PCE-7210 Dual Socket 604 Intel® Xeon® / LV Xeon® Processor Card with PCI Express / IPMI / VGA/ Dual Gigabit LAN / FSB 800MHz User Manual
Copyright Notice This document is copyrighted, 2006, by Advantech Co., Ltd. All rights are reserved. Advantech Co., Ltd. reserves the right to make improvements to the products described in this manual at any time without notice. No part of this manual may be reproduced, copied, translated or transmitted in any form or by any means without the prior written permission of Advantech Co., Ltd. Information provided in this manual is intended to be accurate and reliable. However, Advantech Co., Ltd.
A Message to the Customer Advantech customer services Each and every Advantech product is built to the most exacting specifications to ensure reliable performance in the harsh and demanding conditions typical of industrial environments. Whether your new Advantech equipment is destined for the laboratory or the factory floor, you can be assured that your product will provide the reliability and ease of operation for which the name Advantech has come to be known. Your satisfaction is our primary concern.
Product warranty Advantech warrants to you, the original purchaser, that each of its products will be free from defects in materials and workmanship for two years from the date of purchase. This warranty does not apply to any products which have been repaired or altered by persons other than repair personnel authorized by Advantech, or which have been subject to misuse, abuse, accident or improper installation. Advantech assumes no liability under the terms of this warranty as a consequence of such events.
We have carefully inspected the PCE-7210 mechanically and electrically before shipment. It should be free of marks and scratches and in perfect working order upon receipt. As you unpack the PCE-7210, check it for signs of shipping damage. (For example, damaged box, scratches, dents, etc.) If it is damaged or it fails to meet the specifications, notify our service department or your local sales representative immediately. Also notify the carrier.
Initial Inspection Before you begin installing your single board computer, please make sure that the following materials have been shipped: 1 PCE-7210 Dual Intel® Xeon® / LV Xeon® processor-based single board computer 1 PCE-7210 Startup Manual 1 CD with driver utility and manual (in PDF format) 1 FDD cable P/N: 1700340640 2 Ultra ATA 66/100 HDD cables P/N: 1701400452 2 Serial ATA HDD data cable P/N: 1700071000 2 Serial ATA HDD power cable P/N: 1703150102 1 Printer (parallel) port & COM port cable ki
Verified CPU List Table 1.1: Verified CPU List CPU Freq. Spec. Core Stepping XEON 3.6 G SL7ZC N0 110W 1.4V max 800 90nm Y 2MB NA 604 pin XEON 3.2 G SL7ZE N0 110W 1.4V max 800 90nm Y 2MB NA 604 pin XEON 3.0 G SL7ZF N0 110W 1.4V max 800 90nm Y 2MB NA 604 pin XEON 2.8 G SL7ZG N0 110W 1.4V max 800 90nm Y 2MB NA 604 pin XEON 3.6 G SL7PH E0 103W 1.4V max 800 90nm Y 1MB NA 604 pin XEON 3.0 G SL7TC E0 103W 1.
Certification and Safety Instructions This device complies with the requirements in part 15 of the FCC rules: Operation is subject to the following two conditions: 1. This device may not cause harmful interference, and 2. This device must accept any interference received, including interference that may cause undesired operation This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules.
Contents Chapter 1 Hardware Configuration .................................2 1.1 1.2 1.3 Introduction ....................................................................... 2 Features ............................................................................. 4 Specifications .................................................................... 5 1.3.1 1.3.2 1.3.3 1.3.4 1.3.5 1.3.6 1.3.7 1.4 System............................................................................. 5 Memory...................
Figure 2.3: PCE-7210 LPT1 location ........................... 22 2.5 VGA Connector (VGA1) ................................................ 23 2.6 VGA-2 Connector (VGA2)............................................. 23 2.7 DVI connector (DVI1) .................................................... 24 2.8 Serial Ports (COM1, COM3, COM4) ............................. 25 2.9 PS/2 Keyboard/Mouse Connector (KBMS1).................. 26 2.10 External Keyboard Connector (KBMS2)........................
Chapter 3 Award BIOS Setup.........................................36 3.1 Introduction ..................................................................... 36 3.1.1 CMOS RAM Auto-backup and Restore ....................... 36 3.2 Entering Setup ................................................................. 37 3.3 Standard CMOS Setup .................................................... 37 Figure 3.1:Award BIOS Setup initial screen ................ 37 Figure 3.2:Standard CMOS features screen ......
3.6.1 3.6.2 3.6.3 3.6.4 3.6.5 3.6.6 3.6.7 3.6.8 3.6.9 3.6.10 3.6.11 3.6.12 3.6.13 3.6.14 3.6.15 3.6.16 3.6.17 3.6.18 3.6.19 3.6.20 3.6.21 3.6.22 3.6.23 3.6.24 3.6.25 3.6.26 3.7 IDE HDD Block Mode ................................................. 46 On-Chip IDE Device .................................................... 46 SATA Mode.................................................................. 46 On-Chip Serial ATA..................................................... 46 Serial ATA Port0/Port1 Mode ....
3.7.15 3.7.16 3.7.17 3.7.18 3.8 PnP/PCI Configuration Setup.......................................... 52 3.8.1 3.8.2 3.8.3 3.8.4 3.8.5 3.9 Primary IDE 0 (1) and Secondary IDE 0 (1). ............... 51 FDD, COM, LPT PORT ............................................... 52 PCI PIRQ [A-D]# ......................................................... 52 PWRON After PWR-FAIL........................................... 52 Figure 3.13:PnP/PCI configurations screen.................. 52 Reset Configuration Data......
Chapter 6 LAN Configuration ........................................74 6.1 6.2 Chapter 7 Onboard Security Setup ................................78 7.1 7.2 7.3 Chapter Introduction ..................................................................... 74 Win XP Driver Setup ...................................................... 74 Introduction ..................................................................... 78 Windows XP Driver Setup..............................................
