit/256 Mbit technology Supports 100/133 system memory
3.4.5
Boot
system boot installed Intel® FWH, N82802AC8 device. socketed addressable ICH2.
3.4.6
System
evaluation board contains following devices.
Single floppy controller support Primary secondary interface (supports four drives) serial ports parallel port ports connector AC'97 specification compliant audio Line Out, Line connectors MIDI/game port PS/2-style keyboard mouse ports
Intel® 815E Scalable Performance Board
Theory Operation
Figure Back Panel Connectors
Mouse
Port Connector
Game Port
Keyboard
COM1
A8332-01
3.4.6.1
Floppy Disk Drive Support
34-pin floppy connector provided evaluation board.
3.4.6.2
Support
evaluation board supports both primary secondary interface 40-pin connectors. IDE1 primary interface IDE2 secondary interface.
3.4.6.3
RS-232 Serial Ports
evaluation board provides built-in serial port (COM1) header additional serial port (COM2). COM1 attached back panel connector. COM2 header that connects serial port cable provide additional serial port.
3.4.6.4
IEEE 1284 Parallel Port
25-pin DSUB IEEE 1284 parallel port provided (LPT1).
3.4.6.5
Ports
evaluation board provides connectors (USB1).
3.4.6.6
Connector
This connector 15-pin DSUB female connector output monitor.
Intel® 815E Scalable Performance Board
Theory Operation
3.4.6.7
Audio Subsystem
evaluation board integrated (on-board) AC'97 compliant subsystem. Audio Subsystem Features:
Line input (back panel) Line output (back panel) Microphone input (back panel) 3.4.6.8 Game Port Connector
game port connector standard 15-pin DSUB connector attaching joystick, game other MIDI device.
3.4.6.9
Keyboard/Mouse
keyboard mouse connectors (U1) PS/2 style, 6-pin stacked miniature DSUB connectors. connector mouse bottom connector keyboard.
3.4.7
Expansion Connectors
evaluation board contains following expansion connectors:
3.4.7.1
slot Three 32/33 slots slot V-Bus connector
Connector
support provided through 82815 GMCH. industry standard connector (AGP1) provided evaluation board. connector accept Graphics Performance Adapter (GPA) enhance system graphics performance providing dedicated display cache internal graphics. Features:
transfer rates Differential strobes more accurate timing
Dual mode buffers allow compliant devices. add-in cards must comply with Rev. Accelerated Graphics Port Specification.
Intel® 815E Scalable Performance Board
Theory Operation
3.4.7.2
32-bit/33-MHz Connectors
Three industry standard 32-bit/33-MHz connectors (PCI1, PCI2, PCI3) provided evaluation board.
3.4.7.3
Connectors
connector included board. Intel® validated this feature.
3.4.7.4
V-Bus Connector
V-BUS TV-out adapter installed this connector (VL1), which general video output S-Video display monitor. Intel validated this feature. Contact ABIT* more information.
3.4.8
Post Code Debugger
on-board Post-Code Debugger implemented evaluation board. However, post code debugging accomplished through port 080H expansion card.
3.4.9
Clock Generation
clock synthesizer baseboard generates distributes clocks used entire system.
3.4.9.1
System Clocks
Intel® 815E Chipset: DIMM Clock Synthesizer primary source clock generation most clocks baseboard. following clock groups found Intel® 815E Scalable Performance Board Development Kit: SDRAM 3V66 APIC MHz/100 MHz/133 MHz/133 (3.3 14.31818
Intel® 815E Scalable Performance Board
Theory Operation
3.4.10
Power Supply Requirements
Intel® 815E Scalable Performance Board uses standard power supply.
Battery Requirements
type 2032, socketed, lithium coin cell battery used this evaluation board. battery shelf life greater than three years.
Intel® 815E Scalable Performance Board
Hardware Reference
This section provides reference information hardware, including connector pinout information jumper settings.
Thermal Management
development shipped with heatsink/fan thermal solution pre-installed processor using metal clips. This thermal solution been tested open-air environment room temperature sufficient evaluation purposes. designer must ensure that adequate thermal management provided customer-derived designs. additional thermal design information refer following documents:
Pentium® Processor PGA370 Socket 1.0B Datasheet (order
number 245264)
Intel® Pentium® Processor Thermal Design Guide (order number 273325) Intel® CeleronProcessor datasheet (order number 243658) Intel® CeleronProcessor Thermal Design Guide (order number 273421)
Post Code Debugging
evaluation board does have on-board post code display. However, post code debugging accomplished through Port 080H expansion card. These cards available from various vendors. such vendor Engines (www.pcengines.com).
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Connector Pinouts
Figure Baseboard Layout Diagram
Game Port
Parallel Serial Stacked USB1
Winbond W83627HF
AUX1
Mouse/ Keyboard
COM2
ATXPR1
SMB2
FAN2
AGP1
CNRSLOT1 FW82801 PCI3
Panasonic CR2032 CCMOS SMB1
PCI2
PCI1
PGA370
WOL1 DIMM3
FW82801
FAN1
DIMM1 DIMM2
USB2
IDE1 IDE2 FDC1
FAN3
A8333-01
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Figure Baseboard Connector Orientation
FAN2 AUX1
COM2
ATXPR1
WOL1
SMB2
CCMOS SMB1
FAN1
IDE1 USB2 FAN3 IDE2 FDC1
A8337-01
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Hardware Reference
4.3.1
Power Connector
Table shows signals assigned style power connector.
Table
Power Connector (ATXPR1)
Name PWRGD 5VSB PS_ON# Function Ground Ground Ground Power Good Standby Ground Soft-off control Ground Ground Ground
4.3.2
Dual Stacked Connector
Table shows signals assigned dual stacked connector (USB1).
Table
Connector Pinout (USB1)
Signal Name Power (fused) USBP0# [USBP1#] USBP0 [USBP1]
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4.3.3
PS/2-Style Mouse Keyboard Connectors
Table shows signals assigned keyboard mouse connector (U1). mouse port keyboard port bottom.
Table
PS/2-Style Mouse Keyboard Pinout (U1)
Data Connect (fused) Clock Connect Signal Name
4.3.4
Table
Port
Connector Pinout (VGA)
Signal GREEN BLUE ANALOG ANALOG ANALOG SYNC SYNC
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4.3.5
Parallel Port
Table shows signals assigned parallel port connector (LPT1).
Table
Parallel Port Connector Pinout (LPT1)
Signal Name Strobe# Data Data Data Data Data Data Data Data ACK# Busy Paper SLCT Signal Name Auto Feed# Fault# INIT#
4.3.6
Serial Ports
Table shows signals assigned serial port connectors (COM1 COM2). COM1 attached back panel connector. COM2 serial port. have serial port bracket, connected COM2 additional serial port.
Table
Serial Port Connector Pinout (COM1 COM2)
Signal Name Serial (SIN) Serial (SOUT)
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4.3.7
Audio Connectors
Refer Figure page connectors referenced this section. Table shows signals assigned audio line-out connector.
Table
Audio Line-Out Connector Pinouts
Sleeve Ring Signal Name Audio Left Audio Right
Table shows signals assigned audio line-in connector. Table Audio Line-In Connector Pinouts
Sleeve Ring Signal Name Audio Left Audio Right
Table shows signal assigned audio mic-in connector. Table Audio Mic-In Connector Pinouts
Sleeve Ring Signal Name Mono bias voltage
Table shows signals assigned MIDI/game port connector. Table MIDI/Game Port Connector Pinouts
Signal Name (fused) (fused) Signal Name (fused) MIDI-OUTR MIDI-INR
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4.3.8
Wake (WOL)
Table shows signals assigned Wake-ON-LAN (WOL) connector (WOL1).
Table Wake-ON-LAN Connector Pinouts (WOL1, populated)
Signal Name Ground
4.3.9
Front Panel Connectors
Table shows signals assigned front panel connectors (PN1 PN2).
Table Front Panel Connectors
Signal Name Power Power Power Keylock Keylock Power Power Signal Name Reset Reset Speaker Speaker Speaker Speaker Reserve Reserve Reserve
4.3.10
Connector
Table shows signals assigned connectors (IDE1 IDE2).
Table Connector Pinouts IDE1 IDE2 (Sheet
Signal Name Reset Ground Host Data Signal Name DRQ3 Ground Write#
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Table Connector Pinouts IDE1 IDE2 (Sheet
Signal Name Host Data Host Data Host Data Host Data Host Data Host Data Host Data Host Data Host Data Host Data Host Data Host Data Host Data Host Data Host Data Ground Signal Name Ground Read# Ground IOCHRDY BALE DACK3# Ground IRQ14 IOCS16# Addr1 Ground Addr Addr Chip Select Chip Select Activity Ground
4.3.11
Floppy Drive Connector
Table shows signals assigned floppy drive connector (FDC1).
Table Floppy Drive Connector Pinouts (FDC1) (Sheet
Signal Name Ground Ground Ground Ground Ground Ground Ground Ground Ground Ground Ground Ground Ground Signal Name FDHDIN Reserved FDEDIN Index Motor Enable Drive Select Drive Select Motor Enable DIR# STEP# Write Data# Write Gate# Track Write Protect#
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Table Floppy Drive Connector Pinouts (FDC1) (Sheet
Signal Name Ground Ground Ground Signal Name Read Data# Side Select# Diskette Change#
4.3.12
32-Bit Slot Connector
Table shows signals assigned 32-Bit slot connectors (PCI1, PCI2, PCI3).
Table 32-Bit Slot Connector Pinouts (Sheet
Signal Name PIRQ1# PIRQ3# Connect Connect Connect RST# GNT1# Reserved AD30 AD28 AD26 Signal Name Connect PIRQ2# PIRQ0 PRSNT1B Connect PRSNT2B Connect PCLK3 REQ# AD31 AD29 AD27 AD25 Signal Name AD16 FRAME# TRDY# STOP# SDONE SBO# AD15 3.3V AD13 AD11 CBEO# Signal Name AD17 CBE2# IRDY# DEVSEL# LOCK# PERR# 3.3V SERR# CBE1# AD14 AD12 AD10
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Table 32-Bit Slot Connector Pinouts (Sheet
Signal Name AD24 IDSEL AD22 AD20 AD18 Signal Name CBE3# AD23 AD21 AD19 Signal Name REQ64# Signal Name ACK64#
4.3.13
4.5.11 Connector
Table shows signals assigned connector (AGP1).
Table Connector Pinouts (Sheet
TYPEDET# Reserved USBGND INTA# RST# GNT# Reserved PIPE# Reserved SBA1 SBA3 Reserved SBA5 SBA7 Signal OVRCNT# 5.0V 5.0V USB+ INTB# REQ# RBF# Reserved SBA0 SBA2 SB_STB SBA4 SBA6 Vddq AD22 AD20 AD18 AD16 Vddq FRAME# Reserved Reserved TRDY# STOP# PME# AD15 Vddq AD13 AD11 Signal Vddq AD21 AD19 AD17 C/BE2# Vddq IRDY# Vaux Reserved DEVSEL# Vddq PERR# SERR# C/BE1# Vddq AD14 AD12
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Table Connector Pinouts (Sheet
NOTES: Reserved pins only future interface specification. IDSEL# connector. graphics components should connect AD16 signal IDSEL# function internal component. cards leave TYPEDET signal open. cards this signal hard ground. AD30 AD28 AD26 AD24 Reserved C/BE3# Signal AD31 AD29 AD27 AD25 AD_STB1 AD23 C/BE0# Vddq Reserved Vddq Reserved Signal AD10 Vddq AD_STB0 Vddq Reserved
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4.3.14
Connector
Table Table shows signals assigned Type Type connectors (CNRSLOT1).
Table Assignment Type Connector, using 8-pin Interface
Signal Name RESERVED RESERVED RESERVED RESERVED RESERVED LAN_TXD1 LAN_RSTSYNC LAN_RXD2 LAN_RXD0 RESERVED Vdual USB_OC# +3.3VD EE_DOUT EE_SHCLK SMB_A0 SMB_SCL CDC_DN_ENAB# AC97_SYNC AC97_SDATA_OUT AC97_BITCLK EE_DIN EE_CS SMB_A1 SMB_A2 SMB_SDA AC97_RESET# RESERVED AC97_SDATA_IN1 AC97_SDATA_IN0 Signal Name RESERVED RESERVED RESERVED RESERVED LAN_TXD2 LAN_TXD0 LAN_CLK LAN_RXD1 RESERVED USB+ USB+12 +3.3 Vdual +5VD
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Table Assignment Type Connector, using 17-pin Interface
Signal Name MII_MDIO MII_COL MII_TXC MII_RXERR MII_TXD3 MII_TXD1 MII_TXEN MII_RXD2 MII_RXD0 RESERVED +5Vdual USB_OC# -12V +3.3 EE_DOUT EE_SHCLK SMB_A0 SMB_SCL CDC_DN_ENAB# AC97_SYNC AC97_SDATA_OUT AC97_BITCLK EE_DIN EE_CS SMB_A1 SMB_A2 SMB_SDA AC97_RESET# RESERVED AC97_SDATA_IN1 AC97_SDATA_IN0 Signal Name MII_MDC MII_CRS MII_RXDV MII_RXC MII_TXD2 MII_TXD0 RESERVED MII_RXD1 MII_RXD3 USB+ USB+12 +3.3Vdual +5VD
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4.4.1
Jumpers
Headers
These headers provide signals LED, power/reset button speaker that usually connected chassis when system mounted chassis.
