G586IPC Rev.
FCC Statement on Class B This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications.
Table of Contents Chapter 1: Introduction ............................................................ 5 Features and Specifications .................................................. 6 Package Checklist .............................................................. 8 Chapter 2: Hardware Installation ............................................... 9 Preparing the Area.............................................................. 9 Handling the System Board ..................................................
User Password ............................................................42 IDE HDD Auto Detection ................................................42 Save & Exit Setup ........................................................45 Exit Without Saving.......................................................45 System Error Report ..........................................................46 IDE Device Drivers .............................................................48 Chapter 4: Troubleshooting Checklist ......
Chapter 1 Introduction The G586IPC, equipped with a 321-pin Zero Insertion Force (ZIF) CPU socket, is a fast Pentium processor system board supporting Intel Pentium CPUs running at 75MHz, 90MHz, 100MHz, 120MHz, 133MHz, 150MHz and 166MHz frequencies. The G586IPC also supports Cyrix P120+, P133+, P150+, and P166+ CPUs. The G586IPC uses the Intel 82430HX chipset. It supports Error Checking and Correction (ECC) that performs single bit error correction and parity check for multi-bit error detection.
Features and Specifications Processor • Intel Pentium™ 75/90/100/120/133/150/166MHz • Future Pentium™ OverDrive Processor • Cyrix P120+, P133+, P150+, P166+ Chipset • Intel 82430HX PCIset Cache Memory • Supports 0KB, 256KB or 512KB pipeline burst, direct map writeback cache • One 160-pin cache module slot • Two options: - 0KB onboard: upgradeable with 256KB or 512KB cache module - 256KB onboard: upgradeable with 256KB cache module for a maximum of 512KB cache System Memory • Four 72-pin SIMM sockets • 8MB t
• • • DMA Mode 2 Bus Master IDE (data transfer rate up to 22.2MB/ sec.) Bus mastering reduces CPU utilization during disk transfer ATAPI IDE CD-ROM supported Integrated I/O • SMC super I/O controller • Two NS16C550A-compatible high speed UARTS • One SPP/ECP/EPP parallel port • Supports 360KB, 720KB, 1.2MB, 1.44MB, and 2.88MB floppy drives • Universal Serial Bus* Two connectors onboard • IrDA TX/RX header* CPU Socket • 321-pin ZIF socket (Intel Socket 7) • Supports future low-voltage (2.
Package Checklist The G586IPC package contains the following items: • • • • • • • • The G586IPC system board The G586IPC user’s manual One 40-pin IDE hard disk cable One 34-pin floppy disk drive cable One 25-pin printer port cable for chassis mounting One card-edge bracket with serial and mouse port cables One set of IDE drivers Cache module (optional) If any of these items are missing or damaged, please contact your dealer or sales representative for assistance.
Chapter 2 Hardware Installation This chapter summarizes the steps to install the G586IPC system board into your system unit. It also includes a description of the area in which you must work and directions for memory installation. Before installing the system board, obtain the memory you plan to install. Please refer to the memory chart on page 14 for the number and type of SIM modules needed for the amount of memory you require.
Static Electricity Precautions 1. To prevent electrostatic build-up, leave the board in its anti-static bag until you are ready to install it. 2. Wear an antistatic wrist strap. 3. Do all preparation work on a static-free surface with system board components facing up. 4. Hold the system board only by its edges. Be careful not to touch any of the components, contacts or connections, especially gold contacts, on the board. 5. Avoid touching the pins or contacts on all modules and connectors.
2. Remove the system unit cover. Refer to the manufacturer’s instructions if necessary. 3. Remove expansion cards seated in any of the expansion slots and detach all connectors from the old system board. 4. Loosen the screws holding the original system board and remove the board from the system. Save the screws. 5. Remove the G586IPC from its original packing box. Be careful to avoid touching all connectors and pins on the board.
