AMC-1000 AdvancedMC™ Processor Module with Intel® Core™2 Duo Processor User’s Manual Manual Rev. 2.00 Revision Date: March 26, 2009 Part No: 50-1Z003-1000 Advance Technologies; Automate the World.
Revision History Revision Release Date 2.
AMC-1000 Preface Copyright 2008 ADLINK Technology Inc. This document contains proprietary information protected by copyright. All rights are reserved. No part of this manual may be reproduced by any mechanical, electronic, or other means in any form without prior written permission of the manufacturer.
Using this Manual Audience and Scope The AMC-1000 User’s Manual is intended for hardware technicians and systems operators with knowledge of installing, configuring and operating industrial grade CompactPCI modules. Manual Organization This manual is organized as follows: Chapter 1, Overview: Introduces the AMC-1000, its features, block diagrams, and package contents. Chapter 2, Specifications: Presents detailed specification information, power consumption, and technical drawings.
AMC-1000 Conventions Take note of the following conventions used throughout this manual to make sure that users perform certain tasks and instructions properly. Additional information, aids, and tips that help users perform tasks. NOTE: CAUTION: WARNING: Preface Information to prevent minor physical injury, component damage, data loss, and/or program corruption when trying to complete a task.
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AMC-1000 Table of Contents Revision History...................................................................... ii Preface .................................................................................... iii List of Tables.......................................................................... xi List of Figures ...................................................................... xiii 1 Overview ............................................................................. 1 1.1 Introduction ....
3.4 Peripherals......................................................................... 18 3.4.1 Gigabit Ethernet Interfaces ............................................ 18 3.4.2 USB Interfaces............................................................... 18 3.4.3 Serial Port ...................................................................... 19 3.4.4 Serial ATA Interfaces..................................................... 19 3.4.5 Timer...............................................................
AMC-1000 9 BIOS Setup Utility............................................................. 49 9.1 Starting the BIOS............................................................... 49 9.2 Main Setup......................................................................... 53 9.3 Advanced BIOS Setup....................................................... 54 9.3.1 CPU Configuration......................................................... 54 9.3.2 IDE Configuration ...........................................
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AMC-1000 List of Tables Table Table Table Table Table Table Table Table Table Table Table 2-1: 3-1: 3-2: 4-1: 4-2: 4-3: 4-4: 4-5: 4-6: 4-7: 4-8: List of Tables AMC-1000 Power Consumption ............................... 7 Supported Processors, Power Dissipation ............. 13 SMBus Devices and Addresses ............................. 21 VGA Connector Pin Definition ................................ 25 Front Panel USB Connector Pin Definition ............. 25 COM Connector Pin Definition .................
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AMC-1000 List of Figures Figure 1-1: Figure 2-1: Figure 2-2: Figure 3-1: Figure 7-1: List of Figures AMC-1000 Block Diagram ......................................... 3 AMC-1000 Board Layout ........................................... 8 AMC-1000 Front Panel.............................................. 9 Intel® 3100 Chipset Block Diagram......................... 14 AMC-1000 Watchdog Timer Architecture................
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AMC-1000 1 Overview 1.1 Introduction The AMC-1000 is a single-width, mid-size AdvancedMC™ Processor Module combining a dual-core 64-bit low-power processor and server-class integrated 3100 chipset to optimize power consumption, computing power and I/O bandwidth.
1.2 Features 2 X Intel® Core™2 Duo processor, up to 1.5GHz X Server class Intel® 3100 chipset X DDR2-400 JEDEC standard SO-RDIMM (REG/ECC), up to 4GB X Flexible PCI Express configurations Z two PCI-E x4 Z one PCI-E x4 and four PCI-E x1 Z eight PCI-E x1 (build option) X PICMG AMC.0 single-width, mid-size standard form factor X AMC.1 PCI Express Type 1/4 X AMC.2 Gigabit Ethernet E2 X AMC.
AMC-1000 1.3 Block Diagram Intel® Core™2 Duo Celeron® M FSB-667MHz USB 1x, COM1 RGB DDR2-400 SO-RDIMM PCIe® x4 PCI™ ES1000 FRONT PANEL BIOS PCIe® x4 LPC BIOS PPS Intel® 3100 Whitmore Lake PEX8505 SATA x2 Port 2-3 (AMC.3) PCIe® x4 COM2 Port4-11 (AMC.1) PCIe® x4 (Port4-7) PCIe® x4 or x1 (Port8-11) 82571EB Port 0-1 (AMC.