4.4.1.1
Power (PN1: Pins 1-3)
designed front panel chassis connected these pins show poweron status.
4.4.1.2
Keylock (PN1: Pins
these pins connect physical lock designed chassis, which allows lock your chassis with key, that system cannot turned
4.4.1.3
HDD-LED (PN1: Pins
attached these pins. shows hard disk drive activity.
4.4.1.4
Power (PN1: Pins
Power implemented evaluation board pins located PN1. power-on evaluation board, short pins until board powers then release short. turn board, hold jumper pins four seconds.
4.4.1.5
(PN1: Pins
This hardware suspend header. Because power management supported this system, these pins should remain open (unconnected).
4.4.1.6
Reset (PN2: Pins
Reset implemented evaluation board pins located PN2. reset evaluation board, short pins until board resets then release short.
4.4.1.7
Speaker (PN2: Pins 4-7)
This header connecting internal speaker.
4.4.1.8
SP_LED (PN2: Pins
connected here show suspend state status. Because power management supported this system, these pins should remain open (unconnected).
4.4.1.9
Reserve (PN2: Pins 12-14)
These pins reserved. use.
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Figure PN1, Diagram
4.4.2
CMOS (JP1)
controls power battery backed-up CMOS memory. This CMOS memory stores system information required BIOS during startup. normal operation, jumper pins clear CMOS RAM, perform following steps: Shut down system. Disconnect power supply (ATXPR1). Remove jumper from pins Short pins (clear CMOS). Wait seconds. Replace jumper pins (normal operation). Reconnect power supply (ATXPR1). Boot system enter BIOS setup screen reconfigure system. Short Pins Short Pins Normal Operation (default) Clear saved CMOS data
4.4.3
Header
header that allows connect additional thermistor detect temperature location board select.
4.4.4
Settings (JP4 USB2)
When using CNR's USB, these settings USB2.
Place jumpers across with USB2 Place jumpers across shorted with USB2
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USB2
4.4.5
Settings (JP5 USB2)
When using AGP's USB, these settings USB2.
Place jumpers across with USB2 Place jumpers across with USB2
USB2
Processor Switch Settings (SW1)
Processor settings, including frequency selection, implemented board Switch (SW1).
Table Processor Switch Settings (Sheet
Switch On/Off 1:ON 2:ON 1:OFF 2:ON 1:OFF 2:OFF 1:ON 2:OFF 3:ON 4:ON 3:OFF 4:ON 3:OFF 4:OFF 3:ON 4:OFF Reboot Watchdog Timeout Default NOTE: want SW1: frequency, SW1: must off. Force Frequency Strap Safe (1111) Reboot Watchdog Timeout Default Define Frequency Strap ICH2 Register Default SW1: Frequency Setting Reserved 100MHz Description Default Frequency Setting Reserved Default Default
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Table Processor Switch Settings (Sheet
Switch -Disable Onboard Codec Reserved Default Default On/Off Description Onboard Codec Default
NOTE: want SW1: frequency, SW1: must off.
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BIOS Quick Reference
evaluation board licensed with single copy Embedded BIOS Embedded software from General Software, Inc.1 This software provided demonstration purposes only must licensed directly from General Software, Inc. integration with designs. General Software reached (800) 850-5755, http://www.gensw.com, e-mail sales@gensw.com. BIOS updates periodically posted Intel Developers' site http:// developer.intel.com/.
Overview
system's pre-boot environment managed with adaptation Embedded BIOS from General Software. pre-boot environment includes POST, Setup Screen System, Manufacturing Mode, Console Redirection, Windows Loader Ready), Integrated BIOS Debugger. REFLASH tool also available update BIOS image with builds Embedded BIOS that obtained from General Software. Before using system, please read following properly configure CMOS settings, learn embedded features pre-boot firmware, Embedded BIOS. last sections this chapter provide BIOS POST Codes Beep codes.
Power-On Self-Test (POST)
When system powered Embedded BIOS tests initializes hardware programs chipset other peripheral components. During this time, POST progress codes written system BIOS port 80H, allowing user monitor progress with special monitor. "Embedded BIOS POST Codes" page lists POST codes their meanings. During early POST, video available display error messages critical error encountered; therefore, POST uses beeps speaker indicate failure critical system component during this time. Consult "Embedded BIOS Beep Codes" page list beep codes used system's BIOS.
BIOS User Interface
system BIOS standard keyboard video device, console redirection demonstrate headless operation. headless operation, remove standard keyboard screen devices system will boot unattended. RS232 cable attached COM1, PC/ATstyle character-based POST available from HyperTerminal, PROCOMM, other terminal emulator software that supports VT100 emulation.
General SoftwareTM, Logo, Embedded BIOSTM, BIOStartTM, CE-ReadyTM, Embedded DOSare trademarks registered trademarks General Software, Inc.
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When keyboard video device attached, system display either traditional character-based BIOS display with memory count-up, display graphical POST with splash screen progress icons. Both POST screens accept <DEL> key-press enter setup screen, both display boot-time progress activity. graphical display shows status file system devices even OEM-defined devices (when adapts BIOS particular platform), omits character-based resource display. text-based POST displays memory count-up resource assignment table. Figure shows format text-based POST display. display very similar console redirection through port used instead. Figure BIOS POST Pre-Boot Environment
Figure shows graphical version POST. BIOS decompresses main image display multiple overlaid graphics various points POST. define entire sequence control timing system embedded application, arrange have different graphics displayed each successive boot system. This feature ideal embedded systems that must show evidence operation during startup, while application loads underneath splash screen. Once application begins writing screen, splash screen relinquishes control, providing seamless graphical progression user.
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Figure Graphical POST
When system powered first time, you'll need configure system through Setup Screen System (described later) before peripherals, such disk drives, recognized BIOS. information written battery-backed CMOS board's real time clock. Should board's battery fail, this information will lost board will need reconfigured. Basic Setup Screen provides option disable graphical POST switch legacy text-based version. This feature permanently disable graphical POST BIOS adaptation calls reverting graphical form after many boots. find that graphical POST comes back after several boots, because this option enabled this platform. Embedded BIOS Adaptation control whether setup used dictate policy, whether permanent temporary.
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Setup Screen System
system configured from within Setup Screen System, which series menus that invoked from POST pressing <DEL> main keyboard being used, pressing Ctrl+C console being redirected terminal program.
Figure Embedded BIOS Setup Screen Menu
Once Setup Screen System (Figure user navigate with DOWN arrow keys from main console, Ctrl+E Ctrl+X keys from remote terminal program accomplish same thing. ENTER used advance next field, keys cycle through values, such those Basic Setup Screen, Diagnostics Setup Screen.
5.4.1
Basic CMOS Configuration Screen
system's drive types, boot activities, POST optimizations configured from Basic Setup Screen (Figure order disk drives with your system, must select appropriate assignments drive types left-hand column. Then, using true floppy drives (not memory disks that emulate these drives), need configure drive types themselves Floppy Drive Types Drive Geometry sections. Finally, you'll need configure boot sequence middle screen. Once these selections have been made, your system ready use.
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Figure Embedded BIOS Basic Setup Screen
5.4.2
Configuring Drive Assignments
Embedded BIOS allows user different file system each drive letter. BIOS allows file systems each floppy (Floppy0 Floppy1), each drive (Ide0, Ide1, Ide2, Ide3), memory disks when configured (Flash0, ROM0, RAM0, etc.). Figure shows first floppy drive (Floppy0) assigned drive system, then first drive (Ide0) assigned drive system. switch floppy hard disks around, Floppy0 Floppy1 hard disks Ide0 Ide1
Caution:
Take care skip drive when making floppy disk assignments, well drive when making hard disk assignments. first floppy should first hard drive should Also, assign same file system more than drive letter. Thus, Floppy0 should used both BIOS permits this allow embedded devices alias drives, desktop operating systems able maintain cache coherency with such mapping place. special field this section entitled "Boot Method: (Windows CE/Boot Sector)" used configure Ready feature BIOS. normal booting (DOS, Windows etc.), select "Boot Sector" "Unused".
5.4.2.1
Configuring Floppy Drive Types
true floppy drive file systems (and their emulators, such ROM, RAM, flash disks) mapped drive letters, then floppy drives themselves must configured this section. Floppy0 refers first floppy disk drive drive ribbon cable (normally drive A:), Floppy1 refers second drive (drive B:).
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5.4.3
Configuring Drive Types
true disk file systems (and their emulators, such ROM, RAM, flash disks) mapped drive letters, then drives themselves must configured this section. following table shows drive assignments Ide0-Ide3:
Table IDE0-IDE3 Drive Assignments
File System Name Ide0 Ide1 Ide2 Ide3 Controller Primary (1f0h) Primary (1f0h) Secondary (170h) Secondary (170h) Master/Slave Master Slave Master Slave
primary master drive your system (the typical case), configure Ide0 this section, Ide0 drive Configuring Drive Assignments section. Drive Types section lets select type each four drives: None, User, Physical, LBA, CHS. User This type allows user select maximum cylinders, heads, sectors track associated with drive. This method rarely used since common use. This type instructs BIOS query drive's geometry from controller each POST. translation drive's geometry performed, this type limited drives Mbytes less. Commonly, this used with embedded Cards. This type instructs BIOS query drive's geometry from controller each POST, then translate geometry according industrystandard convention. This supports 16-Gbyte drives. this method drives. This type instructs BIOS query drive's geometry from controller each POST, then translates geometry according Phoenix convention. Using this type drive previously formatted with physical geometry might show data being missing corrupted.
Physical
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Configuring Boot Actions
Embedded BIOS supports different user-defined steps boot sequence. When entire system been initialized, POST executes these steps order until operating system successfully loads. addition, other pre-boot features before, after, between operating system load attempts. following actions used: Drive Boot operating system from specified drive. "Loader" "BootRecord" "Unused", then standard boot record will invoked, causing DOS, Windows 95/98, Windows other industry-standard operating systems load. "Boot Method" "Windows CE", then boot drive's boot record will used, instead BIOS will attempt load execute Windows Kernel file, NK.BIN, from root directory each boot device. Launch Integrated BIOS Debugger. return boot process from debugger environment, type debugger prompt press ENTER. Initiate Manufacturing Mode, allowing system configured remotely RS232 connect host computer. Execute ROM-resident copy Windows available. This feature applicable unless properly configured BIOS adaptation. Execute ROM-resident copy DOS, available. This feature applicable unless copy DOS, such Embedded DOS-ROM, been stored BIOS boot ROM. Copies Embedded DOS-ROM obtained from General Software. action; POST proceeds next activity sequence.
Debugger MFGMODE WindowsCE
None
Custom Configuration Setup Screen
system's hardware-specific features configured with Custom Setup Screen (Figure 10). features straightforward except Redirect Debugger option, which extra embedded feature that allows user select whether Integrated BIOS Debugger should standard keyboard video RS232 console redirection interaction with user. video available, debugger always redirected.
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Figure Embedded BIOS Custom Setup Screen
Shadow Configuration Setup Screen
system's Shadow Configuration Setup Screen (Figure allows selective enabling disabling shadowing Kbyte sections, except Kbytes BIOS ROM, which shadowed unit. Normally, shadowing should enabled C000/C400 enhance BIOS performance), then E000-F000 should shadowed maximize system BIOS performance.
Figure Embedded BIOS Shadow Setup Screen
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Standard Diagnostics Routines Setup Screen
Embedded systems require automated burn-in testing development cycle. This facility provided directly system BIOS through Standard Diagnostics Routines Setup Screen (Figure 12). system, selectively enable disable features tested, then enable "Tests Begin ESC?" option cause system test suite invoked. repeat system test battery continuously, should also enable "Continuous Testing" option. When continuous testing started, system will continue until error encountered.
Caution:
disk diagnostics perform write operations those drives; therefore, only spare drives should used that contain data that could harmed test. keyboard test fail when hardware operating within reasonable limits. This because although device produce occasional errors, BIOS retries operations when failures occur during normal operation system.