Board Layout J1 CN1 SMC 665 JP3 Power Connector J3 J2 COM 1 COM 2 JP4 J4: FDC J5: Printer J6: Primary IDE J7: Secondary IDE PCI Slot 4 PCI Slot 3 PCI Slot 2 ISA Slot 1 ISA Slot 2 ISA Slot 3 PCI Slot 1 JP6 ISA Slot 4 SM4 SM3 SM2 SM1 Bank 0 Bank 1 Intel SB82371SB JP7 BIOS Pin 1 U22 PBSRAM 32Kx32 JP9 JP10 PBSRAM 32Kx32 J8 J16 U27 J15 J14 J13 J11 J10 Pin 1 PBSRAM = Pipeline Burst SRAM 12 Cache Module Slot RTC CN2 U23 JP12 SSM1 Intel FW82439HX
System Memory The SIMM (Single In-line Memory Module) sockets are divided into two banks on the system board, Bank 0 and Bank 1. Each bank consists of 2 SIMM sockets. You will need 2 or 4 pieces of SIM modules, depending on the amount of memory you intend to install. Make sure you insert the same type of SIMMs in one bank. You can install SIMMs in any of the banks, Bank 0 or Bank 1, but you must populate a bank first before going to the next bank.
Installing a SIM Module A SIM module simply snaps into a socket on the system board. Pin 1 of the SIM module must correspond with Pin 1 of the socket. notch key 1. Position the SIMM above the socket with the “notch”in the module aligned with the “key”on the socket. 2. Seat the module at a 45° angle into the bank. Make sure it is completely seated. Tilt the module upright until it locks in place in the socket.
Onboard Cache Upgradeable Cache Module 0KB upgradeable with 256KB or 512KB cache module 256KB upgradeable with 256KB cache module for a maximum of 512KB cache Warning: We highly recommend that you use T2BSM32-256 or T2BSM32-512 cache modules. If you are using cache modules other than the ones recommended above, make sure your cache module meet the Intel COAST 2.x specification. Severe damage might occur on the cache module or system board if you insert modules other than those specified above.
CPU Installation The G586IPC allows for easy installation of CPUs. Make sure all jumpers are set correctly before applying power or you may damage the CPU or system board. Use the needle-nosed pliers to move the jumpers as necessary. Please see the jumper settings on the following pages. Jumper Settings for CPUs Jumpers JP6, JP7 and JP12 Intel 75MHz CPU: External Speed: 50MHz Frequency Ratio: 1.
Intel 90MHz CPU: External Speed: 60MHz Frequency Ratio: 1.5x JP6 4 2 4 2 3 1 3 1 JP7 3 1 JP7 JP12 Intel 100MHz CPU: External Speed: 66MHz Frequency Ratio: 1.
Intel 100MHz CPU: External Speed: 50MHz Frequency Ratio: 2x JP6 4 2 4 2 3 1 3 1 JP7 3 1 JP7 JP12 Intel 120MHz CPU: External Speed: 60MHz Frequency Ratio: 2x JP6 4 2 4 2 18 3 1 JP12
Intel 133MHz CPU: External Speed: 66MHz Frequency Ratio: 2x JP6 4 2 4 2 3 1 3 1 JP7 3 1 JP7 JP12 Intel 150MHz CPU: External Speed: 60MHz Frequency Ratio: 2.
Intel 166MHz CPU: External Speed: 66MHz Frequency Ratio: 2.
Cyrix P150+ CPU: External Speed: 60MHz Frequency Ratio: 2x JP6 4 2 4 2 Cyrix P166+ CPU: 3 1 3 1 JP7 3 1 JP7 JP12 External Speed: 66MHz Frequency Ratio: 2x JP6 4 2 4 2 3 1 JP12 21
Cyrix P133+ CPU: External Speed: 55MHz Frequency Ratio: 2x JP6 4 2 4 2 3 1 3 1 JP7 JP12 Jumpers JP9 and JP10 CPU Voltage 5 1 6 2 3.3V CPUs (Default) 2.
Installing Upgrade CPUs The G586IPC is equipped with a 321-pin Zero Insertion Force (ZIF) socket at location U27 of the system board. Refer to page 12 for the location of the ZIF socket. This socket is designed for easy removal of an old CPU and easy insertion of an upgrade CPU. The socket allows you to carefully place the new CPU into its position. If you need to apply excessive force to insert the CPU, you are not installing the CPU correctly.
To install an upgrade CPU, do the following. 1. Make sure the handle on the side of the ZIF socket is up. To raise the handle, push it down, slightly pull it out to the side, then raise it as far as it will go. It may be necessary to initially apply a small amount of sideways force to free the handle from its retaining “tab.” Once clear of the “tab,”the handle will open relatively easily. The top plate will slide back.
3. Position the CPU above the ZIF socket. Make sure pin 1 of the CPU is aligned with pin 1 of the socket. Lower the chip until the pins are inserted properly in their corresponding holes. Remember that very little force is needed to install the CPU. If the CPU is not easily inserted, verify whether or not pin 1 of the CPU is aligned with pin 1 of the socket. Applying too much pressure can damage the CPU or the socket. Pin 1 Positioning the CPU Above the ZIF Socket 4.