1.4 Package Contents The AMC-1000 is packaged with the following components. If any of the items on the contents list are missing or damaged, retain the shipping carton and packing material and contact the dealer for inspection. Please obtain authorization before returning any product to ADLINK.
AMC-1000 2 Specifications 2.1 CPU/Chipset/Memory Processor µFC-BGA Intel® Core™ 2 Duo LV (L7400) 1.5 GHz, FSB 667MHz, 4 MB L2 cache µFC-BGA Intel® Celeron® M ULV (423) 1.06 GHz, FSB 533MHz, 1 MB L2 cache Chipset Intel® 3100 chipset Memory Single channel onboard registered ECC DDR2 SDRAM at 400MHz up to 4GB; one SO-RDIMM socket 2.2 Standards and Interfaces AMC Standards PCI Express Gigabit Ethernet Serial ATA Display AMC.0 Advanced Mezzanine Card R2.0 AMC.1 PCI Express R1.0 AMC.
2.3 Software BIOS Supported OS Award BIOS with 8Mbit flash memory Microsoft Windows XP Professional SP2 Microsoft Windows Server 2003 Microsoft Windows XP Embedded Feature Pack 2007 RedHat Enterprise Linux Release 5.1 MontaVista Linux Carrier Grade Edition 4.0 Contact ADLINK for other OS availability 2.4 Mechanical/Environmental Form Factor 181.5mm x 73.5mm x 18.96mm (Mid-size) 181.5mm x 73.5mm x 28.
AMC-1000 2.5 Power Consumption This section provides the information on the power consumption of AMC-1000. The following tables indicate the current and power consumption using real applications with 12V power rail under Linux idle mode and Windows. Processor LINUX idle Windows XP idle Windows XP 100% usage Core™2 Duo 1.5 GHz (L7400) 2.64 A / 31.64 W 2.84 A / 34.04 W 3.36 A / 40.32 W Celeron M 1.06 GHz (423) 2.31 A / 27.73 W 2.32 A / 27.80 W 2.45 A / 29.
2.
AMC-1000 AMC-1000 Assembly Outline DB-1000 SO-RDIMM Thermal Module Battery Module Handle The DB-1000 is an adaptor board with battery and USB flash controller designed for the AMC-1000.
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AMC-1000 3 Functional Description The following sections describe the AMC-1000 main functions and board interfaces. 3.1 CPU Intel® Core™2 Duo The AMC-1000 supports the latest Intel® Intel® Core™2 Duo processor family up to speeds of 1.5 GHz with up to 667 MHz FSB. The Intel® Core™ Duo consists of two cores and up to 2 MB L2 cache shared by both cores. The Intel® Core™2 Duo consists of two cores, up to 4 MB L2 cache shared by both cores and Intel Extended Memory 64 Technology (Intel EM64T).
X Outstanding dual-core performance with low power consumption X On die, primary 32 KB instruction cache and 32KB writeback data cache X On die, L1 and L2 cache with Advanced Transfer Cache Architecture X Advanced Branch Prediction and Data Prefetch Logic X Streaming SIMD Extensions 3 (SSE3) X Up to 667 MHz, Source-Synchronous Front Side Bus (FSB) X Advanced Power Management features including Enhanced Intel SpeedStep technology X Intel Extended Memory 64 Technology for 64-bit computing Inte
AMC-1000 including 3D graphics, video decoding/encoding, and speech recognition. X 533-MHz, source-synchronous front side bus (FSB) X Advanced power management features X Maintained support for MMX_ technology (technology designed to accelerate multimedia and communications software) X Compatible with IA-32 software Supported Processors, Maximum Power Dissipation The following tables indicate the processors supported on the AMC-1000 and their maximum power dissipation.
3.3 Chipset The Intel® 3100 Chipset is a single integrated chip that contains the functionality of a Memory Controller Hub and an I/O Controller Hub (see Block Diagram below). In this document the Memory Controller Hub unit and I/O Controller Hub unit in the Intel® 3100 Chipset are referenced as IMCH (Integrated Memory Controller Hub) and IICH (Integrated I/O Controller Hub) respectively.
AMC-1000 3.3.1 PCI Express The Intel 3100 Chipset provides one configurable x8 PCI Express interface with a maximum theoretical bandwidth of 4 GByte/s. The x8 PCI Express interface may alternatively be configured as two independent x4 PCI Express interfaces with a maximum theoretical bandwidth of 2 GBytes/s each.