Table B.9:External keyboard connector (KBMS2) .... 112 B.10 CPU Fan Power Connector (CPUFAN1,CPUFAN2) ... 113 Table B.10:CPU Fan Power Connector (CPUFAN1,CPUFAN2) ........................... 113 B.11 Power LED and Keyboard Lock Connector (JFP3 / PWR_LED & KEY LOCK) ............................. 113 Table B.11:Power LED and Keyboard Lock Connector (JFP3 / PWR_LED & KEY LOCK)........ 113 B.12 External Speaker Connector (JFP2 / SPEAKER) ......... 114 B.13 Reset Connector (JFP1 / RESET) ................
CHAPTER 1 Hardware Configuration 1
Chapter 1 Hardware Configuration 1.1 Introduction The PCE-7210 is designed with the Intel® E7520 chipset and 6300ESB (I/O controller) to support sever grade Intel® Dual Xeon® / LV Xeon® (FSB 800) Processor. It follows the PICMG 1.3 specification and is the best solution for high computing performance and wide I/O bandwidth demand applications. Besides supports Dual Intel® Xeon® / LV Xeon® CPUs Intel® E7520 also provides three PCIe x8 Links which I/O bandwidth is up to 12 GB/s.
interface, three RS-232 ports, one enhanced parallel port and floppy disk interface. PCE-7210 retains a legacy PCI-X 32-bit /66 MHz bus from the CPU board to the Backplane. Don't need PCI-Express to PCI-X bridge chip for lower the system cost. Good for the application only needs few legacy PCI Bus. PCE-7210 is designed with reliability considerations to suit industrial environments.
1.2 Features 1. Compliance with PICMG 1.3 2. Support single/dual socket 604 Intel® Xeon® / LV Xeon® FSB 800Mhz processors 3. Support Dual Channel DDR2 400 ECC Registered SDRAM up to 8GB 4. Two PCI Express X 8 and One X4 to backplane 5. PCI-X 32bits / 66 MHz bus to backplane 6. Broadcom® BCM 5715C Dual Gigabit Ethernet Chip via PCI Express X4 port 7. Onboard ATI® Radeon® 7000-M with 16MB frame buffer memory 8. Onboard IPMI module(Optional) 9. 2 SATA HDDs Support S/W SATA RAID 0,1 10.
1.3 Specifications 1.3.1 System • CPU: Dual Intel® 800 Mhz Xeon® / LV Xeon® processors • L2 Cache: CPU built-in 1MB / 2MB L2 cache • BIOS: Award Flash BIOS (4Mb Flash Memory) • System Chipset: Intel® E7520 + 6300ESB • SATA/EIDE hard disk drive interface: Supports up to two independent Serial ATA hard drives (up to 150MB/s) with software RAID 0 or 1 functions as well as two IDE hard disk drives, or four enhanced IDE devices. Supports PIO mode 4 (16.
1.3.4 VGA interface • Controller: ATI RADEON 7000-M • Display memory: 16MB frame buffer memory on chip • Resolution: VGA 1: 2048x1536 at 60Hz; 15 pin CRT connector x1 VGA 2: 2048x1536 at 60Hz; Alternative with TV-out, S-video signal by pin header DVI connector: 1600 x 1200 at 60Hz; connect to a special DVI cable via pin header 1.3.5 Ethernet LAN • Supports dual10/100/1000Base-T Ethernet networking • Controller: Broadcom BCM5715C 1.3.6 Industrial features • Watchdog timer: Can generate a system reset.
1.4 Jumpers and Connectors Connectors on the PCE-7210 single board computer link it to external devices such as hard disk drives and a keyboard. In addition, the board has a number of jumpers used to configure your system for your application. Below, Table 1.1 and Table 1.2 list the jumper and connector functions. Later sections in this chapter give instructions on setting jumpers. Chapter 2 gives instructions for connecting external devices to your single board computer. Table 1.
Table 1.
1.5 Board Layout: Jumper and Connector Locations CPU1 CPU2 HDDLED PWR_SW SNMP RESET SPEAKER PWR_LED&KEY LOCK SATA1 EXPCI1 DVI1 AC97 LANLED1 COM1 CMOS1 LPT1 FDD1 LAN12 VGA1 KBMS1 JOBS1 COM4 COM3 IDE2 IDE1 BMC1 GPIO1 KBMS2 JIR1 VGA2 JWDT1 9 DIMMB2 DIMMA2 DIMMB1 DIMMA1 SATA2 CPUFAN2 JFP2 JFP1 JFP3 CPUFAN1 Figure 1.
1.6 PCE-7210 Block Diagram Xeon Processor 1 Xeon Processor 0 800 MHz FSB G-LAN1 & 2 : Broadcom BCM5715C PCI-E x4 PCI-E Channel A x8 DDR II 400 Intel E7520 PCI-E x4 Connector A DDR II 400 PCI-E x8 Channel B DDR II 400 DDR II 400 8-bit HI 1.5 PCI-E x8 Connector D 32bit/66 MHz PCI-X Bus 6300 ESB VGA 1 VGA 2 TV 266 MB/Sec Connector B ATi Radeon 7000M 32bit/33 MHz DMA 33/66/100 2 ATA 100 ports 150MB/s 2 SATA ports USB 2.0/1.
1.7 Safety Precautions Warning! Always completely disconnect the power cord from your chassis whenever you work with the hardware. Do not make connections while the power is on. Sensitive electronic components can be damaged by sudden power surges. Only experienced electronics personnel should open the PC chassis. Caution! Always ground yourself to remove any static charge before touching the single board computer. Modern electronic devices are very sensitive to static electric charges.
1.8 Jumper Settings This section provides instructions on how to configure your single board computer by setting the jumpers. It also includes the single board computer's default settings and your options for each jumper. 1.8.1 How to set jumpers You can configure your single board computer to match the needs of your application by setting the jumpers. A jumper is a metal bridge that closes an electrical circuit.
1.8.3 Watchdog timer output (JWDT1) The PCE-7210 contains a watchdog timer that will reset the CPU in the event the CPU stops processing. This feature means the PCE-7210 will recover from a software failure or an EMI problem. The JWDT1 jumper settings control the outcome of what the computer will do in the event the watchdog timer is tripped. Table 1.