Clearance Requirements Your CPU comes with a heat sink mounted on top. To maintain proper airflow once the upgrade is installed on the system board, the CPU and heatsink require certain space clearances. The clearance above the CPU’s fan/heat sink must be at least 0.4 inches. The clearance on at least 3 of 4 sides of the processor must be at least 0.2 inches. The cables (for floppy drive, hard drive, CD-ROM, etc.) must be routed clear of the CPU and its airspace.
Jumper Settings for Password Clear Jumper JP3 Password Clear If you set a password in the “Password Setting”option and forget your password, power off your system and set Jumper JP3 to On to clear the password stored in your CMOS. Now power on your system. After your system has detected the floppy or hard drive, turn it off again and set JP3 to Off. Off: Normal (Default) On: Password Clear Jumper Settings for Display Jumper JP4 Display Type Select Jumper JP4 sets the display adapter to color or mono.
Built-in Ports The G586IPC system board is equipped with two serial ports, one parallel printer port, one FDD connector, two IDE hard disk shrouded headers and one PS/2 mouse connector. Refer to page 12 for the locations of the built-in connectors and pin 1 of those connectors. Serial Ports The built-in serial ports are RS-232C asynchronous communication ports with 16C550A-compatible UARTs that can be used with modems, serial printers, remote display terminals, and other serial devices.
serial port cable should be used for the COM 2 secondary serial port; connect it to connector J3 on the system board. Make sure the colored stripes on the ribbon cables are aligned with pin 1 of connectors J2 and J3. Mount the card-edge bracket to the system chassis. PS/2 Mouse Port The PS/2 mouse port is a 6-pin connector on the system board. Attach the 6-pin mouse port cable, which is mounted on the card-edge bracket, to connector J1.
2. Install the other 34-pin header connector(s) into the disk drive(s). Align the colored edge of the daisy chained ribbon cable with pin 1 of the drive edge connector(s). The end-most connector should be attached to the drive you want to designate as Drive A. IDE Hard Disk Interface The G586IPC system board is equipped with two PCI IDE shrouded headers that will interface up to four IDE (Integrated Drive Electronics) hard disk drives.
Connecting the Hard Disk Cable 1. Connect the cable to the system board. If you are connecting two hard drives, install the 40-pin connector of the IDE cable into the primary IDE shrouded header (connector J6). If you are adding a third or fourth IDE device, install the 40-pin connector of the other IDE cable into the secondary IDE shrouded header (connector J7). 2. Connect the cable to the devices.
Warning: Do not run FDISK and FORMAT programs on a drive that has already been formatted or you will lose all programs and data stored on the drive. Installing Expansion Cards The G586IPC system board is equipped with 3 dedicated PCI slots, 3 dedicated 16-bit ISA slots and 1 shared PCI/ISA slot. All PCI slots are bus masters. You can only install one card in one or the other of the shared slots at a time; you cannot install devices in both slots.
Chapter 3 Software Installation After you power up your system, the BIOS message appears on your screen and the memory count begins. After the memory test, the following message will appear on the screen: Press DEL to enter setup If the message disappears before you respond, restart your system or press the “Reset”button on the front of your computer. You may also restart the system by pressing the and keys simultaneously.
Use the arrow keys to highlight the option you want and press . The following describes each of these options. Standard CMOS Setup Use the arrow keys to highlight “Standard CMOS Setup”and press . A screen similar to the one below will appear. Date and Time This selection sets the time and date for the system. Press for the calendar. Hard Drive Type This allows you to enter the appropriate specifications for the type of hard disk drive(s) installed in your system.
you can select Auto, User, one of 46 predefined drive specifications or None. Auto: This option indicates that the parameters for your hard disk drive(s) will be automatically detected and displayed when you boot your system. By default, the LBA mode is selected for a hard disk drive larger than 528 megabytes. If you decide not to accept the LBA mode, you can either specify your selection in the “IDE HDD Auto Detection” menu, or use the User option described below.
No Errors: The system boot will not stop for any detected errors. All Errors: The system will stop whenever the BIOS detects a non-fatal error. All, But Keyboard: The system will stop for any error except a keyboard error. All, But Diskette: The system will stop for any error except a disk error. All, But Disk/Key: The system will stop for any error except a keyboard or disk error. Memory The lower right hand corner shows the base memory size, extended memory size, and the other memory size of your system.