X Interrupt Controller X Power Management Logic X DMA Controller X Timers Based on 82C54 X High Precision Event Timers (HPET) X Real Time Clock with 256-byte Battery-backed CMOS RAM X System TCO Reduction Circuits X SMBus X Watchdog Timers X PCI 2.3 Interface X Two fully functional serial ports X 38 General Purpose I/Os (GPIO) 3.3.
AMC-1000 X Comprehensive testability including full internal scan, memory BIST, I/O xor tree and Iddq X Full ACPI 1.
3.4 Peripherals The following peripherals are available on the AMC-1000 board: 3.4.1 Gigabit Ethernet Interfaces The AMC-1000 module is designed with an Intel® 82571EB Dual Gigabit Ethernet Controller, using the Intel® 3100's PCI Express x4 interface to offer two 1000BASE-BX Ethernet ports for AMC.2 support. The Intel® 82571EB Dual Gigabit Ethernet Controller’s architecture is optimized to deliver high performance with the lowest power consumption.
AMC-1000 3.4.3 Serial Port One PC-compatible serial RS-232 and is fully 16C550 compatible when set to RS-232 mode. The COM1 signal is routed to a RJ45 port on front panel of the AMC-1000. This port can also be used as a Module Management Controller (MMC) debug port (see “COM1 Mode Switch Settings (SWX4)” on page 27). The serial port includes a complete set of handshaking and modem control signals. Data transfer rates up to 115.2 kB/s are supported. 3.4.
3.4.6 Watchdog Timer The AMC-1000 provides a Watchdog Timer that is programmable for a timeout period ranging from 1 µs to 1 sec, or from 1 ms to 1050 seconds. Failure to trigger the Watchdog Timer in time results in a system reset, an interrupt, or NMI. In the dual-stage mode, a combination of both NMI, and reset if the Watchdog is not serviced. A hardware status flag will be provided to determine if the Watchdog Timer generated the reset (see Chapter 7 “Watchdog Timer” on page 39. 3.4.
AMC-1000 3.4.8 SMBus Devices The AMC-1000 provides a System Management Bus (SMBus) for access to several system monitoring and configuration functions. The SMBus consists of a two-wire I2C bus interface. The following table describes the function and address of each onboard SMBus device. Device SMBUS Address Thermal Sensor 01001100(4C) Watchdog Timer 10011100(9C) DDR2 10100000(A0) Table 3-2: SMBus Devices and Addresses 3.4.
3.4.10 FWH Flash Memory & Failover The AMC-1000 is designed with two on board 8Mbit Firmware Hub (FWH) devices for failover purposes, the BIOS1 FWH and BIOS2 FWH. The system BIOS will be flashed to both BIOS1 and BIOS2 FWHs at the factory. The BIOS1 device is the default boot BIOS. If the BIOS1 FWH fails to boot, the system will trigger the flash recovery procedure that will display the following messages on screen, indicating that the contents of the BIOS2 FWH are being copied to the BIOS1 FWH.
AMC-1000 After reboot, the standard boot screen will display as shown below. If the BIOS1 FWH fails to be properly flashed with the contents of the BIOS2 FWH or the BIOS1 FWH is not functional, the display will show “Booting BIOS2...” and the system will boot directly from the BIOS2 FWH.
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AMC-1000 4 Connectors and Switches See “AMC-1000 Board Layout” on page 8 for connector and switch locations. 4.1 Front Panel Connectors VGA Connector The 15-pin female connector is used to connect a VGA analog monitor to the AMC-1000 board. Signal Name Pin # Pin # Signal Name Red 1 2 Green Blue 3 4 N.C. GND 5 6 GND GND 7 8 GND +5V. 9 10 GND N.C.
COM Connector CN14 (RJ45) Pin # Signal Function 1 DCD# Data Carrier Detect 2 RTS# Request to Send 3 DSR# Data Set Ready 4 TXD Transmit Data 5 RXD Receive Data 6 GND Ground 7 CTS# Clear to Send 8 DTR# Data Terminal Ready Table 4-3: COM Connector Pin Definition 26 Connectors and Switches
AMC-1000 4.2 Onboard Switches PCI Express Mode Switch (SWX3) Set switch SWX3 to configure AMC ports 8~11 to PCI-E 1 x4 or 4 x1. See Chipset, “PCI Express” on page 15 for a detailed explanation of the AMC-1000’s PCI Express functions.