Caution:
Figure Standard Diagnostic Routines Setup Screen
Start System BIOS Debugger Setup Screen
Embedded BIOS Integrated Debugger invoked from Setup Screen main menu, well boot activity. Once invoked, debugger will display debugger prompt: EB43DBG: await debugger commands. return back Setup Screen main menu, type following command, which instructs debugger "go": EB43DBG: <ENTER>
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5.10
Start RS232 Manufacturing Link Setup Screen
Embedded BIOS Manufacturing Mode invoked from Setup Screen main menu, well boot activity. Once invoked, Manufacturing Mode takes over system freezes console system (Figure 13). host resume operation system give control back system Setup Screen system with special control software.
Figure Start RS232 Manufacturing Link Setup Screen
5.11
Manufacturing Mode
system's BIOS provides special mode, called Manufacturing Mode, that allows target controlled host computer such laptop desktop Running special software supplied General Software, host access target's drives manage file systems target, reprogram flash memories, test target hardware. full discussion uses Manufacturing Mode beyond scope this chapter. Complete documentation host-side software available directly from General Software. more information, visit General Software site http://www.gensw.com.
5.11.1
Console Redirection
system operate either with standard PC/AT PS/2 keyboard video monitor, with special emulation console over RS232 cable connected host computer running terminal program. example session with HYPERTERMINAL, debugger section's screen display (Figure 15). Console Redirection feature, remove video display card from system that video available BIOS detect. absence video support, BIOS automatically switches keyboard screen functions serial over COM1 board. hardware connection host computer requires null modem cable.
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software target terminal emulation program that supports ANSI terminal mode, using 9600 baud, parity, stop (Note: This modified during BIOS adaptation.) program must flow control, console seem stall accept input. Caution: HYPERTERMINAL's default setting flow control, which will render console inoperative. change this, create session, change flow control setting "none", save session, exit HYPERTERMINAL. Then reinvoke HYPERTERMINAL with session will operate with flow control setting.
5.11.2
CE-Ready Windows Loader
Your system's BIOS CE-ready directly boot Windows without loading intermediate operating system such LOADCEPC. Instead, NK.BIN file placed disk drive drive emulator, then BIOS configured through Basic CMOS Configuration Setup Screen boot NK.BIN file from boot drives instead boot records those drives. configure your system boot Windows natively from disk drive, "Boot Method" field "Windows Basic CMOS Configuration Setup Screen. Then, place copy NK.BIN suitable execution LOADCEPC root directory your normal boot drive, such drive Then, reboot system. configuration should displayed (Figure 14), immediately following should message "Loading Windows CE." followed series dots, indicating that loading process continuing. Once fully loaded, Windows takes over system runs using standard keyboard, screen, PS/2 mouse.
Figure CE-Ready Boot Feature
5.11.3
Integrated BIOS Debugger
system's BIOS contains built-in debugger that valuable tool board bringup process designs similar evaluation board. supports SYMDEB-style command line interface, used main console's keyboard screen, over redirected connection terminal program (see "Console Redirection" page 58).
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activate debugger time from main console, press left shift control keys together. display similar HYPERTERMINAL session below (Figure will appear, containing title, "Embedded BIOS Debugger Breakpoint Trap" snapshot processor general registers. Figure Integrated BIOS Debugger Running Over Remote Terminal
leave debugger resume interrupted activity (whether POST, BIOS, DOS, Windows, application program), enter command (short "go") press ENTER. were prompt when entered debugger, then will still waiting command, will prompt again until press ENTER again. debugger also entered from Setup Screen System, boot activity (see "Basic CMOS Configuration Screen" page 52), last ditch effort during board bring-up development bootable device available. your version DOS, application, OEM-supplied BIOS extensions have debugging code (i.e., "INT instructions) remaining, then these will invoke debugger automatically, although this error. continue, command. When Embedded BIOS adapted OEM, debugger removed from final production BIOS, superfluous debugging code application will cause debugger invoked.
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complete discussion debugger beyond scope this chapter; however, complete documentation available from General Software http://www.gensw.com.
5.12
Embedded BIOS POST Codes
Embedded BIOS writes progress codes, also known POST codes, port during POST, order provide information developers about system faults. These POST codes monitored on-board Post Code Debugger located U13. They displayed screen. more information about POST codes, contact General Software.
Mnemonic Code POST_STATUS_START00h POST_STATUS_CPUTEST POST_STATUS_DELAY POST_STATUS_DELAYDONE POST_STATUS_KBDBATRDY POST_STATUS_DISABSHADOW POST_STATUS_CALCCKSUM POST_STATUS_CKSUMGOOD POST_STATUS_BATVRFY POST_STATUS_KBDCMD POST_STATUS_KBDDATA POST_STATUS_BLKUNBLK POST_STATUS_KBDNOP POST_STATUS_SHUTTEST POST_STATUS_CMOSDIAG POST_STATUS_CMOSINIT POST_STATUS_CMOSSTATUS POST_STATUS_DISABDMAINT POST_STATUS_DISABPORTB POST_STATUS_BOARD POST_STATUS_TESTTIMER POST_STATUS_TESTTIMER2 POST_STATUS_TESTTIMER1 POST_STATUS_TESTTIMER0 POST_STATUS_MEMREFRESH POST_STATUS_TESTREFRESH POST_STATUS_TEST15US1 POST_STATUS_TEST64KB1 POST_STATUS_TESTDATA1 POST_STATUS_TESTADDR2 POST_STATUS_TESTPARITY POST_STATUS_TESTMEMRDWR POST_STATUS_SYSINIT POST_STATUS_INITVECTORS POST_STATUS_8042TURBO POST_STATUS_POSTTURBO POST_STATUS_POSTVECTORS POST_STATUS_MONOMODE POST_STATUS_COLORMODE POST_STATUS_TOGGLEPARITY POST_STATUS_INITBEFOREVIDEO2
Code Start
System Progress Report POST (BIOS executing). Start register test. Start power-on delay. Power-on delay finished. Keyboard finished. Disable shadowing cache. Compute CRC, wait KBC. okay, ready. Verifying command Start command. Start data. Start 23,24 blocking unblocking. Start command. Test CMOS shutdown register. Check CMOS checksum. Initialize CMOS contents. Initialize CMOS status date/time. Disable DMA, PICs. Disable Port video display. Initialize board, start memory bank detection. Start timer tests. Test 8254 speaker, port Test 8254 refresh. Test 8254 18.2Hz. Start memory refresh. Test memory refresh. Test 15usec refresh ON/OFF time. Test base memory. Test data lines. Test address lines. Test parity (toggling). Test Base 64KB memory. Prepare system initialization. Initialize vector table. Read 8042 turbo switch setting. Initialize turbo data. Modification IVT. Video monochrome mode verified. Video color mode verified. Toggle parity before video test. Initialize before video check.
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BIOS Quick Reference
POST_STATUS_VIDEOROM POST_STATUS_POSTVIDEO POST_STATUS_CHECKEGAVGA POST_STATUS_TESTVIDEOMEMORY POST_STATUS_RETRACE POST_STATUS_ALTDISPLAY POST_STATUS_ALTRETRACE POST_STATUS_VRFYSWADAPTER POST_STATUS_SETDISPMODE POST_STATUS_CHECKSEG40A POST_STATUS_SETCURSOR POST_STATUS_PWRONDISPLAY POST_STATUS_SAVECURSOR POST_STATUS_BIOSIDENT POST_STATUS_HITDEL POST_STATUS_VIRTUAL POST_STATUS_DESCR POST_STATUS_ENTERVM POST_STATUS_ENABINT POST_STATUS_CHECKWRAP1 POST_STATUS_CHECKWRAP2 POST_STATUS_HIGHPATTERNS POST_STATUS_LOWPATTERNS POST_STATUS_FINDLOWMEM POST_STATUS_FINDHIMEM POST_STATUS_CHECKSEG40B POST_STATUS_CHECKDEL POST_STATUS_CLREXTMEM POST_STATUS_SAVEMEMSIZE POST_STATUS_COLD64TEST POST_STATUS_COLDLOWTEST POST_STATUS_ADJUSTLOW POST_STATUS_COLDHITEST POST_STATUS_REALMODETEST POST_STATUS_ENTERREAL POST_STATUS_SHUTDOWN POST_STATUS_DISABA20 POST_STATUS_CHECKSEG40C POST_STATUS_CHECKSEG40D POST_STATUS_CLRHITDEL POST_STATUS_TESTDMAPAGE POST_STATUS_VRFYDISPMEM POST_STATUS_TESTDMA0BASE POST_STATUS_TESTDMA1BASE POST_STATUS_CHECKSEG40E POST_STATUS_CHECKSEG40F POST_STATUS_PROGDMA POST_STATUS_INITINTCTRL POST_STATUS_STARTKBDTEST POST_STATUS_KBDRESET POST_STATUS_CHECKSTUCKKEYS POST_STATUS_INITCIRCBUFFER POST_STATUS_CHECKLOCKEDKEYS POST_STATUS_MEMSIZEMISMATCH POST_STATUS_PASSWORD
Passing control video ROM. Control returned from video ROM. Check EGA/VGA adapter. EGA/VGA found, test video memory. Scan video retrace signal. Primary retrace failed. Alternate found. Verify video switches. Establish display mode. Initialize BIOS data area. cursor power-on msg. Display power-on message. Save cursor position. Display BIOS identification string. Display "Hit <DEL> message. Prepare protected mode test. Prepare descriptor tables. Enter virtual mode memory test. Enable interrupts diagnostics mode. Initialize data memory wrap test. Test wrap, find total memory size. Write extended memory test patterns. Write conventional memory test patterns. Find memory size from patterns. Find high memory size from patterns. Verify BIOS data area again. Check <DEL> pressed. Clear extended memory soft reset. Save memory size. Cold boot: Display 64KB memtest. Cold boot: Test memory. Adjust memory size EBDA usage. Cold boot: Test high memory. Prepare shutdown real mode. Return real mode. Shutdown successful. Disable line. Check BIOS data area again. Check BIOS data area again. Clear "Hit <DEL>" message. Test page register file. Verify from display memory. Test DMA0 base register. Test DMA1 base register. Checking BIOS data area again. Checking BIOS data area again. Program controllers. Initialize PICs. Start keyboard test. Issue reset command. Check stuck keys. Initialize circular buffer. Check locked keys. Check memory size mismatch. Check password bypass setup.
Intel® 815E Scalable Performance Board
BIOS Quick Reference
POST_STATUS_BEFORESETUP POST_STATUS_CALLSETUP POST_STATUS_POSTSETUP POST_STATUS_DISPPWRON POST_STATUS_DISPWAIT POST_STATUS_ENABSHADOW POST_STATUS_STDCMOSSETUP POST_STATUS_MOUSE POST_STATUS_FLOPPY POST_STATUS_CONFIGFLOPPY POST_STATUS_IDE POST_STATUS_CONFIGIDE POST_STATUS_CHECKSEG40G POST_STATUS_CHECKSEG40H POST_STATUS_SETMEMSIZE POST_STATUS_SIZEADJUST POST_STATUS_INITC8000 POST_STATUS_CALLC8000 POST_STATUS_POSTC8000 POST_STATUS_TIMERPRNBASE POST_STATUS_SERIALBASE POST_STATUS_INITBEFORENPX POST_STATUS_INITNPX POST_STATUS_POSTNPX POST_STATUS_CHECKLOCKS POST_STATUS_ISSUEKBDID POST_STATUS_RESETID POST_STATUS_TESTCACHE POST_STATUS_DISPSOFTERR POST_STATUS_TYPEMATIC POST_STATUS_MEMWAIT POST_STATUS_CLRSCR POST_STATUS_ENABPTYNMI POST_STATUS_INITE000 POST_STATUS_CALLE000 POST_STATUS_POSTE000 POST_STATUS_DISPCONFIG POST_STATUS_INT19BOOT POST_STATUS_LOWMEMEXH POST_STATUS_EXTMEMEXH POST_STATUS_PCIENUM
0a0h 0a1h 0a2h 0a3h 0a4h 0a5h 0a6h 0a7h 0a8h 0a9h 0b0h 0b1h 0b2h 0b3h
Password accepted. Entering setup system. Setup system exited. Display power-on screen message. Display "Wait." message. Shadow system video BIOS. Load standard setup values from CMOS. Test initialize mouse. Test floppy disks. Configure floppy drives. Test hard disks. Configure drives. Checking BIOS data area. Checking BIOS data area. base extended memory sizes. Adjust memory size EBDA. Initialize before calling C800h ROM. Call BIOS extension C800h. C800h extension returned. Configure timer/printer data. Configure serial port base addresses. Prepare initialize coprocessor. Initialize numeric coprocessor. Numeric coprocessor initialized. Check settings. Issue keyboard command. flag reset. Test cache memory. Display soft errors. keyboard typematic rate. Program memory wait states. Clear screen. Enable parity NMIs. Initialize before calling E000h. Call BIOS extension E000h. extension returned. Display system configuration box. Call bootstrap loader. Test memory exhaustively. Test extended memory exhaustively. Enumerate busses.