1.9 System Memory The PCE-7210 has four sockets for 240-pin dual inline memory modules (DIMMs) in two separated memory channels. It can operate with single channel or dual channel modules. We recommend using dual channel mode to provide optimized performance. All these sockets use ECC registered DDR2-400 SDRAM. They are available in capacities of 256, 512, 1024 and 2048 MB. The maximum memory size is up to 8GB.
Table 1.5: Memory Configuration Quantity of Memory modules Location (DIMM No.) Memory Type Channel Type One module Either A2 or B2 Non-Limited Single Two modules (A1+A2) or (B1+B2) Non-Limited Single Two modules Only A2 + B2 Same Type Dual Three modules Not Recommend -- -- Four modules (A2+B2) and (A1+B1) A2=B2 and A1=B1 Dual 1.10 Memory Installation Procedures To install DIMMs, first make sure the two handles of the DIMM socket are in the "open" position. i.e.
1.11 Processor Installation The CPU on the board must have a fan and heat sink attached, to prevent overheating. Notice: Owing to limitation of the Intel® E7520 chipset when you only use single CPU on the PCE-7210, the CPU have to be located on the CPU1 socket. Otherwise the system can not boot up normally. Warning: Without a fan or heat sink, the CPU will over-heat and cause damage to both the CPU and the single board computer. To install a CPU, first turn off your system and remove its cover. 1.
1.12 CPU Cooler Installation Please ensure that the CPU cooler included with the PCE-7210 is installed as follows: Figure 1.
CHAPTER 2 Connecting Peripherals 19 Chapter 2
Chapter 2 Connecting Peripherals 2.1 Introduction You can access most of the connectors from the top of the board while it is installed in the chassis. If you have a number of cards installed or have a packed chassis, you may need to partially remove the card to make all the connections. 2.2 1st & 2nd IDE Connectors (IDE1, IDE2) IDE2 IDE1 Figure 2.1: PCE-7210 IDE1 and IDE2 location You can attach up to four IDE (Integrated Drive Electronics) drives to the PCE-7210's built-in controller.
Connect the first hard drive to the other end of the cable. Wire 1 on the cable should also connect to pin 1 on the hard drive connector, which is labeled on the drive circuit board. Check the documentation that came with the drive for more information. Connect the second hard drive to the remaining connector (IDE1 or IDE2), in the same way as described above. 2.3 Floppy Drive Connector (FDD1) FDD1 Figure 2.
2.4 Parallel Port (LPT1) LPT1 Figure 2.3: PCE-7210 LPT1 location The parallel port is normally used to connect the single board computer to a printer. The PCE-7210 includes an onboard parallel port, accessed through a 26-pin flat-cable connector, LPT1. The card comes with an adapter cable which lets you use a traditional DB-25 connector. The cable has a 26-pin connector on one end and a DB-25 connector on the other, mounted on a retaining bracket.
2.5 VGA Connector (VGA1) VGA1 Figure 2.4: VGA Connector (VGA1) The PCE-7210 includes a VGA interface that can drive conventional CRT displays. VGA1 is a standard 15-pin D-SUB connector commonly used for VGA. Pin assignments for CRT connector VGA1 are detailed in Appendix B. VGA2 2.6 VGA-2 Connector (VGA2) Figure 2.5: VGA Connector (VGA2) The PCE-7210 provides an additional VGA interface supports dual VGA display, VGA2 is an 9 pin connector.
different application. User can choose 15-pin to 9-pin D-Sub VGA cable (p/n: 1700000259) for providing VGA connector or choose Video Cable (p/n: 1700000784) for providing S or AV terminal. Please be aware of S and AV terminal can not use at the same time, it will cause unstable situation. 2.7 DVI connector (DVI1) DVI1 Figure 2.6: DVI connector (DVI1) The PCE-7210 provides a DVI interface that supports DVI display.
2.8 Serial Ports (COM1, COM3, COM4) COM4 COM3 COM1 Figure 2.7:Serial Ports (COM1, COM3, COM4) The PCE-7210 offers three serial ports COM1, COM3 and COM4. These ports can connect to serial devices, such as a mouse or to a communications network. The IRQ and address ranges for all ports are fixed. However, if you want to disable the port or change these parameters later, you can do this in the system BIOS setup. Different devices implement the RS-232 standard in different ways.
2.9 PS/2 Keyboard/Mouse Connector (KBMS1) KBMS1 Figure 2.8: PS/2 Keyboard/Mouse Connector (KBMS1) One 6-pin mini-DIN connectors (KBMS1) on the card mounting bracket provide connection to a PS/2 keyboard or a PS/2 mouse, respectively. KBMS1 can also be connected to an adapter cable (P/N: 1700060202) for connecting to both a PS/2 keyboard and a PS/2 mouse. 2.10 External Keyboard Connector (KBMS2) KBMS2 Figure 2.
CPUFAN1 2.11 CPU Fan Connectors (CPUFAN1, CPUFAN2) CPUFAN2 Figure 2.10: CPU Fan Connectors (CPUFAN1, CPUFAN2) If a fan is used, this connector supports cooling fans of 12V/1A (12W) or less. 2.12 Front Panel Connectors (JFP1, JFP2, JFP3) PWR_SW RESET HDDLED SNMP SPEAKER PWR_LED&KEY LOCK JFP1 JFP2 JFP3 Figure 2.11: Front Panel Connectors (JFP1, JFP2, JFP3) There are several external switches to monitor and control the PCE-7210.
PWR_SW RESET HDDLED SNMP JFP1 JFP2 SPEAKER PWR_LED&KEY LOCK JFP3 Figure 2.12: Detail (JFP1, JFP2, JFP3) 2.12.1 ATX soft power switch (JFP1 / PWR_SW) If your computer case is equipped with an ATX power supply, you should connect the power on/off button on your computer case to (JFP1 / PWR_SW). This connection enables you to turn your computer on and off. 2.12.2 2.12.2 Reset (JFP1 / RESET) Many computer cases offer the convenience of a reset button. Connect the wire for the reset button. 2.12.