BIOS FWH Boot Selection (SWX2) Set Pin 3 of switch SWX2 to determine whether the AMC-1000 boots from BIOS1 or BIOS2 FWH. Setting the module to boot from BIOS2 FWH effectively makes BIOS2 the default FWH. Mode Pin 1 Pin 2 Pin 3 Pin 4 Boot from BIOS1 OFF* OFF* OFF ON* Boot from BIOS2 — — ON — Table 4-7: FWH Boot Selection Switch Settings Pins marked (*) are for debugging purposes only. Please do not change the settings.
AMC-1000 4.
Pin# Signal Function Pin# Signal Function 85 GND Logic Ground 86 GND Logic Ground 84 P12V_ PWR 12V Payload Power 87 PEX_CON_RX4- Port 8 Receiver - for PCI-E 83 PS0# Presence 0 88 PEX_CON_RX4+ Port 8 Receiver + for PCI-E GND Logic Ground 82 GND Logic Ground 89 81 PCIEREF- Fabric Clock A- 90 PEX_CON_TX4- Port 8 Transmitter - for PCI-E 80 PCIEREF+ Fabric Clock A+ 91 PEX_CON_TX4+ Port 8 Transmitter + for PCI-E 79 GND Logic Ground 92 GND Logic Ground 78 NC Not Conn
AMC-1000 Pin# Signal Function Pin# Signal Function 54 PCIEB_WML_RX1- Port 5 Receiver - for PCI-E 117 NC Not Connected 53 PCIEB_WML_RX1+ Port 5 Receiver + for PCI-E 118 NC Not Connected 52 GND Logic Ground 119 GND Logic Ground 51 PCIEB_TX1- Port 5Transmitter - for PCI-E 120 NC Not Connected 50 PCIEB_TX1+ Port 5 Transmitter + for PCI-E 121 NC Not Connected 49 GND Logic Ground 122 GND Logic Ground 48 PCIEB_WML_RX0- Port 4 Receiver - for PCI-E 123 SATA_RX2- Port 14
Pin# Signal Function Pin# Signal Function 23 LAN_A_SRDS_RXB+ Port 1 Receiver + for GbE 148 SATA_RX5+ Port 18 Receiver + for SATA GND Logic Ground 22 149 GND Logic Ground 150 SATA_TX5- Port 18 Transmitter - for SATA 20 LAN_A_SRDS_TXB+ Port 1 Transmitter + for GbE 151 SATA_TX5+ Port 18 Transmitter + for SATA 19 GND Logic Ground 152 GND Logic Ground 18 P12V_PWR 12V Payload Power 153 USB1- Port 19 Receiver - for USB 17 GA1 Geographic Addr.
AMC-1000 5 Getting Started The AMC-1000 has been designed for easy installation. However, the following standard precautions, installation procedures, and general information must be observed to ensure proper installation and to preclude damage to the module, other system components, or injury to personnel. 5.1 Safety Requirements The following safety precautions must be observed when installing or operating the AMC-1000.
5.2 Installing the AMC-1000 The AMC-1000 module can be installed into a MicroTCA chassis or ATCA carrier board with slots compliant to AMC.3. The target module slot must properly match the width and height of the AMC1000. The AMC-1000 is designed to support hot swap to allow the module to be inserted into a fully powered system. 1. Be sure to follow proper antistatic procedures such as using an ESD wrist strap and connecting the end of the strap to ground of an anti-ESD table. 2.
AMC-1000 5.3 Removing the AMC-1000 The AMC-1000 module is hot-swappable and can be removed from the chassis or carrier board without powering down the system. 1. Stop the operating system or software that is running on the module. 2. Pull out the Module Handle. The blue LED will blink, indicating the module is in the process of being de-activated. 3. Once the module has been de-activated, the blue LED will stay on continuously. 4. Extract the module by gently pulling on the module handle. 5.
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AMC-1000 6 Driver Installation The AMC-1000 drivers are available from the ADLINK All-In-One CD at X:\AMC-1000\, or from the ADLINK website (http://www.adlinktech.com). The following describes the driver installation procedures for Windows® 2000 and Windows® XP. Install the Windows operating system before installing any driver. Most standard I/O device drivers are installed during Windows installation.
8. When prompted to locate the file, click Browse, then select C2_29263.inf from this driver CD directory: …\ES1000\2KXP_INF\ 9. When the file is found, click OK, then click Next. 10.Follow screen procedures to install the drivers, then restart the system to complete installation. Windows XP 1. Follow steps 1 to 4 of the previous section. 2. When the Hardware Update Wizard window appears, select the Yes, this time only option, then click Next. 3.