The Virus Warning option may be set to “Enabled”or “Disabled”. If enabled, the BIOS issues a warning when any program or virus sends a Disk Format command or attempts to write to the boot sector of the hard disk drive. Note: If you are installing or running certain operating systems such as Windows 95, please disable the Virus Warning or the operating system may not install nor work.
Use the arrow keys to move the highlight bar to the option you wish to change or modify. Use the , , <+> or <-> keys to make the corresponding changes. If the changes you made are incorrect or you change your mind, press or to return to the default settings. Press after making the changes to return to the main menu. Power Management Setup Use the arrow keys to highlight “Power Management Setup”and press . A screen similar to the one below will appear.
PCI Configuration Setup Use the arrow keys to highlight “PCI Configuration Setup”and press ; a screen similar to the one below will appear. The PCI Configuration Setup allows you to assign INT A, B, C or D to the hard drives installed in your system. Each INT may then be assigned an IRQ value. Load BIOS Defaults The “Load BIOS Defaults”option loads the troubleshooting default values permanently stored in the ROM chips. These settings are not optimal and turn off all high performance features.
Highlight this option on the main menu and press . The message below will appear. Load Setup Defaults (Y/N)? N Type and press to load the Setup default values. PnP Configuration Setup Use the arrow keys to highlight “PnP Configuration Setup”and press . A screen similar to the one below will appear. The default setting of the Resources Controlled By option is “Manual”.
The I/O Configuration Setup allows you to enable, disable or select the port address of the built-in serial ports, parallel port and floppy disk controller. Supervisor Password If you want to protect your system and setup from unauthorized entry, set a supervisor’s password with the “System”option selected in the BIOS Features Setup. If you want to protect access to setup only, but not your system, set a supervisor’s password with the “Setup”option selected in the BIOS Features Setup.
To delete or disable the password function, highlight “Supervisor Password”and press , instead of typing in a new password. Press the key to return to the main menu. If you forget your password, you should clear any previously set password by setting Jumper JP3 to On for approximately two minutes. Please refer to page 21 for more information.
Enter your choice, and press to accept the parameters or press to abort. The parameters of the hard disk will be displayed in the Standard CMOS Setup. Hard Drive Mode The G586IPC supports three HDD modes: Normal, LBA and Large. If your hard disk drive does not support LBA mode, the “LBA”option will not be displayed. If your HDD has 1024 or fewer cylinders, the “Large” option will not be displayed.
LBA (Logical Block Addressing) Mode The LBA mode is a HDD accessing method to overcome the 528 megabyte limitation. The number of cylinders, heads and sectors shown on the screen may not be the actual number for the HDD. During the HDD accessing, the IDE controller will transform the logical address described by the sector, head and cylinder number into its own physical address inside the HDD. The maximum HDD size supported by the LBA mode is 8.4 gigabytes. It is obtained by the following formula. no.
Maximum HDD size: no. Cylinders x no. Heads x no. Sectors x bytes per sector (1024) ( 32) ( 63) ( 512) 1 gigabyte Note: To support LBA or Large mode, address translation software is included in the Award BIOS HDD Sevice Routine (INT13h). If you are running an operating system that bypasses the BIOS Int13 Service Routine, LBA and Large Mode may fail. Save & Exit Setup When all the changes have been made, highlight “Save & Exit Setup” and press .
System Error Report When the BIOS encounters an error that requires the user to correct something, either a beep code will sound or a message will be displayed in a box in the middle of the screen and the message PRESS F1 TO CONTINUE, CTRL-ALT-ESC or DEL TO ENTER SETUP, will be shown in the information box at the bottom. Enter Setup to correct the error. POST Beep There is one beep code in the BIOS.
DISPLAY TYPE HAS CHANGED SINCE LAST BOOT Since last powering off the system, the display adapter has been changed. You must configure the system for the new display type. ERROR ENCOUNTERED INITIALIZING HARD DRIVE The hard drive cannot be initialized. Be sure all cables are correctly and firmly attached. Also, be sure the correct hard drive type is selected in Setup. ERROR INITIALIZING HARD DISK CONTROLLER The system cannot initialize the controller. Be sure the correct hard drive type is selected in Setup.