2.12.6 Power LED and keyboard lock connector (JFP3 / PWR_LED&KEY LOCK) (JFP3 / PWR_LED&KEY LOCK) is a 5-pin connector for the power on LED and Key Lock function. Refer to Appendix B for detailed information on the pin assignments. The Power LED cable should be connected to pin 1-3. The key lock button cable should be connected to pin 4-5. There are 3 modes for the power supply connection. The first is "ATX power mode", system is on/off by a tentative power button.
2.13 HW Monitor Alarm (JOBS1) JOBS1 Figure 2.13: HW Monitor Alarm (JOBS1) (JOBS1) is a 2-pin connector for setting enable/disable alarm while the On Board security event acts. Table 2.
2.14 Dual Giga LAN RJ45 connector (LAN12) LAN12 Figure 2.14: Dual Giga LAN RJ45 connector (LAN12) PCE-7210 uses the Broadcom BCM5715C dual ports Gigabit LAN chip is linked to PCIe x4 Link. With this chip PCE-7210 may provide high throughputs for heavy loading networking environment. It provides two RJ-45 connectors in the rear side and is convenient for most industrial applications. 2.15 AC'97 Link connector (AC97) AC97 Figure 2.
2.16 Serial ATA interface (SATA1, SATA2) SATA2 SATA1 Figure 2.16: Serial ATA interface (SATA1, SATA2) In addition to the two EIDE interfaces (up to four devices), the PCE-7210 features a high performance serial ATA interface (up to 150MB/s) which eases cabling to hard drives with thin and long cables. These two port can be configured as RAID 0 and RAID 1 applications. 2.17 LAN1 and LAN2 LED connector (LANLED1) LANLED1 Figure 2.
2.18 BMC connector (BMC1) BMC1 Figure 2.18: BMC connector (BMC1 PCE-7210 is designed for supporting IPMI 2.0. The BMC module is mounted on board thru this connector. For more detail operating information, please refer to Chapter 9. 2.19 GPIO header (GPIO1) GPIO1 Figure 2.19: GPIO header (GPIO1) PCE-7210 provides 14-Pins pin header for Digital I/O usage. Refer to Appendix B for detailed information on the pin assignments and programming guide in Appendix C.
CHAPTER 3 Award BIOS Setup 35 Chapter 3
Chapter 3 Award BIOS Setup 3.1 Introduction Award’s BIOS ROM has a built-in setup program that allows users to modify the basic system configuration. This type of information is stored in battery backed-up memory (CMOS RAM) so that it retains the setup information when the power is turned off. 3.1.1 CMOS RAM Auto-backup and Restore The CMOS RAM is powered by an onboard button cell battery. When you finish BIOS setup, the data in CMOS RAM will be automatically backed up to Flash ROM.
3.2 Entering Setup Turn on the computer and press to enter the BIOS setup. Figure 3.1: Award BIOS Setup initial screen 3.3 Standard CMOS Setup Choose the "Standard CMOS Features" option from the "Initial Setup Screen" menu, and the screen below will be displayed. This menu allows users to configure system components such as date, time, hard disk drive, floppy drive, display, and memory.
IDE Channel 0 Master/Slave IDE Channel 1 Master/Slave: Press PgUp/ <+> or PgDn/<-> to select Manual, None, Auto type. Note that the specifications of your drive must match with the drive table. The hard disk will not work properly if you enter improper information for this category. If your hard disk drive type is not matched or listed, you can use Manual to define your own drive type manually. If you select Manual, the system will prompt for related information for the following items.
3.4 Advanced BIOS Features The "Advanced BIOS Features" screen appears when choosing the "Advanced BIOS Features" item from the "Initial Setup Screen" menu. It allows the user to configure the PCE-7210 according to his particular requirements. Below are some major items that are provided in the Advanced BIOS Features screen. A quick booting function is provided for your convenience. Simply enable the Quick Booting item to save yourself valuable time. Figure 3.4: Advanced BIOS features screen - 1 Figure 3.
3.4.1 Hard Disk Boot Priority Select hard disk boot device priority. 3.4.2 Virus Warning During and after the system boot, any attempt to write to the boot sector or partition table of the hard disk drive will halt the system. If this happens, a warning message will be displayed. You can run the anti-virus program to locate the problem. If Virus Warning is disabled, no warning message will appear if anything attempts to access the boot sector or hard disk partition.
3.4.10 Boot Up NumLock Status This feature selects the "power on" state for NumLock. The commands are "Off" or "On". 3.4.11 Gate A20 Option "Normal": A pin in the keyboard controller controls GateA20. "Fast" (Default): Lets chipset control GateA20. 3.4.12 Typematic Rate Setting The typematic rate is the rate key strokes repeat as determined by the keyboard controller. The commands are "Enabled" or "Disabled". Enabling allows the typematic rate and delay to be selected. 3.4.
3.4.17 MPS Version Control For OS This feature is only applicable to multiprocessor motherboard as it specifies the version of the Multi-Processor Specification (MPS) that the motherboard will use. MPS 1.1 was the original specification. MPS version 1.4 adds extended configuration tables for improved support of multiple PCI bus configurations and greater expandability in the future.. The selections are "1.1" or "1.4." 3.4.
3.5 Advanced Chipset Features The Advanced Chipset Features Setup option is used to change the values in the chipset registers. These registers control most of the system options in the computer. By choosing the "Advanced Chipset Features" option from the "Initial Setup Screen" menu, the screen below will be displayed. This sample screen contains the manufacturer's default values for the PCE-7210, as shown in Figure 3-6: Figure 3.
3.5.3 Memory Hole At 15M-16M Enabling this feature reserves 15 MB to 16 MB memory address space for ISA expansion cards that specifically require this setting. This makes memory from 15 MB and up unavailable to the system. Expansion cards can only access memory up to 16 MB. The default setting is "Disabled". 3.5.4 Delay Prior to Thermal Select the period if user wants to lower the CPU speed when CPU temperature is too high. The choice: "4 Min", "8 Min", "16 Min" and "32Min". 3.5.