AMC-1000 7 Watchdog Timer 7.1 WDT Overview This section explains the operation of the AMC-1000’s Watchdog Timer (WDT). The primary function of the WDT is to monitor the AMC-1000 operation and to reset the system if a software application fails to function as programmed.
the internal IO to control the WDT and retrieve its status. The basic functions of the WDT include: X Setting the watchdog timeout interval X Starting the timer countdown X Selecting 1 step or 2 step WDT X Enabling or disabling WDT X Reloading the timeout value to keep the watchdog from timing out X Setting the range of the timeout period from 1 µs to 1 second, or from 1 ms to 1050 seconds When the watchdog times out, it will send a RESET signal to the system. 7.
AMC-1000 void write_config_data_byte(unsigned char,unsigned char); unsigned char read_config_data_byte(unsigned char); unsigned int read_wdt_io_base(); /* access wdt I/O registers routines */ void write_preload_val2_reg(unsigned long int); void clear_preload_val1_reg(); void unlocking_reg(); /* Global parameter */ unsigned int wdt_io_base; void main(void) { // unsigned int wdt_io_base; unsigned long int time_out_val=0; wdt_io_base=read_wdt_io_base(); printf("Intel 3100 Chipset Watch-Dog Timer test utility.
outportb(wdt_io_base+0x18,2);//watchdog timer enable!! printf("\nPlease waiting for Watch-Dog Timer time-out!!"); } /************************************/ unsigned int read_wdt_io_base() { unsigned char_wdt_io_base[2]; int *p_wdt_io_base; p_wdt_io_base=&_wdt_io_base; enter_config_mode(); write_config_data_byte(0x07,6);//select logic 6 - WDT _wdt_io_base[1]=read_config_data_byte(0x60) ; _wdt_io_base[0]=read_config_data_byte(0x61) ; exit_config_mode(); return (*p_wdt_io_base); } /****************************
AMC-1000 outportb(0xeb,00); //io delay outportb(config_port_index,0x08); } /************************************/ unsigned char read_config_data_byte(unsigned char _index) { unsigned char r_data; outportb(config_port_index,_index); outportb(0xeb,00); //io delay r_data=inportb(config_port_data); return(r_data); } /************************************/ void write_config_data_byte(unsigned char _index,unsigned char _data) { outportb(config_port_index,_index); outportb(0xeb,00); //io delay outportb(config_port
// unlocking_reg(); outportb(wdt_io_base+5,*p_data); p_data++; printf("%x\n",*p_data); unlocking_reg(); outportb(wdt_io_base+6,*p_data); } /************************************/ void clear_preload_val1_reg() { unlocking_reg(); outportb(wdt_io_base,0x00); unlocking_reg(); outportb(wdt_io_base+1,0x00); unlocking_reg(); outportb(wdt_io_base+2,0x00); } /************************************/ void unlocking_reg() { outportb(wdt_io_base+12,0x80); outportb(0xeb,00); //io delay outportb(wdt_io_base+12,0x86); 44
AMC-1000 8 IPMI Interface The AMC-1000 implements an onboard Module Management Controller (MMC) as specified in the AMC.0 specification, based on the Atmel ATMega128L. The MMC provides an Intelligent Platform Management Interface (IPMI) which will communicate with AdvancedTCA and MicroTCA shelf managers. The MMC firmware is based on Pigeon Point System’s (PPS) MMC firmware. This MMC controls and monitors the following: X Hot Swap X System temperature X Voltage (+3.
8.1 Command List The following table shows the command list supported by the MMC. The “IPM Controller Req” column indicates if a particular command is required by the relevant specifications. IPMI/PICMG Spec Ref. IPM Device “Global” Commands Command NetFn CMD IPM Controller Req Get Device ID 17.1 App 01h Mandatory Cold Reset 17.2 App 02h Optional Warm Reset 17.3 App 03h Optional App 34h Optional IPMI Messaging Support Commands Send Message 18.
AMC-1000 IPMI/PICMG Spec Ref. 29.13 NetFn S/E 2Bh IPM Controller Req Optional Get Sensor Reading 29.14 S/E 2Dh Mandatory Get Sensor Type 29.16 S/E 2Fh Optional Get FRU Inventory Area Info 28.1 Storage 10h Mandatory Read FRU Data 28.2 Storage 11h Mandatory Write FRU Data 28.