OFFENDING ADDRESS NOT FOUND This message is used in conjunction with the I/O CHANNEL CHECK and RAM PARITY ERROR messages when the segment that has caused the problem cannot be isolated. OFFENDING SEGMENT This message is used in conjunction with the I/O CHANNEL CHECK and RAM PARITY ERROR messages when the segment that has caused the problem has been isolated. PRESS A KEY TO REBOOT This will be displayed at the bottom screen when an error occurs that requires a reboot.
Chapter 4 Troubleshooting Checklist If you experience difficulty with the G586IPC system board, please refer to the checklist below. If you still cannot identify the problem, please contact your dealer. 1. Check the jumper settings to ensure that the jumpers are properly set. If in doubt, refer to the “Hardware Installation”section. 2. Verify that all SIMMs are seated securely into the bank sockets. 3. Make sure the SIMMs are in the correct locations. 4.
Appendix A Types of Modules The G586IPC system board allows you to populate memory with 1MBx36, 2MBx36, 4MBx36, 8MBx36, and 16MBx36 SIMMs. The following modules have been tested with this board. Most untested brands will work but a few may fail to do so.
Appendix B Memory and I/O Maps Memory Address Map Address Name Function 0000000 to 009FFFF 640KB System Board RAM System Board Memory 00A0000 to 00BFFFF 128KB Video Display Memory Reserved for Graphics Display Memory 00C0000 to 00E7FFF 160KB I/O Expansion ROM Reserved for ROM on I/O Adapter Card 00E8000 to 00FFFFF 96KB ROM on the System Board System Board BIOS 0100000 to 7FFFFFF Maximum Memory 128MB System Board Memory 51
I/O Address Map I/O Address 000-01F 020-03F 040-05F 060-06F 070-07F 080-09F 0A0-0BF 0C0-0DF 0E8 0F0 0F1 0F8-0FF 1F0-1F8 200-207 278-27F 2F8-2FF 300-31F 360-36F 378-37F 380-38F 3A0-3AF 3B0-3BF 3C0-3CF 3D0-3DF 3F0-3F7 3F8-3FF Function DMA Controller 1, 8237A-5 Interrupt Controller 1, 8259A, Master Timer, 8254-2 8742 (Keyboard Controller) Real-time Clock, NMI (Non-maskable Interrupt) Mask DMA Page Memory, 74LS612 Interrupt Controller 2, 8259A DMA Controller 2, 8237A-5 Shadow RAM and Cache Control Bit Clear Nu
Appendix C PCI I/O Pin Assignments B -12V TCK Ground TDO +5V +5V INTB# INTD# PRSNT1# Reserved PRSNT2# Ground Ground Reserved Ground CLK Ground REQ# +5V (I/O) AD[31] AD[29] Ground AD[27] AD[25] N. C. C/BE[3]# AD[23] Ground AD[21] AD[19] N. C. AD[17] C/BE[2]# Ground IRDY# N. C. DEVSEL# Ground LOCK# PERR# N. C. SERR# N. C.
Appendix D ISA I/O Pin Assignments B Gnd ResetDrv +5VDC IRQ9 -5VDC DRQ2 -12VDC OWS +12VDC Gnd -SEMEMW -SEMEMR -IOW -IOR -Dack3 -DRQ3 -Dack1 DRQ1 -Refresh CLK IRQ7 IRQ6 IRQ5 IRQ4 IRQ3 -Dack2 T/C Bale +5VDC OSC Gnd A - 01 - 02 - 03 - 04 - 05 - 06 - 07 - 08 - 09 - 10 - 11 - 12 - 13 - 14 - 15 - 16 - 17 - 18 - 19 - 20 - 21 - 22 - 23 - 24 - 25 - 26 - 27 - 28 - 29 - 30 - 31 - C D -MemCS16 -I/OCS16 IRQ10 IRQ11 IRQ12 IRQ13 IRQ14 -Dack0 DRQ0 -Dack5 DRQ5 -Dack6 DRQ6 -Dack7 DRQ7 +5VDC -Master Gnd 54 -I/OChck SD7 S
Appendix E System Overview DMA Controller 1 DMA Controller 2 Ch0-Reserved for User Ch1-Reserved for User Ch2-Diskette Ch3-Reserved for User Ch4-Cascade for CTRL 1 Ch5-Reserved for User Ch6-Reserved for User Ch7-Reserved for User Note: DMA controller 1 supports 8-bit data transfer. DMA controller 2 supports 16-bit data transfer.