3.6 Integrated Peripherals The "Integrated Peripherals" screen appears when choosing the "Integrated Peripherals" item from the "Initial Setup Screen" menu. It allows the user to configure the PCE-7210 on board device according to his particular requirements. Figure 3.7: Integrated peripherals There are three sub screen of the "Integrated Peripherals" screen, users may choose each one for setting the relevant device. Figure 3.
3.6.1 IDE HDD Block Mode Block mode is also called block transfer, multiple commands, or multiple sectors read/write. If your IDE hard drive supports block mode (most new drives do), select Enabled for automatic detection of the optimal number of block read/writes per sector the drive can support. The settings are: Enabled (Default), Disabled. 3.6.
3.6.6 USB Controller Select Enabled if your system contains a Universal Serial Bus (USB) controller and you have USB peripherals. The choices: "Enabled", "Disabled". 3.6.7 USB 2.0 Controller This entry is to disable/enable the USB 2.0 controller only. The BIOS itself may/may not have high speed USB support. If the BIOS has high speed USB support built in, the support will automatically turn on when a high speed device is attached. The choices are "Enabled" or "Disabled." 3.6.
3.6.12 Onboard Serial Port 1 The settings are "3F8/IRQ4", "2F8/IRQ3", "3E8/IRQ4", "2E8/ IRQ3" and "Disabled" for the on-board serial connector. 3.6.13 Onboard Serial Port 2 The settings are "3F8/IRQ4", "2F8/IRQ3", "3E8/IRQ4", "2E8/ IRQ3" and "Disabled" for the on-board serial connector. 3.6.14 UART Mode Select This item allows you to select UART mode. The choices: "IrDA", "ASKIR", "Normal". 3.6.15 RxD, TxD Active This item allows you to determine the active of RxD, TxD.
This selection is available only if you select .ECP. or .ECP + EPP. In the Parallel Port Mode field. In ECP Mode Use DMA, you can select DMA channel 1, or DMA channel 3. Leave this field on the default setting. 3.6.23 Onboard Serial Port 3 The settings are "3F8", "2F8 ", "3E8 ", "2E8 "and "Disabled" for the onboard serial port3. 3.6.24 Onboard Serial Port 3 use The settings are "IRQ5", "IRQ10" for the on-board serial port3. 3.6.
Figure 3.12: Power management setup screen-2 3.7.1 Power Supply Type PCE-7210 can support both "ATX" and "AT" power supply. Customers can choose the PSU type through this selection. The choices are: "ATX","AT". While selecting "AT", the ACPI function will disable automatically. 3.7.2 ACPI function The choices are: "Enabled", "Disabled". 3.7.3 Power Management This category allows you to select the type (or degree) of power saving and is directly related to the following modes: 1. HDD Power Down 2.
3.7.4 Video Off Method Use this to select the method to turn off the video. The choices are : "Blank Screen", "V/H SYNC+ Blank", "DPMS". 3.7.5 Video Off In Suspend When the system is in suspend mode, the video will turn off. The choices are "No" and "Yes". 3.7.6 Suspend Type The choices are : "Stop Grant", "PwrOn Suspend". 3.7.7 Modem Use IRQ This determines the IRQ that the MODEM can use.The choices are: "3", "4", "5", "7", "9", "10", "11", "NA". 3.7.8 Suspend Mode Please refer to 3.7.3 3.7.
When Enabled, the system will resume from suspend mode if Primary IDE 0 (1) or Secondary IDE 0 (1) is active. The choice: "Enabled", "Disabled". 3.7.16 FDD, COM, LPT PORT When Enabled, the system will resume from suspend mode if FDD, COM port, or LPT port is active. The choice: "Enabled", "Disabled". 3.7.17 PCI PIRQ [A-D]# When Enabled, the system will resume from suspend mode if interrupt occurs. The choice: "Enabled", "Disabled". 3.7.
3.8.2 Resource Controlled By The Award Plug and Play BIOS has the capacity to automatically configure all the boot and Plug and Play compatible devices. However, this capability means absolutely nothing unless you are using a Plug and Play operating system such as Windows® 95/98. If you set this field to "manual," choose specific resources by going into each of the sub menus that follow this field (a sub menu is preceded by a "Y"). The settings are: Auto (ESCD) (Default), Manual. 3.8.
3.9 PC Health Status This section shows the Status of the CPU, Fan, and gives a warning for overall system status. This is only available if there is a hardware monitor on board. Figure 3.14: PC Health Status Screen 3.9.1 CPU Warning Temperature This item will prevent the CPU from overheating. The choices are: "Disabled," "50C/122F," "53C/127F," "56C/133F," "60C/140F," "63C/145F," "66C/151F," and "70C/158F". 3.9.2 Current System Temperature This shows you the current temperature of system. 3.9.
3.10 Frequency Control Figure 3.15: Frequency Control screen 3.10.1 Spread Spectrum Use this function to tune the PCI clock frequency. Setting this option to Disabled will limit the clock signal spread, increase the consistency of the frequency, but increase the EMI. Setting this option to Enabled will decrease the EMI. To enable/disable the spread spectrum. The choices are: "Disabled," "-0.40%," "- 0.50%," "- 0.60%," and "- 1.00%".
3.11 Load Setup Defaults Figure 3.16: Load Setup Defaults screen When you press on this item, you get a confirmation dialog box with a message similar to: • Load setup Defaults (Y/N) ? N Pressing 'Y' loads the default values that are factory settings for optimal performance system operations.
3.12 Set Password Figure 3.17: Set Password screen To change, confirm, or disable the password, choose the "Set Password" option from the Setup main menu and press Enter. The password can be at most 8 characters long. Remember, to enable this feature. You must first select the Security Option in the Advance BIOS FEATURES SETUP to be either "Setup" or "System." Pressing Enter again without typing any characters can disable the password setting function.