8.2 FRU Data Table The AMC-1000 includes the standard FRU data records with the following information. Board Information Item Content Example Comment Version A2 Hardware revision Language Code en English Mfg Date/Time 03/08/2008 MM/DD/YYYY Manufacturer ADLINK Technology Product Name AMC-1000 Serial Number 7C37EA3003 Part Number AMC-1000 FRU Programmer File ID FRU V1.1 Module Current Current Draw = 3.
AMC-1000 9 BIOS Setup Utility The following chapter describes basic navigation for the AMIBIOS®8 BIOS setup utility. 9.1 Starting the BIOS To enter the setup screen, follow these steps: 1. Power on the motherboard 2. Press the < Delete > key on your keyboard when you see the following text prompt: < Press DEL to run Setup > 3. After you press the < Delete > key, the main BIOS setup menu displays. You can access the other setup screens from the main BIOS setup menu, such as Chipset and Power menus.
Setup Menu The main BIOS setup menu is the first screen that you can navigate. Each main BIOS setup menu option is described in this user’s guide. The Main BIOS setup menu screen has two main frames. The left frame displays all the options that can be configured. “Grayed” options cannot be configured, “Blue” options can be. The right frame displays the key legend. Above the key legend is an area reserved for a text message. When an option is selected in the left frame, it is highlighted in white.
AMC-1000 These keys include < F1 >, < F10 >, < Enter >, < ESC >, < Arrow > keys, and so on. . There is a hot key legend located in the right frame on most setup screens. NOTE: The < F8 > key on your keyboard is the Fail-Safe key. It is not displayed on the key legend by default. To set the Fail-Safe settings of the BIOS, press the < F8 > key on your keyboard. It is located on the upper row of a standard 101 keyboard.
F10 The < F10 > key allows you to save any changes you have made and exit Setup. Press the < F10 > key to save your changes. The following screen will appear: Press the < Enter > key to save the configuration and exit. You can also use the < Arrow > key to select Cancel and then press the < Enter > key to abort this function and return to the previous screen. ESC The < Esc > key allows you to discard any changes you have made and exit the Setup.
AMC-1000 9.2 Main Setup When you first enter the Setup Utility, you will enter the Main setup screen. You can always return to the Main setup screen by selecting the Main tab. There are two Main Setup options. They are described in this section. The Main BIOS Setup screen is shown below. System Time/System Date Use this option to change the system time and date. Highlight System Time or System Date using the < Arrow > keys. Enter new values using the keyboard.
9.3 Advanced BIOS Setup Select the Advanced tab from the setup screen to enter the Advanced BIOS Setup screen. You can select any of the items in the left frame of the screen, such as SuperIO Configuration, to go to the sub menu for that item. You can display an Advanced BIOS Setup option by highlighting it using the < Arrow > keys. The Advanced BIOS Setup screen is shown below. The sub menus are described on the following pages. 9.3.
AMC-1000 Intel® Core™ 2 Duo LV (L7400) Hardware Prefetcher The processor has a hardware prefetcher that automatically analyzes its requirements and prefetches data and instructions from the memory into the Level 2 cache that are likely to be required in the near future. This reduces the latency associated with memory reads. When enabled, the processor's hardware prefetcher will be enabled and allowed to automatically prefetch data and code for the processor.
When enabled, the processor will retrieve the currently requested cache line, as well as the subsequent cache line. When disabled, the processor will only retrieve the currently requested cache line. Intel® Virtualization Technology This is used to enable or disable the Intel® Virtualization Technology (IVT) extension, which is also known by the development code name of Vanderpool. It allow multiple operating systems to run simultaneously on the same system.
AMC-1000 Intel® Celeron® M ULV (423) There are no options available for the Intel® Celeron® M ULV (423) CPU. 9.3.2 IDE Configuration You can use this screen to select options for the IDE Configuration Settings. Use the up and down < Arrow > keys to select an item. Use the < + > and < - > keys to change the value of the selected option. A description of the selected item appears on the right side of the screen. The settings are described on the following pages.
ATA/IDE Configuration This item specifies whether the IDE channels should be initialized in Compatible or Enhanced mode of operation. The settings are Disabled, Compatible and Enhanced. Configure SATA as This option controls the SATA controller’s operating mode: IDE mode or AHCI mode. Primary IDE Master/Slave, Secondary IDE Master/Slave Select one of the hard disk drives to configure it. Press < Enter > to access its sub menu.