Intel® 815E Scalable Performance Board
BIOS Quick Reference
5.13
Embedded BIOS Beep Codes
Embedded BIOS tests much system hardware early POST before messages displayed screen. When system failures encountered these early stages, POST uses beep codes sequence tones speaker) identify source error. following comprehensive list POST beep codes system BIOS. BIOS extensions, such ROMs SCSI adapter ROMs, their beep codes, including short/long sequences, possibly beep codes that sound like ones below. When diagnosing system failure, remove these adapters possible before making final determination actual POST test that failed.
Mnemonic Code Beep Count POST_BEEP_REFRESH POST_BEEP_PARITY POST_BEEP_BASE64KB POST_BEEP_TIMER POST_BEEP_CPU POST_BEEP_GATEA20 POST_BEEP_DMA POST_BEEP_VIDEO POST_BEEP_KEYBOARD POST_BEEP_SHUTDOWN POST_BEEP_CACHE POST_BEEP_BOARD POST_BEEP_LOWMEM POST_BEEP_EXTMEM POST_BEEP_CMOS POST_BEEP_ADDRESS_LINE POST_BEEP_DATA_LINE POST_BEEP_INTERRUPT POST_BEEP_PASSWORD
Description Problem Memory refresh working. Parity error found memory. Memory test failed. timer test failed. test failed. Gate test failed. page/base register test failed. Video controller test failed. Keyboard failed. CMOS shutdown register test failed. External cache test failed. General board initialization failed. Exhaustive memory test failed. Exhaustive extended memory test failed. CMOS restart byte test failed. Address line test failed. Data line test failed. Interrupt controller test failed. Incorrect password used access SETUP.
Intel® 815E Scalable Performance Board
Bill Materials
Table Bill Materials (Sheet
Rev. Reference Designator Description CHIPSET (GMCH) CODEC CHIPSET CHIPSET (ICH2) LINEAR TTL74LVC06A TTL74LVC07A TTL74LCX14 TTLPI5C3384Q TTL-PACSZ1284-02 TTL-PACVGA201 TTL-75232 CLOCK GENERATO CLOCK GENERATO TRANSISTO Manufacturer Manuf. Part Number FW82815 YMF752-S W83627HF-AW FW82801BA LM4880MX 74LVC06A 74LVC07A 74LCX14 FAIRCHILD 74LCX06 FAIRCHILD 74LCX07 MOTOROLA 74LVC14 74FST3384Q, 74CBT3384A WINBOND W83627HF-AW Alternate Manufacturing Info Changes
INTEL YAMAHA WINBOND
INTEL FAIRCHILD
PERICOM
PI5C3384QX
U9,U10
GOLDSTAR
PAC-SZ1284-02 PAC-VGA201 75232 GD75232, M5232
ICS9250BF-28
ICS9112BM-17 MOTOROLA MMBT2907A, PHILIPS PMBT2907A VISHAY 2N7002E, FAIRCHILD 2N7002
Q2,Q18
FAIRCHILD
MMBT2907A
Q1,Q13,Q16,Q17
TRANSISTO
PHILIPS
2N7002
Intel® 815E Scalable Performance Board
Bill Materials
Table Bill Materials (Sheet
Rev. Reference Designator Description Manufacturer Manuf. Part Number Alternate Manufacturing Info FAIRCHILD MMBT3904, MOTOROLA MMBT3904 Changes
Q14,Q15,Q19,Q20,Q21 ,Q22
TRANSISTO TRANSISTO TRANSISTO REGULATO REGULATO REGULATO MOSFET MOSFET MOSFET MOSFET
PHILIPS
PMBS3904
FAIRCHILD FAIRCHILD RICHTEK
NDS356AP NZT651 RT9641ACS AMS1117, AME1117ACGT
Q3,Q24
FAIRCHILD
RC1117ST
Q10,Q12 Q7,Q11 Q6,Q9
RICHTEK FAIRCHILD HARRIS PHILIPS FAIRCHILD
RT9230CS SSR3055LA HUF76107D3S PHB55N03LT FDS8936A FAIRCHILD NDS8936 VISHAY LL4148, PHILIPS BAS32L MICROSEMI SS12 PHILIPS PHD3055E
D1,D4,D5,D10,D13,D1 4,D15,D17
DIODE
VISHAY
LL4148-RF
D2,D6,D7,D8,D12,D18
DIODE DIODE
WILLAS MICROSEMI
SS12 SK32B (PCI) 'NYLON"
PCI1,PCI2,PCI3
SLOT
MOLEX
FOXCONN (PCI), ATMEL (PCI) FOXCONN 132PIN UNIVERSAL, TEKCON 132PIN UNIVERSAL FUJICOM 14.318MHZ (VERTICAL), 14.318MHZ (VERTICAL) 24.576MHZ(VE RTICAL)
AGP1
SLOT
MOLEX
132PIN UNIVERSAL
X'TAL
H.ELE
14.318MHZ (VERTICAL)
X'TAL
H.ELE
24.576MHZ(VER TICAL)
Intel® 815E Scalable Performance Board
Bill Materials
Table Bill Materials (Sheet
Rev. Reference Designator Description Manufacturer Manuf. Part Number Alternate Manufacturing Info EPSON 32.768KHZ, CITIZEN 32.768KHZ FOXCONN DIMM UNBUFFERED 168PIN 3.3V, TEKCON DIMM UNBUFFERED 168PIN 3.3V NYLON Changes
X'TAL
32.768KHZ
DIMM1,DIMM2,DIMM3
SOCKET
MOLEX
DIMM UNBUFFERED 168PIN 3.3V NYLON
JP1(1-2) BAT1 S1,JP3 WOL1
SOCKET SOCKET BUZZER HEAT SINK SWITCH JUMPER BATTERY SOCKET HEADER HEADER HEADER
FOXCONN FOXCONN HYPAK AAVID
ZIF(ANTIFLUX)NEW KC-1206 37.4*37.4*9.8mm +LATCH GREEN 2PIN (BLACK)
LOTES WAFER 3*1PIN PITCH WAFER 4*1PIN(CD-IN) PIN(CUT PIN1) 14x1 6,9,12 MISSING 14x1 3,8,11 MISSING WAFER 17*2 20*2PIN(F)
AUX1,CD2 IR1,SMB1,SMB2,JP5 USB2 COM2 FDC1
HEADER HEADER HEADER HEADER HEADER HEADER HEADER HEADER HEADER
Intel® 815E Scalable Performance Board
Bill Materials
Table Bill Materials (Sheet
Rev. Reference Designator IDE1,IDE2 FAN1,FAN2,FAN3 Description Manufacturer Manuf. Part Number WAFER 20*2PIN PIN20(?) MOLEX WAFER W/LOCK MINI CON.20PIN TEKCON MINI CON.20PIN(NE MOLEX CON. DUAL PORT(NEW), WIESON CON. DUAL PORT FOXCONN MINI-DIN 6Px2 DUAL PORTPC99 Alternate Manufacturing Info Changes
HEADER HEADER
ATXPR1
CON.
WIESON
USB1
CON.
FOXCONN
CON. DUAL PORT
KEYBOARD MOUSE
WIESON
MINI-DIN 6Px2 DUAL PORTPC99 WAFER 2.0m/m
CON.
CNRSLOT1
SLOT
FOXCONN
(CNR) D-SUB 15P(F)7+8/ PHONE*3-PC99 D-SUB 15PIN 3*5(S)-PC99 D-SUB 25PIN RISE HIGH PC99
MOLEX (CNR), (CNR)
JK1+JK2+JK3+J1
D-TYPE
FOXCONN
VGA1
D-TYPE
FOXCONN
TEKCON DSUB 15PIN 3*5(S)-PC99 TEKCON DSUB 25PIN RISE HIGH -PC99 WIESON DSUB 9PIN (MALE) -PC99, TEKCON DSUB 9PIN (MALE) -PC99 PANASONIC CR2032, SONY CR2032 CONVEX CONVEX CONVEX
LPT1
D-TYPE
WIESON
COM1
D-TYPE
FOXCONN
D-SUB 9PIN (MALE) -PC99
BAT1
BATTERY
MAXELL
CR2032 CONCAVE CONCAVE CONCAVE
RN74 RN36,RN37,RN38 RN70,RN71
Intel® 815E Scalable Performance Board
Bill Materials
Table Bill Materials (Sheet
Rev. Reference Designator RN19,RN20,RN69 RN34 RN3,RN5,RN6,RN7,RN 8,RN9,RN10, RN11,RN12,RN13,RN1 4,RN15,RN16,RN17,R N18,RN21,RN22,RN23, RN24,RN25,RN26,RN2 7,RN28,RN29,RN30,R N31,RN32,RN33 RN39,RN40 RN41,RN59 RN58,RN64,RN66 Description Manufacturer Manuf. Part Number CONCAVE CONCAVE CONCAVE Alternate Manufacturing Info CONVEX CONVEX CONVEX Changes
CONCAVE 2.2K CONCAVE 2.7K CONCAVE 2.7K (10P CONVEX (3216)R 4.7K CONCAVE 8.2K CONCAVE 8.2K CONVEX CONCAVE (0603)
CONVEX 2.2K CONVEX 2.7K CONVEX
RN4,RN60 RN42,RN43,RN44,RN4 5,RN46,RN48, RN49,RN51,RN54,RN5 5,RN75,RN77 RN72,RN73 R37,R38,R40,R166,R2 07,R237,R240, R256,R315,R326,R327 R36,R47,R48,R52,R60, R72,R141,R321, R322 R44,R50,R51,R62,R63, R104,R105,R251, R275 R45,R46,R49,R57,R58, R64,R65,R66, R67,R85,R87,R112,R1 13,R191,R236, R277,R290,R320 R91,R98,R316,R317 R231,R232
4.7K CONVEX
CONVEX
RESISTOR
RESISTOR RESISTOR
(0603) (0603)
RESISTOR
(0603)
RESISTOR RESISTOR RESISTOR RESISTOR
(0603) (0603) (0603) (0603)
Intel® 815E Scalable Performance Board
Bill Materials
Table Bill Materials (Sheet
Rev. Reference Designator R133,R142,R148,R154, R187,R230,R245 R1,R2,R5,R6,R7,R12,R 14,R15,R234,R243 R86,R238,R242 R185,R193 R8,R13,R199,R239 R16,R216 R3,R4,R10,R19,R53,R 73,R84,R100, R115,R116,R117,R120, R121,R122,R129, R134,R181,R188,R196, R197,R198,R212, R217,R252,R254,R314, R323,R324,R325, R336 R153 R28,R106,R108,R110, R119,R226,R246, R328,R329 R11,R54,R76,R79,R92, R93,R94,R95,R96, R97,R99,R101,R102,R 189,R218,R229 R75,R83,R88,R89,R90, R206,R211,R249, R260,R261,R262,R263, R276,R332-R335 R20,R70,R80,R107,R1 09,R147,R152, R157,R167,R208,R209, R214,R223,R233, R235,R241,R244,R255, R302,R303 R174,R190,R272,R273 R43,R126,R127,R128, R132,R247 R210 R192 R118,R124,R125,R155, R337 R266,R267 R164,R271 Description Manufacturer Manuf. Part Number (0603) (0603) (0603) (0603) (0603) (0603) (0603) Alternate Manufacturing Info Changes
RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR
RESISTOR
(0603)
RESISTOR RESISTOR RESISTOR
1.8K (0603) 2.2K (0603) 3.9K (0603)
RESISTOR
4.7K (0603)
RESISTOR
8.2K (0603)
RESISTOR
(0603)
RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR
(0603) (0603) (0603) (0603) 220K (0603) 330K (0603) 560K (0603)
Intel® 815E Scalable Performance Board
Bill Materials
Table Bill Materials (Sheet
Rev. Reference Designator R149,R162,R213 PR14 PR9,PR15,PR18,PR27 PR41 PR7,PR10,PR11,PR12, PR42 PR21,PR24 R33,R61 PR2,PR3 PR1,PR5 PR40 PR4,PR6,PR8,PR43 PR13 PR19 R318,R319 PR16,PR17,PR20,PR2 5,PR26 PR22,PR23,R32,R55 PR36,PR38,PR39 PR37 PR33,PR35,R42 PR32 PR34 Description RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR Manufacturer Manuf. Part Number (0603) (1%) 0603 (1%) 0603 (1%)0603 40.2 (1%)0603 60.4 (1%)0603 (1%)0603 (1%)0603 90.9 (1%)0603 (1%) 0603 0603 (1%)0603 (1%)0603 (1%)0603 (1%)0603 (0603) (0603) 1%(0603) 1.43K (1%)0603 (1%)0603 (1%)0603 56K(1%)0603 120K 1%(0603) 232K (0603) Alternate Manufacturing Info Changes
Intel® 815E Scalable Performance Board
Bill Materials
Table Bill Materials (Sheet
Rev. Reference Designator C11,C14,C26,C60,C64, C67,C71 BC26,BC28,BC29,BC3 2,BC33, BC46BC48,BC51,BC52,BC5 5,BC57, BC59,BC62,BC63,BC6 5,BC74,BC75, BC79,BC80,BC82,BC8 7,BC88, BC90BC98,BC105,BC114,B C119, BC124,BC144, BC147,BC149,BC150, BC158-BC160,BC169BC171, BC181BC183,BC186,BC187,B C222, BC226,C17,C85 C4,C7,C27,C119,BC1BC3,BC5, BC7BC25,BC27,BC30,BC3 BC34BC45,BC49,BC50,BC5 3,BC54, BC56,BC58,BC60,BC6 1,BC64,BC66, BC67,BC69BC73,BC76BC78,BC81, BC83BC86,BC89,BC99BC104, BC106BC113,BC115,BC116, BC121BC123,BC125,BC128, BC129,BC131,BC132,B C136, BC138BC140,BC142,BC143,B C145, BC168,BC172,BC173,B C175, BC177BC180,BC184,BC185,B C197, BC204BC218,BC221,BC227, MC51, MC52,MC55 BC68,BC223,BC224,B C225 C110 Description THERMISTO CAPACITOR Manufacturer Manuf. Part Number (0603) 0.001UF (0603) Alternate Manufacturing Info Changes