3.13 Save & Exit Setup Figure 3.18: Save & Exit Setup screen If you select this and press , the values entered in the setup utilities will be recorded in the CMOS memory of the chipset. The microprocessor will check this every time you turn your system on and compare this to what it finds as it checks the system. This record is required for the system to operate. 3.14 Exit Without Saving Figure 3.
CHAPTER 4 Chipset Software Installation Utility 59 Chapter 4
Chapter 4 Chipset Software Install Utility 4.1 Before you begin To facilitate the installation of the enhanced display device drivers and utility software, you should read the instructions in this chapter carefully before you attempt installation. The device drivers for the PCE-7210 board are located on the software installation CD. The auto-run function of the driver CD will guide and link you to the utilities and device drivers under a Windows system. .
• USB 1.1/2.0 support • Identification of Intel® chipset components in the Device Manager. • Integrates superior video features.
2. Select the PCE-7210 for entering the following screen. Move the mouse cursor over the "Install" button under the "CSI UTILITY" heading, a message pops up telling you to install the CSI utility before other device drivers, as shown in the following figure. Click on this button. Taking Windows XP as example. 3. Click "Next" when you see the following message.
4. Click "Yes" when you see the following message. 5. Click "Next" when you see the following message.
6. When the following message appears, click "Finish" to complete the installation and restart Windows.
CHAPTER 5 VGA Setup 65 Chapter 5
Chapter 5 VGA Setup 5.1 Introduction • The PCE-7210 has VGA onboard; you need to install the VGA driver to enable the function. • The on-board ATI RADEON 7000-M graphic accelerator including 16MB frames buffer memory on chip. It provides dual VGA display and supports DVI interface for panel display. 5.2 Windows XP Driver Setup Note: Before installing this driver, make sure the CSI utility has been installed in your system.
1. Insert the driver CD into your system's CD-ROM drive and choose the directory \\02-VGA_driver\Framework. Double click the "dotnetfx.exe" for installing the Microsoft .NET Framework. Click "Yes" when you see the following message. 2. Choose "I agree" and Click "Install" when you see the following message. 3. Click "OK" when you see the following message.
4. Choose the directory \\02-VGA_driver. Then select the proper version for the OS that you are using. The following installation procedure is for Windows XP. For other operating systems, please follow the on-screen installation guide. Double click the "6-2_xp2k_dd_ccc_wdm_enu_30152.exe". Click the"Install" button when you see the following message. 5. Click "Next" when you see the following message.
6. Click "Yes" when you see the following message. 7. Click "Express Recommend" when you see the following message.
8. Click "Finish" when you see the following message. 5.3 Microsoft® Windows Server™ 2003 & Windows Server 2003 x64 Driver Setup Note: 1. Before you install the driver for Microsoft® Windows Server™ 2003 & Windows Server 2003 x64, you need to set the display property by following these steps. Right click the desk top screen and choose the “Properties”.
2. Choose the “Setting” tag. 3. Choose the “Advanced” icon.
4. Choose the “Troubleshoot” tag. 5. Move the “Hardware Acceleration” to full. 6. Go to the directory: \\02-VGA_driver\Windows_2003_XP_x64 and run setup.exe; then, follow the setting procedure to ensure the driver can be installed successfully.
CHAPTER 6 LAN Configuration 73 Chapter 6
Chapter 6 LAN Configuration 6.1 Introduction The PCE-7210 designed with Broadcom BCM5715C which is a 10/100/ 1000BASE-T dual-port LAN controller for high performance server application. It provides a single x4 PCI express host interface and two integrated Gigabit Ethernet Controllers which may provide higher Thruput than the chips interface with PCI bus. 6.2 Win XP Driver Setup 1. Insert the driver CD into your system's CD-ROM drive and choose the directory \\03-LAN_driver\B57BCMCD905.
3. Choose "I accept the terms in the license agreement" and then click "Next" when you see the following message. 4. Click "Install" when you see the following message. Then the driver installation procedure will be run automatically. 5. Click "Finish" when you see the following message.
After installing the driver, you may choose to install the S/W utility for this LAN chip. You may choose the "Users Guide" for more detail information about the LAN function.
CHAPTER 7 Onboard Security Setup 77 Chapter 7
Chapter 7 Onboard Security Setup 7.1 Introduction The PCE-7210's hardware monitor is designed with Winbond W83627HF. Onboard security (OBS) functions monitor key hardware. They help you maintain your system's stability and durability. The PCE7210 can monitor 5 sets of system positive voltages, 2 sets of system negative voltages, CPU cooling fan speed, and CPU temperature. The positive system voltage sets which can be monitored include: • CPU core voltage: 1.3 V ~ 3.3 V, according to Intel specifications.
2. Click "Next" when you see the following message. 3. Click "Next" when you see the following message. 4. Click "Next" when you see the following message.
5. Click "Finish" when you see the following message. 6. Click "Yes" if you want to create a short cut for the hardware doctor. 7. Click "Yes" to restart your system after the OBS utility installed finish.
7.3 Using the OBS Hardware Doctor Utility After completing the setup, all the OBS functions are permanently enabled. When a monitored reading exceeds safe limits, a warning message will be displayed and an error beep tone will activate to attract your attention. OBS Hardware Doctor will show an icon on the right side of the bottom window bar. This icon is the "Terminate and Stay Resident" (TSR) icon.
CHAPTER 8 SATA RAID Setup 83 Chapter 8
Chapter 8 SATA RAID Setup 8.1 Introduction To support demanding disk I/O, Intel 6300ESB chipset integrates two Serial ATA controllers with software RAID 0 and 1 capability. RAID 0 stripping increases the storage performance and is designed to speed up data transfer rates for disk-intensive applications. RAID 1 mirroring protects valuable data that might be lost in the event of a hard drive failure.
8.2 Windows XP Driver Setup Note: The following installation guide is only the basic procedure for S/W SATA RAID driver, if you want to know more detail information, please check the User Guide in the driver CD. Path: \\04SATA_RAID_driver\user’s guide 1. Before you install the SATA RAID driver under, the BIOS has to be set accordantly. Integrated peripherals =>OnChip IDE Device=>SATA Mode=> RAID 2. After booting up to Windows XP, Go to the Desk Top screen and right click “My Computer”. Choose “manage”.