AMC-1000 9.3.3 AHCI Configuration This function displays drive identity information if a SATA hard drive is detected by the AHCI ports. It is only available if Configure SATA has been set to AHCI. Each AHCI port can be set to auto-detect (Auto) or can be disabled (Not Installed).
9.3.4 Hardware Health Configuration This option displays the current status of all of the monitored hardware devices/components such as voltages and temperatures. The options are Enabled and Disabled.
AMC-1000 9.3.5 Configuration Remote access configuration provides the settings to allow remote access by another computer to get POST messages and send commands by serial port access. Remote Access Select this option to Enable or Disable the BIOS remote access feature here. NOTE: Remote Access requires a dedicated serial port connection. If both serial ports are configured to disabled, you should set this value to Disabled or it may cause abnormal boot up.
Flow Control Set this option to select Flow Control for console redirection. The settings for this value are None, Hardware, or Software. Terminal Type This option is used to select either VT100/VT-UTF8 or ANSI terminal type. The settings for this value are ANSI, VT100, or VT-UTF8. VT-UTF8 Combo Key Support This option enables VT-UTF8 Combination Key Support for ANSI/VT100 terminals. The settings for this value are Enabled or Disabled.
AMC-1000 9.3.6 USB Configuration You can use this screen to select options for the USB Configuration. Use the up and down < Arrow > keys to select an item. Use the < + > and < - > keys to change the value of the selected option. The settings are described on the following pages. The screen is shown below. Legacy USB Support Legacy USB Support refers to the USB mouse and USB keyboard support.
Enabled Set this value to allow the use of USB devices during boot and while using DOS. Auto This option auto detects USB Keyboards or Mice and if found, allows them to be utilized during boot and while using DOS. Port 64/60 Emulation It uses USB to receive the IO port 64/60 trap to emulate the legacy keyboard controller. USB 2.0 Controller Mode The USB 2.0 Controller Mode configures the data rate of the USB port. The options are FullSpeed (12 Mbps) and HiSpeed (480 Mbps).
AMC-1000 9.4 PCI/PnP Setup Select the PCI/PnP tab from the setup screen to enter the Plug and Play BIOS Setup screen. You can display a Plug and Play BIOS Setup option by highlighting it using the < Arrow > keys. The Plug and Play BIOS Setup screen is shown below. Clear NVRAM Set this to "Yes" clear NVRAM during system boot. Plug & Play O/S No: Allow the BIOS to configure all devices in the system.
Allocate IRQ to PCI VGA No: Does not assign IRQ to PCI VGA card even if card requests an IRQ Yes: Assigns IRQ to PCI VGA card if card requests IRQ IRQ/DMA Channel Set this value to allow the IRQ/DMA channel settings to be modified. Available – This setting allows the specified IRQ/ DMA channel to be used by a PCI/PnP device. Reserved – This setting allows the specified IRQ/DMA channel to be used by a legacy ISA device.
AMC-1000 9.5 Boot Setup Select the Boot tab from the setup screen to enter the Boot BIOS Setup screen. You can select any of the items in the left frame of the screen, such as Boot Device Priority, to go to the sub menu for that item. You can display a Boot BIOS Setup option by highlighting it using the < Arrow > keys.
9.5.1 Boot Setting Configuration Use this screen to select options for the Boot Settings Configuration. Use the up and down keys to select an item. Use the and keys to change the value of the selected option. The settings are described on the following pages. The screen is shown below. Quick Boot Disabled – Set this value to allow the BIOS to perform all POST tests. Enabled – Set this value to allow the BIOS to skip certain POST tests to boot faster.
AMC-1000 9.5.2 Boot Device Priority Boot Devices Priority This setting specifies the boot sequence from the available devices. The 1st Boot Device is the primary device.
9.5.3 Hard Disk Drives Hard Disk Device Priority This setting specifies the boot sequence from the available devices. The 1st Boot Device is the primary device.
AMC-1000 9.6 Security Setup Password Support Two Levels of Password Protection Provides both a Supervisor and a User password. If you use both passwords, the Supervisor password must be set first. The system can be configured so that all users must enter a password every time the system boots or when Setup is executed, using either or either the Supervisor password or User password. The Supervisor and User passwords activate two different levels of password security.
Remember the Password Keep a record of the new password when the password is changed. If you forget the password, you must erase the system configuration information in NVRAM. To access the sub menu for the following items, select the item and press < Enter >: X Change Supervisor Password X Change User Password X Clear User Password Supervisor Password Indicates whether a supervisor password has been set. User Password Indicates whether a user password has been set.