SEMITEC
CAPACITOR
0.01UF (0603)
CAPACITOR
0.1UF (0603)
CAPACITOR CAPACITOR
0.22UF (0603) 0.047UF (0603)
Intel® 815E Scalable Performance Board
Bill Materials
Table Bill Materials (Sheet
Rev. Reference Designator MC36,MC37,MC38,MC 39,MC40,MC41, MC42,MC43,MC44,MC 45,MC47,MC53, MC54,MC56,C5,C8,C1 3,C15,C18,C91, C104,C113 MC48,MC57,MC59,C1, C2,C115 MC1-MC6,MC8MC10,MC13-MC15 MC7,MC11,MC12,MC1 6,MC17,MC18, MC19,MC20,MC21,MC 22,MC23,MC24, MC25,MC26,MC27,MC 28,MC29,MC30, MC31,MC32,MC33,MC 34,MC35,MC46, MC60,MC61,MC62,MC 63,MC66 C43,C47,C50 C12,C16,C48,C53,C54, C56,C58,C99, C101 C33,C35,C102,C103 C36,C55,C57,C63,C65, C66,C68,C97,C98 C44,C51,C125,C126 C74,C75,C76,C79,C80, C81,C82,C83, C84,C86,C87,C90 C59,C62,C70,C73,C12 2,BC4 C69,C72 C94,C95 C118 CN2,CN3,CN9,CN11 CP1,CP2,CP3,CP4 CN1,CN8,CN10 EC6,EC11,EC20,EC40, EC41 Description Manufacturer Manuf. Part Number Alternate Manufacturing Info Changes
CAPACITOR
(0603)
CAPACITOR CAPACITOR
2.2UF (0805) 4.7UF(1206)"X7R
CAPACITOR
4.7UF(1206)"Y5V
CAPACITOR CAPACITOR CAPACITOR CAPACITOR CAPACITOR CAPACITOR CAPACITOR
3.3PF(0603) 10PF (0603) 15PF (0603) 18PF (0603) 22PF (0603) 47PF (0603) 100PF (0603)
CAPACITOR CAPACITOR CAPACITOR CAPACITOR TAYEH
470PF (0603) 560PF (0603) 2700PF (0603) 3300PF (0603) 100PF (1206) 47PF(8P4C)(1206 470PF (1206) 10UF/25V (4*7) JACKCON 10UF/25V (4*7)
Intel® 815E Scalable Performance Board
Bill Materials
Table Bill Materials (Sheet
Rev. Reference Designator EC3,EC26,EC27,EC28, EC33,EC35,EC36, EC5,EC10,EC15,EC17, EC18,EC19, EC22,EC30,EC39,C77, EC1,EC2,EC4,EC7,EC 8,EC9,EC12,EC13, EC14,EC21,EC23,EC2 4,EC25,EC29, EC31,EC32,EC34,C32 INDUCTOR INDUCTOR INDUCTOR INDUCTOR SPRAGUE TAYEH JACKCON JPCON GLOMAG GLOMAG MURATA GLOMAG 33UF/20V 1500UF/ 6.3V(8*16) 1500UF/ 6.3V(8*16) 1500UF/6.3V (8*16) IRON COIL 1UH(50MB) IRON COIL 2.5UH(5052) 4.7UH (0805) IRON COIL 7UH(5052B) POLY MSMC110-2 BEAD 241/ 100MHZ (0805) LL241 RAYCHEM POLY WSMDC100 BEAD 221/100MHZ (0805) Description Manufacturer Manuf. Part Number 22UF/16V (4*7) 100UF/16V (6.3*7) Alternate Manufacturing Info JACKCON 22UF/16V (4*7) JACKCON 100UF/16V (6*7) Changes
TAYEH
TAYEH
F1,F2,F4,F5,F6,F7
FUSE
BOURNS
FB1,FB2,FB3,FB4,FB5, FB6,FB8,FB11, FB12,FB13,FB14,FB15, FB16,FB17, FB19-FB29 VFB1,VFB2,VFB3,PFB 1,PFB2,PFB4, PFB5,PFB6,PFB11,PF B12,
INDUCTOR
TAIYO
INDUCTOR
MURATA
BEAD BLM11B750SPT( 0603)
CHIPSET (FWH)
INTEL
N82802AC8
Intel® 815E Scalable Performance Board
Bill Materials
Table Components Bill Materials
Rev. Description 815E Scalable Performance Board Development Baseboard Intel® Pentium® Processor with 256K Intel® CeleronProcessor with 128K Thermal Solution MHz, Mbyte, SDRAM DIMM Firmware BIOS Memory, PLCC32 Mbit) 15.3 Gbyte Hard disk drive BlueCat Linux Software (preinstalled HDD) Tornado 2.0/VxWorks ABIT SL-30 device driver Intel® Pro/100+ Management Adapter (Fast Ethernet Controller) Manufacturer ABIT Intel Intel Agilent Technologies SpecTek Intel Western Digital LynuxWorks Wind River Systems ABIT Intel Part EIAP3815EDEVKIT RB80526PY866256 RB80526RY850128 Arcti-Cooler, HACA-0001 P16M648YLDC9-133CL3A N82802AC8 WD153AA TEV-13720-ZC-00 SA-1.00E PILA8460B
NOTE: *This does include items such mounting hardware, packaging material, documentation, etc.
Intel® 815E Scalable Performance Board
Schematics
Schematics provided following items listed below. Schematics available from Intel Developer's site format.
Block diagram PGA370 Part AGTL Termination Clock Synthesizer GMCH Part DIMM DIMM Part Video Connector UDMA100 AC97 CODEC Audio Controller FDCL WOR, 2S1P GAME, Front Panel Power Monitor Voltage Regulator Part Voltage Regulator Part System Configuration PU/PDR unused gates Decoupling capacitors
Intel® 815E Scalable Performance Board
INTEL(R) PENTIUM(R) CELERON(TM) PROCESSOR(PPGA)/815E CHIPSET UNIPROCESSOR ABIT SCHEMATICS
REVISION 0.12
TITLE COVER SHEET BLOCK DIAGRAM 12,13
PAGE
PGA370 PART AGTL TERMINATION CLCOK STNTHESIZER GMCH PART DIMM DIMM PART LEFT BLANK VIDEO CONNECTOR UDMA100 AC97 CODEC AUDIO CONTROLLER FDCL WOR, 2S1P GAME FRONT PANEL POWER MONITOR VOLTAGE REGULATOR PART VOLTAGE REGULATOR PART SYSTEM CONFIGURATION PU/PDR UNUSED GATES DECOUPLING CAPACITORS HISTORY
ABIT Computer Corp. Title
COVER SHEET
Size Date:
Document Number
ABIT SL30
**PLEASE NOTE THESE SCHEMATICS SUBJECT CHANGE
AB-SL30 V0.12
Wednesday, March 2000 Sheet
BLOCK DIAGRAM
CLOCK
CTRL DATA ADDR
370-PIN SOCKET PROCESSOR
Term.
CTRL
DATA
ADDR
Connector
GMCH
Digital Video Device
DIMM Modules
Primary
CNTRL UDMA/100 ADDR/DATA
CONN3
CONN
CONN
Secondary
ICH2
PORT
FirmWare
AC'97 LINK
&RQQHFWRU
Audio Codec
ABIT Computer Corp.
Floopy Mouse
Game Port
Keyboard
Title
Serial
Serial
Parallel
Size Date:
BLOCK DIAGRAM
Document Number
ABIT SL30
AB-SL30 V0.12
Wednesday, March 2000 Sheet
VCCVID HA#[3.31] HA#[3.31] HD#[0.63] HD#[0.63]
AM12 AJ13 AM16 AJ17 AM20 AJ21 AM24 AJ25 AM28 AJ29 AK34 AM32 AH32 AF34 AB34 AH36 AD32 AH24 AA37
VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID VCCVID
Socket Part
HA#3 HA#4 HA#5 HA#6 HA#7 HA#8 HA#9 HA#10 HA#11 HA#12 HA#13 HA#14 HA#15 HA#16 HA#17 HA#18 HA#19 HA#20 HA#21 HA#22 HA#23 HA#24 HA#25 HA#26 HA#27 HA#28 HA#29 HA#30 HA#31 HA#32 HA#33 HA#34 HA#35 VID0 VID1 VID2 VID3 HREQ#0 HREQ#1 HREQ#2 HREQ#3 HREQ#4 22,27 22,27 22,27 22,27
AH12 AL15 AH10 AK10 AK14
HA#3 HA#4 HA#5 HA#6 HA#7 HA#8 HA#9 HA#10 HA#11 HA#12 HA#13 HA#14 HA#15 HA#16 HA#17 HA#18 HA#19 HA#20 HA#21 HA#22 HA#23 HA#24 HA#25 HA#26 HA#27 HA#28 HA#29 HA#30 HA#31
HD#0 HD#1 HD#2 HD#3 HD#4 HD#5 HD#6 HD#7 HD#8 HD#9 HD#10 HD#11 HD#12 HD#13 HD#14 HD#15 HD#16 HD#17 HD#18 HD#19 HD#20 HD#21 HD#22 HD#23 HD#24 HD#25 HD#26 HD#27 HD#28 HD#29 HD#30 HD#31 HD#32 HD#33 HD#34 HD#35 HD#36 HD#37 HD#38 HD#39 HD#40 HD#41 HD#42 HD#43 HD#44 HD#45 HD#46 HD#47 HD#48 HD#49 HD#50 HD#51 HD#52 HD#53 HD#54 HD#55 HD#56 HD#57 HD#58 HD#59 HD#60 HD#61 HD#62 HD#63 VID0 VID1 VID2 VID3 GND/VID4 REQ#0 REQ#1 REQ#2 REQ#3 REQ#4 DEP0# DEP1# DEP2# DEP3# DEP4# DEP5# DEP6# DEP7# AL35 AM36 AL37 AJ37 AK36 AK18 AH16 AH18 AL19 AL17 VTT1_5 VTT1_5 VTT1_5 VTT1_5 VTT1_5 VTT1_5 VTT1_5 VTT1_5 VTT1_5 VTT1_5 VTT1_5 VTT1_5 VTT1_5 VTT1_5 VTT1_5 VTT1_5 AF36 AC33 AH20 AK16 AL21 AN11 AN15 AL13 AN21 AA35 AA33
HD#0 HD#1 HD#2 HD#3 HD#4 HD#5 HD#6 HD#7 HD#8 HD#9 HD#10 HD#11 HD#12 HD#13 HD#14 HD#15 HD#16 HD#17 HD#18 HD#19 HD#20 HD#21 HD#22 HD#23 HD#24 HD#25 HD#26 HD#27 HD#28 HD#29 HD#30 HD#31 HD#32 HD#33 HD#34 HD#35 HD#36 HD#37 HD#38 HD#39 HD#40 HD#41 HD#42 HD#43 HD#44 HD#45 HD#46 HD#47 HD#48 HD#49 HD#50 HD#51 HD#52 HD#53 HD#54 HD#55 HD#56 HD#57 HD#58 HD#59 HD#60 HD#61 HD#62 HD#63
AM34 AM10 AJ11 AM14 AJ15 AM18 AJ19 AM22 AJ23 AM26 AJ27 AM30 AF32 AB32 AH34 AD34
RS#0 RS#1 RS#2
AH26 AH22 AK28
RS#0 RS#1 RS#2
Socket 370_9
ABIT Computer Corp. Title
PGA370 PART
Size Date:
Document Number
ABIT SL30
AB-SL30 V0.12
Wednesday, March 2000 Sheet
VTT1_5 VCMOS GTLREF VCC2_5 R199 2.7K AB36 AD36 AK12 AK22 0.1UF VTT1_5 V3SB V3SB GTLREF
VCC2_5
VCMOS Decouping
Place 0603 Paclage near VCMOS Processor
R314
VREF0 VREF1 VREF2 VREF3 VREF4 VREF5 VREF6 VREF7
HEADER 15X2
DBRESET#
R315
R316 R317 R318 PREQ# PRDY#
AN35 AN37 AN33 AL33 AK32 TRST# BNR# BPRI# TRDY# DEFER# LOCK# DRDY# HITM# HIT# DBSY# ADS# FLUSH# BSEL0# BSEL1# RSRVD12/JBSEL1# AN29 AL31 AL29 AH28 AJ33 AJ31 AK30 V_CMOS V1_5 V2_5
AH14 AN17 AN25 AN19 AK20 AN27 AL23 AL25 AL27 AN31 AE37
BNR# BPRI# HTRDY# DEFER# HLOCK# DRDY# HITM# HIT# DBSY# HADS# BSEL#0 BSEL#1 BR0# VTIN2 THRMDN
22,26 22,26
ITPCLK
BP2# BP3# BPM0# BPM1#
Socket Part2
BR0# THRMDP THRMDN THERMTRIP#
ITPRDY#
RSRVD6 RSRVD7 RSRVD8 RSRVD9 RSRVD10 RSRVD11
VTT1_5
VCCVID
VTT1_5
R319
RSRVD13 RSRVD15 RSRVD16 RSRVD17 RSRVD18 RSRVD19 RSRVD20 RESVD21(BR1#) A20M# STPCLK# SLP# SMI# LINT0/INTR LINT1/NMI INIT# FERR# IGNNE# IERR# PLL1 PLL2 RSP# AP0# AP1#
AE33 AG35 AH30 AJ35 AG33 AC35 AG37 AE35 VCC3_3 BINIT# AERR# BERR# AK24 SLEWCNTR RTTCNTR VCOREDET AC37 AL11 AN13 AN23 33UF,20% 4.7UH/SMD-0805
A20M# STPCLK# CPUSLP# SMI# INTR INIT# FERR# IGNNE# VCCVID
12,18
APICD0 APICD1 APICCLK_CPU CPUHCLK PICD0 PICD1 PICCLK BCLK CLKREF PWRGOOD RESET# RESET2# EDGCTRL/VRSEL CPUPRES# Socket 370_9
CPU_PWGD CPURST#
AK26
VCC2_5
R275 4.7UF 10PF 75,1% 0.1UF X18PF Place Site w/in 0.5" clock (W37) VTT1_5
VCOREDET
150,1%
stuff
GTLREF Generation Circuit
0603 Packages distribute within miles Mendocino GTLREF Inputs every inputs
110,%1
110,%1 BSEL#1 GTLREF BSEL#0 100M rsvd 133M
150,1%
BC18 150,1% 0.1UF BC17 0.1UF BC16 0.1UF BC12 0.1UF Title ABIT Computer Corp.