3. Double Click “Device manager” and you will see the device with question mark. 4. Right Click “RAID Controller” which with question mark. And choose update driver.
5. Choose “No, not this time” and click “Next”. 6. Choose “Install from a list or specific location (advanced)” and click “Next”. 7. Choose “Include this location in the search” and click “Browse”.
8. Find the right path for the Driver “ex: \\04SATA_RAID_driver\Windows_32bit_driver\WIN32” and click “OK”. The driver will install automatically. 9. Click “Finish” when you see the following message. 8.3 Utility for SATA RAID There is a basic storage management utility attached in this driver CD. Path: \\04-SATA_RAID_driver\Adaptec Embedded SATA HostRAID\utility-ASM_BE\ASM 4494\ASM 4494\books. If you want to use this utility, please read the user guide in folder "books".
CHAPTER 9 IPMI 89 Chapter 9
Chapter 9 IPMI 9.1 IPMI introduction This product fully supports Intelligent Platform Management Interface 2.0 (IPMI 2.0) and PICMG1.3R1.0 specifications. It uses a micro-controller (Hitachi H8/2167) to run an IPMI firmware. 9.2 Definitions • BMC - (Baseboard Management Controller) This is the common abbreviation for an IPMI Baseboard Management Controller • IPMB – (Intelligent Platform Management Bus) Protocol defined for passing IPMI messages over a public I2C bus.
BMC Device and Messaging Commands NetFn Cmd Mandatory / Optional Set BMC Global Enables App 0x2e M Get BMC Global Enables App 0x2f M Clear Message Flags App 0x30 M Get Message Flags App 0x31 M Enable Message Channel Receive App 0x32 O Get Message App 0x33 M Send Message App 0x34 M Read Event Message Buffer App 0x35 O Get System GUID App 0x37 O Get Channel Authentication Capabilities App 0x38 O Get Session Challenge App 0x39 O Activate Session App 0x3a O Se
Get System Restart Cause Chassis 0x07 O Set System Boot Options Chassis 0x08 O Get System Boot Options Chassis 0x09 O Set Front Panel Button Enables Chassis 0x0a O Set Power Cycle Interval Chassis 0x0b O Event Commands NetFn Cmd Mandatory / Optional Set Event Receiver S/E 0x00 M Get Event Receiver S/E 0x01 M Platform Event S/E 0x02 M PEF and Alerting Commands NetFn Cmd Mandatory / Optional Get PEF Capabilities S/E 0x10 M Arm PEF Postpone Timer S/E 0x11 M Set P
FRU Device Commands NetFn Cmd Mandatory / Optional Get FRU Inventory Area Info Storage 0x10 M Read FRU Inventory Data Storage 0x11 M Write FRU Inventory Data Storage 0x12 M Sensor Device Commands NetFn Cmd Mandatory / Optional Set Sensor Hysteresis S/E 0x24 O Get Sensor Hysteresis S/E 0x25 O Set Sensor Threshold S/E 0x26 O Get Sensor Threshold S/E 0x27 O Set Sensor Event Enable S/E 0x28 O Get Sensor Event Enable S/E 0x29 O Re-arm Sensor Events S/E 0x2a O Get S
9.4 IPMI OEM command lists In addition to the above list of IPMI commands, the following OEM commands will be supported. Table 9.2: OEM Commands list Net Function = 0x2E, LUN = 0 Code Command Request, Response Data Description 05h Set System GUID Request: Byte 1:16 – System GUID Response: Byte 1 — Completion code. This command is used to set the system GUID. The GUID can be retrieved using a standard IPMI command.
Appendix A Programming the Watchdog Timer 95 Appendix A
Appendix A Programming the Watchdog Timer A.1 Watchdog Timer The PCE-7210's watchdog timer can be used to monitor system software operation and take corrective action if the software fails to function after the programmed period. This section describes the operation of the watchdog timer and how to program it. A.1.1 Watchdog timer overview The watchdog timer is built into the super I/O controller W83627HF.
Unlock W83627HF Select register of watchdog timer Enable the function of the watchdog timer Use the function of the watchdog timer Lock W83627HF 97 Appendix A
Table A.1: Watchdog Timer Registers Address of register (2E) Attribute Read/Write Value (2F) and description 87 (hex) ----- Write this address to I/O address port 2E (hex) twice to unlock theW83627HF 07 (hex) write Write 08 (hex) to select register of watchdog timer. 30 (hex) write Write 01 (hex) to enable the function of the watchdog timer. Disabled is set as default. F5 (hex) write Set seconds or minutes as units for the timer.
F7 (hex) read/write Bit 6: Write 1 to enable keyboard to reset the timer, 0 to disable.[default] Bit 5: Write 1 to generate a timeout signal immediately and automatically return to 0. [default=0] Bit 4: Read status of watchdog timer, 1 means timer is ""time out""." AA (hex) ----- Write this address to I/O port 2E (hex) to lock the watchdog timer.2 A.1.4 Example Program 1. Enable watchdog timer and set 10 sec.
Out dx,al ;----------------------------------------------------------Dec dx ; Set second as counting unit Mov al,0f5h Out dx,al Inc dx In al,dx And al,not 08h Out dx,al ;----------------------------------------------------------Dec dx ; Set timeout interval as 10 seconds and start counting Mov al,0f6h Out dx,al Inc dx Mov al,10 Out dx,al ;----------------------------------------------------------Dec dx ; lock W83627HF Mov al,0aah Out dx,al 2.