System Interrupts Interrupt Controller 1 Interrupt Controller 2 IRQ0-Timer Output (Out 0) IRQ1-Keyboard (Output Buffer Full) IRQ2-Interrupt from INTR2 IRQ3-Serial Port 2 IRQ4-Serial Port 1 IRQ5-Parallel Port 2 or 3 * IRQ6-Diskette Controller IRQ7-Parallel Port 1 or 2 * IRQ8-Realtime Clock INT IRQ9-Software Redirected to INT 0AH (IRQ2) IRQ10-Reserved IRQ11-Reserved IRQ12-PS/2 Mouse IRQ13-Coprocessor IRQ14-Primary Fixed Disk Controller (1F0) IRQ15-Secondary Fixed Disk Controller (170) * The one on-board p
Appendix F Connector Pin Assignments Connector J1 PS/2 Mouse Connector Pin Function 1 2 3 4 5 6 Mouse Data Reserved Ground +5V Mouse Clock Reserved J2 (COM1) and J3 (COM2) COM 1 and COM 2 Serial Ports Pin Function 1 2 3 4 5 6 7 8 9 DCD (Data Carrier Detect) RX (Receive Data) TX (Transmit Data) DTR (Data Terminal Ready) Ground (Signal Ground) DSR (Data Set Ready) RTS (Request to Send) CTS (Clear to Send) RI (Ring Indicator) Connector J4 Floppy Disk Drive Connector Pin Function Pin Function 1 2 3
Pin Function Pin Function 21 22 23 24 25 26 27 Ground Write Data Ground Write Gate Ground Track 0 MSEN 28 29 30 31 32 33 34 Wr Protect Ground Read Data Ground Head Select Ground Disk Change Pin Function Connector J5 Parallel Printer Port Pin Function 1 2 3 4 5 6 7 8 9 10 11 12 13 -Strobe Data 0 Data 1 Data 2 Data 3 Data 4 Data 5 Data 6 Data 7 -Ack Busy Paper Empty Select 14 15 16 17 18 19 20 21 22 23 24 25 -Autofd -Error -Init -Slctin Ground Ground Ground Ground Ground Ground Ground Ground C
Pin Function 29 30 31 32 33 34 35 36 37 38 39 40 Reserved Ground IRQ IOCS16 SA1 Reserved SA0 SA2 HCS0 HCS1 LED Ground Connector J8 Fan Connector Pin Function 1 2 3 Ground +12V Ground Connector J10 Primary/Secondary IDE LED Connector Pin Function 1 2 Signal VCC Connector J11 Green LED Connector Pin Function 1 2 Signal VCC 59
Connector J13 Green Button Connector Pin Function 1 2 Ground Signal Connector J14 Reset Switch Connector Pin Function 1 2 Ground Reset Connector J15 Speaker Connector Pin Function 1 2 3 4 Signal Reserved Ground VCC Connector J16 Power LED/Keylock Connector 60 Pin Function 1 2 3 4 5 LED Signal Reserved Ground Keylock Signal Ground
Connector CN1 PS/2 Keyboard Connector Pin Function 1 2 3 4 5 6 Keyboard Data Reserved Ground +5V Keyboard Clock Reserved Connector CN2 AT Keyboard Connector Pin Function 1 2 3 4 5 Keyboard Clock Keyboard Data Reserved Ground +5V Connector PL1 Power Connector Pin Function 1 2 3 4 5 6 7 8 9 10 11 12 Power Good +5V +12V -12V Ground Ground Ground Ground -5V +5V +5V +5V 61
Connector SSM1 Cache Module Slot 62 Pin Function Pin Function 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 Ground TIO0 TIO2 TIO6 TIO4 TIO8 VCC3 TWE# CADS#/CAA3 Ground HBE4# HBE6# HBE0# HBE2# VCC3 CCS#/CAB4 GWE# BWE# Ground A3 A7 A5 A11 A16 VCC3 A18 Ground A12 A13 ADSP# ECS1#/(CS#) ECS2# PD1 PD3 Ground CLK1 Ground D62 VCC3 D60 D58 D56 Ground D54 D52 D50 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68
Pin Function Pin Function 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 HBE7# HBE1# VCC5 HBE3# CAB3 CALE Ground RSVD A4 A6 A8 A10 VCC5 A17 Ground A9 A14 A15 RSVD PD0 PD2 PD4 Ground CLK0 Ground F63 VCC5 D61 D59 D57 Ground D55 D53 D51 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 D49 Ground D47 D45 D43 VCC5 D41 D39 D37 Ground D35 D3