PGA370 PART
Size Date:
Document Number
ABIT SL30
AB-SL30 V0.12
Wednesday, March 2000 Sheet
VTT1_5 DEFER# HREQ#2 HLOCK# RS#1 HD#15 HD#1 HD#0 HD#6 GD19 GD20 GD21 GD22 GD23 GD24 GD25 GD26 GD27 HD#59 HD#48 HD#52 HD#40 RN12
VTT1_5
VTT1_5
VTT1_5
RN30
RN27
HA#23 HA#17 HA#22 HA#31
HITM# HTRDY# HIT# RS#0
56/8P4R RN31 HD#8 HD#5 HD#9 HD#4 HD#56 HD#61 HD#62 HD#60
HA#19 HA#21 HA#25 HA#10
56/8P4R RN26
56/8P4R
56/8P4R
DRDY# DBSY# RS#2 HADS# Socket 370_9 HREQ#4 BPRI# HREQ#0 HREQ#3
56/8P4R RN33 HD#23 HD#21 HD#16 HD#24 HD#50 HD#53 HD#58 HD#46
HA#13 HA#16 HA#3 HA#9
56/8P4R RN22
56/8P4R
56/8P4R
GD10 GD11 GD12 GD13 GD14 GD15 GD16 GD17 GD18
GD28 GD29 GD30 GD31 GD32 GD33 GD34 GD35 GD36
56/8P4R ITPRDY# HD#42 HD#27 HD#44 HD#45
56/8P4R RN29 HD#3 HD#12 HD#10 HD#17 HD#54 HD#55 HD#57 HD#63
HA#30 HA#24 HA#20
56/8P4R RN25
56/8P4R
56/8P4R RN14
HEATSINK GROUNDING
56/8P4R RN32 HD#7 HD#30 HD#20 HD#13
HA#28 HA#15 HA#12 HA#5
56/8P4R RN23
56/8P4R RN11
BR0# HD#[0.63] HD#[0.63] HA#[3.31] HD#43 HD#34 HD#28 HD#22 HA#[3.31]
56/8P4R RN16 HD#11 HD#14 HD#2 HD#18 HD#47 HD#41 HD#49 HD#51
HA#14 HA#7
BNR#
HREQ#1
56/8P4R RN24
56/8P4R RN10
56/8P4R RN18 HD#33 HD#25 HD#26 HD#19
HA#6 HA#8 HA#11 HA#4
56/8P4R RN21
56/8P4R RN15
56/8P4R RN28 HD#29 HD#31 HD#35 HD#32 HD#39 HD#37 HD#36 HD#38
HA#18 HA#26 HA#29 HA#27
AGTL Termination
56/8P4R
56/8P4R RN17
56/8P4R RN13
56/8P4R
56/8P4R
VTT1_5
each R-Pack
MC23
0.1UF 0.1UF 0.1UF 0.1UF 0.1UF 0.1UF 0.1UF 0.1UF 0.1UF
MC22
BC34
BC35
BC36
BC37
BC38
BC24
BC23
BC14
BC22
BC15
BC13
0.1UF
0.1UF
4.7UF
4.7UF
0.1UF
0.1UF
0.1UF
0.1UF
ABIT Computer Corp. Title
AGTL TERMINATION
Size Date:
Document Number
ABIT SL30
AB-SL30 V0.12
Wednesday, March 2000 Sheet
VCC3SBY VCC3SBY BC32 BC31 BEAD R249 8.2K
0.01UF 0.1UF
BC55
0.01UF
PFB4 MC18 4.7UF USBV3
PFB2
BEAD
BC56
0.1UF
VCC3SBY VCC3SBY MC20 BEAD 4.7UF 4.7UF MC19 MC29 BC62 BC61 BC57 BC58 BC59 BC60 4.7UF
0.01UF 0.1UF 0.01UF 0.1UF 0.01UF 0.1UF 0.01UF 0.1UF 0.01UF 0.1UF 0.01UF 0.1UF 0.01UF 0.1UF 0.01UF 0.1UF
BC226 BC227 BC28 BC27 BC29 BC30 BC33 BC21 BC63 BC64
PFB5 PCIV3 MEMV3
PFB1
BEAD
MC28
4.7UF
VCC2_5
PFB11 L_VCC2_5
BEAD
0.1UF 0.01UF
MC21 BC25 BC26
18PF
4.7UF VDDA 14.318MHZ 3V66-0 3V66-1 3V66-2 PCICLK0 PCICLK1 SCLK SDATA SDRAM12 48MHZ_0 48MHZ_1 GNDL GNDL ICS9250-28 SDRAM8 SDRAM9 SDRAM10 SDRAM11 SDRAM4 SDRAM5 SDRAM6 SDRAM7 R290 SDRAM0 SDRAM1 SDRAM2 SDRAM3
18PF
FMOD1 REF0
VDDL VDDL
R320
ITPCLK
CPUCLK_0 CPUCLK_1 IOAPIC
ICH_CLK14 ICH_3V66 GMCH_3V66 AGPCLK_CONN
MEMCLK0 MEMCLK1 MEMCLK2 MEMCLK3 MEMCLK4 MEMCLK5 MEMCLK6 MEMCLK7 MEMCLK8 MEMCLK9 MEMCLK10 MEMCLK11
CPUHCLK GMCHHCLK APICCLK_CPU APICCLK_ICH
PCLK_0/ICH
FMOD0
13,22,28 SLP_S3# 9,10,13,22,25,30 SMBCLK 9,10,13,22,25,30 SMBDATA
X10PF X10PF X10PF
RN19 RN20
22/8P4R 22/8P4R
DCLK_WR USBCLK DOTCLK SIO_CLK24 MEMCLK[0.7]
X10PF
MEMCLK[0.7]
X10PF
X10PF
X10PF
X10PF
C133
X10PF X10PF
X10PF
X10PF
MEMCLK[8.11]
X10PF
MEMCLK[8.11]
VCC3_3 BEAD R302 4.7UF PCLK_REF CLKA1 CLKA2 CLKA3 CLKA4
0.1UF 0.01UF
PFB12 MC66 BC221 BC222 R303 RN34 33/8P4R R277 CLKOUT ICS9112B-17 X10P/8P4C
X10PF X10PF X10PF X10PF
PCLK_1 PCLK_2 PCLK_3 PCLK_7
MEMCLK0 MEMCLK1 MEMCLK2 MEMCLK3
MEMCLK4 MEMCLK5 MEMCLK6 MEMCLK7
MEMCLK8 MEMCLK9 MEMCLK10 MEMCLK11
CLKB1 CLKB2 CLKB3 CLKB4
R312
PCLK_8
C120 X10P/8P4C
X10PF
X10P/8P4C
C132
X18PF
ABIT Computer Corp. Title
CLOCK SYNTHESIZER
Size Date: Document Number
ABIT SL30
AB-SL30 V0.12
Wednesday, March 2000 Sheet
VTT1_5 SM_MAB#[4.7] HD#[0.63] HD#[0.63] 9,10 SM_MAA[0.12] SM_MD[0.63] 9,10 SM_MAA[0.12] SM_MD[0.63] SM_MAB#[4.7]
SM_MAC#[4.7]
SM_MAC#[4.7]
Place close GMCH
BC72 VCC3SBY
BC73
0.1UF
0.1UF
BC188 X0.1UF X0.1UF BC190
GTLREF
AA10 BC191 X0.1UF
GTLREFA GTLREFB
BC189 X0.1UF
SM_MAA0 SM_MAA1 SM_MAA2 SM_MAA3 SM_MAA4 SM_MAA5 SM_MAA6 SM_MAA7 SM_MAA8 SM_MAA9 SM_MAA10 SM_MAA11 SM_MAA12 SMAA0 SMAA1 SMAA2 SMAA3 SMAA4 SMAA5 SMAA6 SMAA7 SMAA8 SMAA9 SMAA10 SMAA11 SMAA12 SMAB#4 SMAB#5 SMAB#6 SMAB#7 SMAC4 SMAC5 SMAC6 SMAC7 SBS0 SBS1 SM_MAB#4 SM_MAB#5 SM_MAB#6 SM_MAB#7 SM_MAC#4 SM_MAC#5 SM_MAC#6 SM_MAC#7 RN36 9,10 9,10 SM_BS0 SM_BS1 10/8P4R RN38 RN37 10/8P4R 10/8P4R
GMCHHCLK 17,18,22,30 PCIRST# CPURST# HLOCK# DEFER# HADS# BNR# BPRI# DBSY# DRDY# HIT# HITM# HTRDY#
HCLK RESET# CPURST# HLOCK# DEFER# ADS# BNR# BPRI# DBSY# DRDY# HIT# HITM# HTRDY#
Backside decouping should placed under chipset memory signal field
HA#[3.31]
HA#[3.31]
VDDQ
SM_CSA#0 SM_CSA#1 SM_CSA#2 SM_CSA#3 SM_CSA#4 SM_CSA#5 SCSA#0 SCSA#1 SCSA#2 SCSA#3 SCSA#4 SCSA#5 SCSB#0 SCSB#1 SCSB#2 SCSB#3 SCSB#4 SCSB#5 SRAS# SCAS# SWE# SM_CSB#0 SM_CSB#1 SM_CSB#2 SM_CSB#3 SM_CSB#4 SM_CSB#5 9,10 9,10 9,10 SM_RAS# SM_CAS# SM_WE#
BC192 X0.1UF
BC193 X0.1UF
BC194 X0.1UF
BC195 X0.1UF
Backside decouping should placed under chipset signal field
SM_WE# SM_CAS# SM_MAA9
8.2K 8.2K 8.2K X10K SM_MAA10
R_BSEL#0 R_REFCLK VCOREDET
HA#3 HA#4 HA#5 HA#6 HA#7 HA#8 HA#9 HA#10 HA#11 HA#12 HA#13 HA#14 HA#15 HA#16 HA#17 HA#18 HA#19 HA#20 HA#21 HA#22 HA#23 HA#24 HA#25 HA#26 HA#27 HA#28 HA#29 HA#30 HA#31 SM_CKE0 SM_CKE1 SM_CKE2 SM_CKE3 SM_CKE4 SM_CKE5 SCKE0 SCKE1 SCKE2 SCKE3 SCKE4 SCKE5 SCLK RESVD 9,10 SM_DQM[0.7] DCLK_WR
HA#3 HA#4 HA#5 HA#6 HA#7 HA#8 HA#9 HA#10 HA#11 HA#12 HA#13 HA#14 HA#15 HA#16 HA#17 HA#18 HA#19 HA#20 HA#21 HA#22 HA#23 HA#24 HA#25 HA#26 HA#27 HA#28 HA#29 HA#30 HA#31
SM_DQM[0.7] SM_DQM0 SM_DQM1 SM_DQM2 SM_DQM3 SM_DQM4 SM_DQM5 SM_DQM6 SM_DQM7 22PF 40,1%
HREQ#0 HREQ#1 HREQ#2 HREQ#3 HREQ#4
HREQ#0 HREQ#1 HREQ#2 HREQ#3 HREQ#4
HREQ#0 HREQ#1 HREQ#2 HREQ#3 HREQ#4
X10K
SM_RAS#
RS#0 RS#1 RS#2 VCC3SBY
RS#0 RS#1 RS#2
RS#0 RS#1 RS#2
HD#0 HD#1 HD#2 HD#3 HD#4 HD#5 HD#6 HD#7 HD#8 HD#9 HD#10 HD#11 HD#12 HD#13 HD#14 HD#15 HD#16 HD#17 HD#18 HD#19 HD#20 HD#21 HD#22 HD#23 HD#24 HD#25 HD#26 HD#27 HD#28 HD#29 HD#30 HD#31 HD#32 HD#33 HD#34 HD#35 HD#36 HD#37 HD#38 HD#39 HD#40 HD#41 HD#42 HD#43 HD#44 HD#45 HD#46 HD#47 HD#48 HD#49 HD#50 HD#51 HD#52 HD#53 HD#54 HD#55 HD#56 HD#57 HD#58 HD#59 HD#60 HD#61 HD#62 HD#63 SDQM0 SDQM1 SDQM2 SDQM3 SDQM4 SDQM5 SDQM6 SDQM7 SRCOMP Solano