Out dx,al ;----------------------------------------------------------Dec dx ; Enable the function of watchdog timer Mov al,30h Out dx,al Inc dx Mov al,01h Out dx,al ;----------------------------------------------------------Dec dx ; Set minute as counting unit Mov al,0f5h Out dx,al Inc dx In al,dx Or al,08h Out dx,al ;----------------------------------------------------------Dec dx ; Set timeout interval as 5 minutes and start counting Mov al,0f6h Out dx,al Inc dx Mov al,5 Out dx,al ;---------
Out dx,al Out dx,al ;----------------------------------------------------------Mov al,07h ; Select registers of watchdog timer Out dx,al Inc dx Mov al,08h Out dx,al ;----------------------------------------------------------Dec dx ; Enable the function of watchdog timer Mov al,30h Out dx,al Inc dx Mov al,01h Out dx,al ;----------------------------------------------------------Dec dx ; Enable watchdog timer to be reset by mouse Mov al,0f7h Out dx,al Inc dx In al,dx Or al,80h Out dx,al ;--------
Out dx,al Out dx,al ;----------------------------------------------------------Mov al,07h ; Select registers of watchdog timer Out dx,al Inc dx Mov al,08h Out dx,al ;----------------------------------------------------------Dec dx ; Enable the function of watchdog timer Mov al,30h Out dx,al Inc dx Mov al,01h Out dx,al ;----------------------------------------------------------Dec dx ; Enable watchdog timer to be strobed reset by keyboard Mov al,0f7h Out dx,al Inc dx In al,dx Or al,40h Out dx,a
Out dx,al Out dx,al ;----------------------------------------------------------Mov al,07h ; Select registers of watchdog timer Out dx,al Inc dx Mov al,08h Out dx,al ;----------------------------------------------------------Dec dx ; Enable the function of watchdog timer Mov al,30h Out dx,al Inc dx Mov al,01h Out dx,al ;----------------------------------------------------------Dec dx ; Generate a time-out signal Mov al,0f7h Out dx,al Inc dx In al,dx ;Write 1 to bit 5 of F7 register Or al,20h O
Appendix B I/O Pin Assignments 105 Appendix B
Appendix B I/O Pin Assignments B.1 IDE Hard Drive Connector (IDE1, IDE2) Table B.
B.2 Floppy Drive Connector (FDD1) 33 31 3 1 34 32 4 2 Table B.
B.3 Parallel Port Connector (LPT1) 13 12 2 1 26 25 15 14 Table B.
B.4 VGA Connector (VGA1) 5 1 10 6 15 11 Table B.4: VGA connector (VGA1) Pin Signal Pin Signal 1 RED 9 VCC 2 GREEN 10 GND 3 BLUE 11 N/C 4 N/C 12 SDT 5 GND 13 H-SYNC 6 GND 14 V-SYNC 7 GND 15 SCK B.5 VGA-2 Connector (VGA2) 9 5 4 3 2 1 Table B.
B.6 DVI Connector (DVI1) Table B.
B.7 RS-232 Serial Port (COM1,COM3,COM4) 9 7 5 3 1 8 6 4 2 Table B.
B.8 PS/2 Keyboard/Mouse Connector (KBMS1) 6 5 4 3 2 1 Table B.8: PS/2 keyboard/mouse connector (KBMS1) Pin Signal 1 KB DATA 2 MS DATA 3 GND 4 VCC 5 KB CLOCK 6 MS CLOCK B.9 External Keyboard Connector (KBMS2) 6 5 4 3 2 1 Table B.
B.10 CPU Fan Power Connector (CPUFAN1,CPUFAN2) 1 Table B.10: CPU Fan Power Connector (CPUFAN1,CPUFAN2) Pin Signal 1 GND 2 +12V 3 Detect B.11 Power LED and Keyboard Lock Connector (JFP3 / PWR_LED & KEY LOCK) Table B.
B.12 External Speaker Connector (JFP2 / SPEAKER) Table B.12: External Speaker Connector (JFP2 / SPEAKER) Pin Function 1 SPK+ 2 NC 3 SPK_IN 4 SPK- B.13 Reset Connector (JFP1 / RESET) Table B.
B.14 HDD LED (JFP2 / HDDLED) Table B.14: HDD LED (JFP2 / HDDLED) Pin Signal 1 IDE LED+ 2 IDE LED- B.15 ATX Soft Power Switch (JFP1 / PWR_SW) Table B.
B.16 AC'97 Link connector (AC97) Table B.16: AC'97 Link connector (AC97) 1 VCC 2 GND 3 Sync 4 BITCLK 5 SDOUT 6 SDIN0 7 SDIN1 8 AC-RST 9 +12V 10 GND 11 GND 12 N/C B.17 SM Bus Connector (JFP2 / SNMP) Table B.
B.18 LAN1 and LAN2 LED connector (LANLED1) 1 3 5 7 9 2 4 6 8 Table B.
B.19 GPIO header (GPIO1) 1 3 5 7 9 11 13 2 4 6 8 10 12 14 Table B.
B.20 System I/O Ports Table B.20: System I/O ports Addr.
B.21 DMA Channel Assignments Table B.
B.22 Interrupt Assignments Table B.
B.24 PCI Bus Map Table B.
Appendix C Programming the GPIO and Watchdog Timer 123 Appendix C
Appendix C Programming GPIO & Watchdog Timer C.1 Supported GPIO Register Bellow are detailed description of the GPIO addresses and programming sample. C.1.1 GPIO Registers CRF0 (GP10-GP17 I/O selection register. Default 0xFF) When set to a '1', respective GPIO port is programmed as an input port. When set to a '0', respective GPIO port is programmed as an output port. CRF1 (GP10-GP17 data register. Default 0x00) If a port is programmed to be an output port, then its respective bit can be read/written.
C.1.2 GPIO Example program-1 -----------------------------------------------Enter the extended function mode, interruptible double-write -----------------------------------------------MOV DX,4EH MOV AL,87H OUT DX,AL OUT DX,AL --------------------------------------------------------------Configurate logical device 7(GP10~GP17), configuration register CRF0,CRF1,CRF2 --------------------------------------------------------------MOV DX,4EH MOV AL,07H ; point to Logical Device Number Reg.
OUT DX,AL MOV DX,4FH MOV AL,??H ; Put the output value into AL OUT DX,AL -----------------------------------------Exit extended function mode | -----------------------------------------MOV DX,4EH MOV AL,AAH OUT DX,AL PCE-7210 User Manual 126