AD11 AD10 AF12 AB11 AB10 AC10 AF10 AD14 AD12 AB12 AE11 AE15 AF11 AF13 AB14 AF14 AB13 AB15 AE13 AC14 AD13 AD15 AF16 AF15 AC12 SMD0 SMD1 SMD2 SMD3 SMD4 SMD5 SMD6 SMD7 SMD8 SMD9 SMD10 SMD11 SMD12 SMD13 SMD14 SMD15 SMD16 SMD17 SMD18 SMD19 SMD20 SMD21 SMD22 SMD23 SMD24 SMD25 SMD26 SMD27 SMD28 SMD29 SMD30 SMD31 SMD32 SMD33 SMD34 SMD35 SMD36 SMD37 SMD38 SMD39 SMD40 SMD41 SMD42 SMD43 SMD44 SMD45 SMD46 SMD47 SMD48 SMD49 SMD50 SMD51 SMD52 SMD53 SMD54 SMD55 SMD56 SMD57 SMD58 SMD59 SMD60 SMD61 SMD62 SMD63
HD#0 HD#1 HD#2 HD#3 HD#4 HD#5 HD#6 HD#7 HD#8 HD#9 HD#10 HD#11 HD#12 HD#13 HD#14 HD#15 HD#16 HD#17 HD#18 HD#19 HD#20 HD#21 HD#22 HD#23 HD#24 HD#25 HD#26 HD#27 HD#28 HD#29 HD#30 HD#31 HD#32 HD#33 HD#34 HD#35 HD#36 HD#37 HD#38 HD#39 HD#40 HD#41 HD#42 HD#43 HD#44 HD#45 HD#46 HD#47 HD#48 HD#49 HD#50 HD#51 HD#52 HD#53 HD#54 HD#55 HD#56 HD#57 HD#58 HD#59 HD#60 HD#61 HD#62 HD#63
SM_MD0 SM_MD1 SM_MD2 SM_MD3 SM_MD4 SM_MD5 SM_MD6 SM_MD7 SM_MD8 SM_MD9 SM_MD10 SM_MD11 SM_MD12 SM_MD13 SM_MD14 SM_MD15 SM_MD16 SM_MD17 SM_MD18 SM_MD19 SM_MD20 SM_MD21 SM_MD22 SM_MD23 SM_MD24 SM_MD25 SM_MD26 SM_MD27 SM_MD28 SM_MD29 SM_MD30 SM_MD31 SM_MD32 SM_MD33 SM_MD34 SM_MD35 SM_MD36 SM_MD37 SM_MD38 SM_MD39 SM_MD40 SM_MD41 SM_MD42 SM_MD43 SM_MD44 SM_MD45 SM_MD46 SM_MD47 SM_MD48 SM_MD49 SM_MD50 SM_MD51 SM_MD52 SM_MD53 SM_MD54 SM_MD55 SM_MD56 SM_MD57 SM_MD58 SM_MD59 SM_MD60 SM_MD61 SM_MD62 SM_MD63
X18PF
Host Interface
Stuff Place Site w/in 0.5" clock ball(v6)
SYSTEM MEMORY
Host Freq P-MOS Host Freq FREQ
HI=100 LO=66 Kicker HI=NON-Cu LO=Cu HI=133 LO=100/66 HI=133 LO=100
SM_CKE[0.3] SM_CKE[4.5] SM_CSA#[0.3] SM_CSA#[4.5] SM_CSB#[0.3] SM_CSB#[4.5]
SM_CKE[0.3] SM_CKE[4.5] SM_CSA#[0.3] SM_CSA#[4.5]
SM_WE# SM_MAA9 SM_CAS# SBA7 SM_BS0 SM_BS1 SM_MAA10 SM_MAA11 SM_MAA12 SM_RAS#
SM/LM muxing strap active ALLZ LO=ALLZ HI=Normal depth HI=4 LO=1 Slot Socket HI=Socket LO=SC242 chain LO=XOR HI=Normal
ABIT Computer Corp. Title SM_CSB#[0.3] SM_CSB#[4.5] Size Date:
GMCH PART
Document Number
ABIT SL30
AB-SL30 V0.12
Wednesday, March 2000
Sheet
SBA[0.7] SBA[0.7] HL[0.10] VDDQ VCC3SBY VCC1_8 AD16 AF17 AE17 AD17 AF18 AD18 AF20 AD20 AC20 AF21 AE21 AD21 AB19 AC18 AE19 AF19 AC16 AB17 FTBLNK# SL_STALL FTCLK0 FTCLK1 FTVSYNC FTHSYNC 3VFTSCL 3VFTSDA AB21 AA20 LTVDATA0 LTVDATA1 LTVDATA2 LTVDATA3 LTVDATA4 LTVDATA5 LTVDATA6 LTVDATA7 LTVDATA8 LTVDATA9 LTVDATA10 LTVDATA11 BLANK# TVCLKIN/SL_STALL CLKOUT0 CLKOUT1 TVVSYNC TVHSYNC LTVCK LTVDA FTD0 FTD1 FTD2 FTD3 FTD4 FTD5 FTD6 FTD7 FTD8 FTD9 FTD10 FTD11 FTD[0.11] HL[0.10] FTD[0.11]
GAD[0.31]
GAD[0.31]
DDDA DDCK R251 DOTCLK 10PF AF22 AF23 AD22 AE22 AE23 CRT_VSYNC CRT_HSYNC VID_RED VID_GREEN VID_BLUE Stuff Place Site w/in 0.5" clock ball(AA21) GMCH_3V66 VCC1_8 PR18 DCLKREF IWASTE IREF AE24 AD23 AA21 AF26 AF25 VCC1_8 VCC1_8 VCC1_8 VCC1_8 VCC1_8
GAD0 GAD1 GAD2 GAD3 GAD4 GAD5 GAD6 GAD7 GAD8 GAD9 GAD10 GAD11 GAD12 GAD13 GAD14 GAD15 GAD16 GAD17 GAD18 GAD19 GAD20 GAD21 GAD22 GAD23 GAD24 GAD25 GAD26 GAD27 GAD28 GAD29 GAD30 GAD31 AA18 AB18 3VDDCDA 3VDDCCL AA11 AA13 AA15 AA17 AA19 AB16 AB20 AC22 AD19 VCC_1.8 VCC_1.8 VCC_1.8 VCC_1.8 VCC_1.8 VCC_1.8 VCC_1.8 VCC_1.8 VCC_1.8 VCC_1.8 VCC_1.8 VCC_1.8 VCC_1.8 VCC_1.8 VCC_1.8 VCC_1.8 VCC_1.8 VCC_1.8 VCC_1.8 VCC_1.8 VCC_1.8 VCC_1.8 VCC_1.8 VCC_1.8 VCC_1.8 Solano VSYNC HSYNC GREEN BLUE AA23 AA25
GAD0/LDQM0 GAD1/LMD4 GAD2/LMD7 GAD3/LMD3 GAD4/LMD6 GAD5/LMD2 GAD6/LMD5 GAD7/LMD1 GAD8/LMD0 GAD9/LMA4 GAD10/LDQM1 GAD11/LMA2 GAD12/LMD8 GAD13/LMA5 GAD14/LMD9 GAD15/LMA1 GAD/16/LMA8 GAD17/LMD14 GAD18/LMA11 GAD19/LMD15 GAD20/LMA9 GAD21/LMD16 GAD22/LCS# GAD23/LMD17 GAD24/LCKE GAD25/LMD18 GAD26/LCAS# GAD27/LMD19 GAD28/LTCLK1 GAD29/LMD20 GAD30/LTCLK0 GAD31/LMD21
GCBE#0 GCBE#1 GCBE#2 GCBE#3
GCBE#0/LMA3 GCBE#1/LMD10 GCBE#2/LMD13 GCBE#3/LRDS#
VDDQ
40,1% Place Close possible GMCH
GFRAME# GDEVSEL# GIRDY# GTRDY# GSTOP# GPAR GREQ# GGNT# PIPE#
AE26 AD25 AC26
GFRAME#/LMA10 GDEVSEL#/LMD11 GIRDY#/LMD12 GTRDY#/LMA7 GSTOP#/LMA0 GPAR/LMA6 GREQ#/LMD27 GGNT# PIPE#/LMD24
HL10 HLSTB HLSTB# VCC1_8
600PF PR21 82,1% PR23 1K,1% GMCH_AGPREF PR24 82,1% 600PF AF24 AE25 PR22 1K,1%
ADSTB0 ADSTB0# ADSTB1 ADSTB1# SBSTB SBSTB#
AA24
ADSTB0 ADSTB0# ADSTB1 ADSTB1# SBSTB SBSTB#
HCLK HL10 HUBREF HLSTB HLSTB# HCOMP
VCC3SBY VCC3SBY VCC3SBY VCC3SBY VCC3SBY VCC3SBY VCC3SBY VCC3SBY VCC3SBY VCC3SBY VCC3SBY VCC3SBY VCC3SBY VCC3SBY VCC3SBY VCC3SBY VCC3SBY VCC3SBY
PR16 301,1%
AD24 AC24 AC23
ST0/LMD28 ST1/LDQM3 ST2/LMD29
RBF# WBF# CONN_AGPREF
SBA0/LMD31 SBA1/LMD25 SBA2/LDQM2 SBA3/LMD26 SBA4/LMD23 SBA5/LWE# SBA6/LMD22 SBA7/LGM_FREQ_SEL
AB22 AB25 AB23 AB26 AA22 AA26 SBA0 SBA1 SBA2 SBA3 SBA4 SBA5 SBA6 SBA7
VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ
PR14 PR13 174,1%
15.1%
AD26 AB24 OCLK RCLK BC90 0.01UF Solano
PR15
RBF#/LMD30 WBF# AGPREF GRCOMP OCLOCK RCLOCK
PR17 301,1%
BC89
40,1%
Solano
AC11 AC13 AC15 AC17 AC19 AC21 AC25 AE10 AE12 AE14 AE16 AE18 AE20 AA12 AA14 AA16
0.1UF
15PF/5%,MPO
Display Cache, Video, Interface
Power Ground
NOTE
OCLK 0.5" RCLK 1.5"
Place close Possible GMCH straight plane
Place close Possible GMCH straight plane
ABIT Computer Corp. Title
GMCH PART
Size Date:
Document Number
ABIT SL30
AB-SL30 V0.12
Wednesday, March 2000 Sheet
VCC3SBY DIMM1 DIMM2
VCC3SBY
VCC3SBY
VCC3SBY
7,10 SM_MAA[0.12]
SM_MAA[0.12] SM_MD32 SM_MD33 SM_MD34 SM_MD35 SM_MD0 SM_MD1 SM_MD2 SM_MD3 SM_MD32 SM_MD33 SM_MD34 SM_MD35
7,10 SM_MD[0.63]
SM_MD[0.63]
SM_MD0 SM_MD1 SM_MD2 SM_MD3
SM_MAB#[4.7]
SM_MAB#[4.7]
7,10 SM_DQM[0.7]
SM_DQM[0.7]
MEMCLK[0.7]
MEMCLK[0.7]
SM_MD4 SM_MD5 SM_MD6 SM_MD7 SM_MD8 SM_MD36 SM_MD37 SM_MD38 SM_MD39 SM_MD40 SM_MD4 SM_MD5 SM_MD6 SM_MD7 SM_MD8 SM_MD36 SM_MD37 SM_MD38 SM_MD39 SM_MD40
SM_CKE[0.3]
SM_CKE[0.3]
SM_CSA#[0.3]
SM_CSA#[0.3]
SM_CSB#[0.3] SM_MD46 SM_MD47 SM_MD14 SM_MD15 SM_MD46 SM_MD47
SM_CSB#[0.3]
SM_MD9 SM_MD10 SM_MD11 SM_MD12 SM_MD13
SM_MD41 SM_MD42 SM_MD43 SM_MD44 SM_MD45 SM_MD9 SM_MD10 SM_MD11 SM_MD12 SM_MD13
SM_MD41 SM_MD42 SM_MD43 SM_MD44 SM_MD45
7,10
SM_WE#
SM_WE#
SM_MD14 SM_MD15
7,10
SM_RAS#
SM_RAS#
7,10
SM_CAS#
SM_CAS#
7,10 SM_CAS# SM_DQM4 SM_DQM5 SM_CSA#1 SM_RAS# SM_WE# SM_DQM0 SM_DQM1 SM_CSA#2 SM_MAA0 SM_MAA2 SM_MAB#4 SM_MAB#6 SM_MAA8 SM_MAA10 SM_BS1 MEMCLK4 SM_CSB#2 SM_DQM2 SM_DQM3 SM_MAA1 SM_MAA3 SM_MAB#5 SM_MAB#7 SM_MAA9 SM_BS0 SM_MAA11 MEMCLK5 SM_MAA12 SM_CKE2 SM_CSB#3 SM_DQM6 SM_DQM7 SM_MAA1 SM_MAA3 SM_MAA5 SM_MAA7 SM_MAA9 SM_BS0 SM_MAA11 MEMCLK1 SM_MAA12 SM_CKE0 SM_CSB#1 SM_DQM6 SM_DQM7 SM_CAS# SM_DQM4 SM_DQM5 SM_CSA#3 SM_RAS#
SM_BS0
SM_BS0
7,10
SM_BS1
SM_BS1
6,10,13,22,25,30 SMBDATA 6,10,13,22,25,30 SMBCLK
SMBDATA SMBCLK
SM_WE# SM_DQM0 SM_DQM1 SM_CSA#0
SM_MAA0 SM_MAA2 SM_MAA4 SM_MAA6 SM_MAA8 SM_MAA10 SM_BS1
MEMCLK0
SM_CSB#0 SM_DQM2 SM_DQM3
VCC3SBY 2.2K
SM_MD16 SM_MD17 SM_MD18 SM_MD19 SM_MD52 SM_MD20 SM_CKE3 SM_MD53 SM_MD54 SM_MD55 SM_MD21 SM_MD22 SM_MD23 SM_MD24 SM_MD25 SM_MD26 SM_MD27 SM_MD28 SM_MD29 SM_MD30 SM_MD31 MEMCLK6 SMBDATA SMBCLK SM_MD56 SM_MD57 SM_MD58 SM_MD59 SM_MD60 SM_MD61 SM_MD62 SM_MD63 MEMCLK3
SM_MD48 SM_MD49 SM_MD50 SM_MD51 SM_MD16 SM_MD17 SM_MD18 SM_MD19
SM_MD48 SM_MD49 SM_MD50 SM_MD51 SM_MD52
DM_SA_PU
SM_MD20
SM_CKE1
SM_MD21 SM_MD22 SM_MD23
SM_MD53 SM_MD54 SM_MD55 SM_MD56 SM_MD57 SM_MD58 SM_MD59 SM_MD60 SM_MD61 SM_MD62 SM_MD63 MEMCLK7
SM_MD24 SM_MD25 SM_MD26 SM_MD27
SM_MD28 SM_MD29 SM_MD30 SM_MD31
MEMCLK2
SMBDATA SMBCLK
DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 WE#/WE0# DQM0 DQM1 CS0# DU/OE0# A10/AP BA1/A12 CLK0/DU DU/OE2# CS2# DQM2 DQM3 DU/WE2# CB10 CB11 DQ16 DQ17 DQ18 DQ19 DQ20 VREF/DU CKE1 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 CLK2/NC ABIT Computer Corp. Title DIMM168 Size Date:
DQ32 DQ33 DQ34 DQ35 DQ36 DQ37 DQ38 DQ39 DQ40 DQ41 DQ42 DQ43 DQ44 DQ45 DQ46 DQ47 CB12 CB13 CAS#/DU DQM4 DQM5 CS1# RAS#/DU BA0/A11 A11/A13 CLK1/DU A12/DU CKE0/DU CS3# DQM6 DQM7 A13/DU CB14 CB15 DQ48 DQ49 DQ50 DQ51 DQ52 VREF/DU REGE DQ53 DQ54 DQ55 DQ56 DQ57 DQ58 DQ59 DQ60 DQ61 DQ62 DQ63 CLK3/NC DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 WE#/WE0# DQM0 DQM1 CS0# DU/OE0# A10/AP BA1/A12 CLK0/DU DU/OE2# CS2# DQM2 DQM3 DU/WE2# CB10 CB11 DQ16 DQ17 DQ18 DQ19 DQ20 VREF/DU CKE1 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 CLK2/NC
DQ32 DQ33 DQ34 DQ35 DQ36 DQ37 DQ38 DQ39 DQ40 DQ41 DQ42 DQ43 DQ44 DQ45 DQ46 DQ47 CB12 CB13 CAS#/DU DQM4 DQM5 CS1# RAS#/DU BA0/A11 A11/A13 CLK1/DU A12/DU CKE0/DU CS3# DQM6 DQM7 A13/DU CB14 CB15 DQ48 DQ49 DQ50 DQ51 DQ52 VREF/DU REGE DQ53 DQ54 DQ55 DQ56 DQ57 DQ58 DQ59 DQ60 DQ61 DQ62 DQ63 CLK3/NC
DIMM168
DIMM
Document Number
ABIT SL30
AB-SL30 V0.12
Wednesday, March 2000 Sheet
CH6-12
VCC3SBY DIMM3
VCC3SBY
SM_MAA[0.12]
SM_MAA[0.12]
SM_MD[0.63]
SM_MD[0.63]
SM_MD0 SM_MD1 SM_MD2 SM_MD3
SM_MD32 SM_MD33 SM_MD34 SM_MD35
SM_MAC#[4.7]
SM_MAC#[4.7]
SM_DQM[0.7]
SM_DQM[0.7]
MEMCLK[8.11]
MEMCLK[8.11]
SM_MD4 SM_MD5 SM_MD6 SM_MD7 SM_MD8
SM_MD36 SM_MD37 SM_MD38 SM_MD39 SM_MD40
SM_CKE[4.5]
SM_CKE[4.5]
SM_CSA#[4.5]
SM_CSA#[4.5]
SM_CSB#[4.5] SM_MD14 SM_MD15 SM_MD46 SM_MD47
SM_CSB#[4.5]
SM_MD9 SM_MD10 SM_MD11 SM_MD12 SM_MD13
SM_MD41 SM_MD42 SM_MD43 SM_MD44 SM_MD45
SM_WE#
SM_WE#
SM_RAS#
SM_RAS#
SM_CAS#
SM_CAS#
SM_WE# SM_DQM0 SM_DQM1 SM_CSA#4 SM_MAA0 SM_MAA2 SM_MAC#4 SM_MAC#6 SM_MAA8 SM_MAA10 SM_BS1 MEMCLK8 SM_CSB#4 SM_DQM2 SM_DQM3 SM_CKE4 SM_CSB#5 SM_DQM6 SM_DQM7 MEMCLK9 SM_MAA12 SM_MAA1 SM_MAA3 SM_MAC#5 SM_MAC#7 SM_MAA9 SM_BS0 SM_MAA11
SM_BS0
SM_BS0
SM_BS1
SM_BS1 SM_CAS# SM_DQM4 SM_DQM5 SM_CSA#5 SM_RAS#
6,9,13,22,25,30 SMBDATA 6,9,13,22,25,30 SMBCLK
SMBDATA SMBCLK
SM_MD16 SM_MD17 SM_MD18 SM_MD19 SM_MD20 SM_CKE5 SM_MD21 SM_MD22 SM_MD23 SM_MD53 SM_MD54 SM_MD55 SM_MD56 SM_MD57 SM_MD58 SM_MD59 SM_MD60 SM_MD61 SM_MD62 SM_MD63 MEMCLK11 SM_MD24 SM_MD25 SM_MD26 SM_MD27 SM_MD28 SM_MD29 SM_MD30 SM_MD31 MEMCLK10 SMBDATA SMBCLK SM_MD52
SM_MD48 SM_MD49 SM_MD50 SM_MD51
DM_SA_PU
DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 WE#/WE0# DQM0 DQM1 CS0# DU/OE0# A10/AP BA1/A12 CLK0/DU DU/OE2# CS2# DQM2 DQM3 DU/WE2# CB10 CB11 DQ16 DQ17 DQ18 DQ19 DQ20 VREF/DU CKE1 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 CLK2/NC ABIT Computer Corp. Title DIMM168 Size Date:
DQ32 DQ33 DQ34 DQ35 DQ36 DQ37 DQ38 DQ39 DQ40 DQ41 DQ42 DQ43 DQ44 DQ45 DQ46 DQ47 CB12 CB13 CAS#/DU DQM4 DQM5 CS1# RAS#/DU BA0/A11 A11/A13 CLK1/DU A12/DU CKE0/DU CS3# DQM6 DQM7 A13/DU CB14 CB15 DQ48 DQ49 DQ50 DQ51 DQ52 VREF/DU REGE DQ53 DQ54 DQ55 DQ56 DQ57 DQ58 DQ59 DQ60 DQ61 DQ62 DQ63 CLK3/NC
DIMM
Document Number
ABIT SL30
AB-SL30 V0.12
Wednesday, March 2000 Sheet
VCC3_3 VCC5
VCC12 VCC12 VDDQ
R106 2.2K
VDDQ AGP1 TYPEDET# AGPUSBN AGP_OC#
GIRDY# GDEVSEL# GPERR# GSERR# AGPUSBP 14,15,30 PIRQ#B AGPCLK_CONN GREQ# GREQ# RBF# PIPE# WBF# PIPE# WBF# SBA1 SBA3 SBSTB1# SBSTB# SBA5 SBA7 SBA0 SBA2 SBSTB SBA4 SBA6 V3SB GGNT# PIRQ#A PCI_RST# GGNT# 14,15,30 14,15,30 RBF#
RN49
GFRAME# GTRDY# GSTOP# GPAR
8.2K/8P4R RN48
SBSTB
8.2K/8P4R RN42
GREQ# GGNT# PIPE# WBF# GAD31 GAD29 GAD27 GAD25 GAD21 GAD19 GAD22 GAD20 GAD18 GAD16 GFRAME# GFRAME# GAD17 GIRDY# GIRDY# GCBE#2 ADSTB1 ADSTB1 GAD23 ADSTB1# GAD26 GAD24 ADSTB1# GCBE#3 GAD30 GAD28
8.2K/8P4R RN43
SBA0 SBA1 SBA2 SBA3
8.2K/8P4R RN44
SBA4 SBA5 SBA6 SBA7
8.2K/8P4R RN46
ADSTB0 ADSTB0# ADSTB1 ADSTB1# GDEVSEL# GPERR# GSERR# GAD14 GAD12 GAD10 GAD8 GAD5 GAD3 GAD1 GMCH_AGPREF ADSTB0 ADSTB0 GAD7 GCBE#1 GDEVSEL#
8.2K/8P
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