AMC-1000 Type the password and press < Enter >. The screen does not display the characters entered. Retype the password as prompted and press < Enter >. If the password confirmation is incorrect, an error message appears. The password is stored in NVRAM after setup completes. 9.6.2 Change User Password Select Change User Password from the Security Setup menu and press < Enter >. Enter New Password: Type the password and press < Enter >. The screen does not display the characters entered.
9.7 Chipset Setup Select the Chipset tab from the setup screen to enter the Chipset BIOS Setup screen. You can select any of the items in the left frame of the screen, such as CPU Configuration, to go to the sub menu for that item. You can display a Chipset BIOS Setup option by highlighting it using the < Arrow > keys. The Chipset BIOS Setup screen is shown below.
AMC-1000 9.7.1 South Bridge Configuration You can use this screen to select options for the South Bridge Configuration. South Bridge is a chipset on the motherboard that controls the basic I/O functions, USB ports, audio functions, modem functions, IDE channels, and PCI slots. Use the up and down < Arrow > keys to select an item. Use the < Plus > and < Minus > keys to change the value of the selected option. SMBUS Controller This setting controls the SMBUS controller.
9.7.2 Onboard VGA You can use this option to control the onboard VGA. The settings are Enabled and Disabled. 9.7.3 CMOS Backup Function The option controls the CMOS backup function. When set to None, the system does not perform the CMOS backup function. When set to Save, the system backs up the BIOS settings from CMOS to the BIOS1 FWH NVRAM once. After reboot, the setting returns to None. When set to Restore, the system restores the BIOS data from the BIOS1 FWH NVRAM to CMOS once.
AMC-1000 9.8 Exit Menu Select the Exit tab from the setup screen to enter the Exit BIOS Setup screen. You can display an Exit BIOS Setup option by highlighting it using the < Arrow > keys. The Exit BIOS Setup screen is shown below. Save Changes and Exit When you have completed the system configuration changes, select this option to leave Setup and reboot the computer so the new system configuration parameters can take effect. Save Configuration Changes and Exit Now? [Ok] [Cancel] appears in the window.
Discard Changes and Exit Select this option to quit Setup without making any permanent changes to the system configuration. Discard Changes and Exit Setup Now? [Ok] [Cancel] appears in the window. Select Ok to discard changes and exit. Discard Changes Select Discard Changes from the Exit menu and press < Enter >. Select Ok to discard changes. Load Optimal Defaults Automatically sets all Setup options to a complete set of default settings when you select this option.
AMC-1000 Important Safety Instructions Please read and follow all instructions marked on the product and in the documentation before operating the system. Retain all safety and operating instructions for future use. X Please read these safety instructions carefully. X Please keep this User’s Manual for future reference. X The equipment should be operated within the recommended operating temperature. X The equipment should be operated only from the type of power source indicated on the rating label.
X Openings in the case are provided for ventilation. Do not block or cover these openings. Make sure there is adequate space around the system for ventilation when setting up the work area. Never insert objects of any kind into the ventilation openings. X To avoid electrical shock, always unplug all power and modem cables from the wall outlets before removing covers. X Lithium Battery provided (real time clock battery) “CAUTION - Risk of explosion if battery is replaced by an incorrect type.
AMC-1000 Getting Service Contact us should you require any service or assistance. ADLINK Technology Inc. Address: 9F, No.166 Jian Yi Road, Chungho City, Taipei County 235, Taiwan קᗼխࡉؑ৬ԫሁ 166 ᇆ 9 ᑔ Tel: +886-2-8226-5877 Fax: +886-2-8226-5717 Email: service@adlinktech.com Ampro ADLINK Technology Inc. Address: 5215 Hellyer Avenue, #110, San Jose, CA 95138, USA Tel: +1-408-360-0200 Toll Free: +1-800-966-5200 (USA only) Fax: +1-408-360-0222 Email: info@adlinktech.
ADLINK Technology Inc. (German Liaison Office) Address: Nord Carree 3, 40477 Duesseldorf, Germany Tel: +49-211-495-5552 Fax: +49-211-495-5557 Email: emea@adlinktech.com ADLINK (French Liaison Office) Address: 15 rue Emile Baudot, 91300 MASSY Cedex, France Tel: +33 (0) 1 60 12 35 66 Fax: +33 (0) 1 60 12 35 66 Email: france@adlinktech.com ADLINK Technology Japan Corporation Address: 151-0072 ᧲੩ㇺᷦ⼱ᐈ䊱⼱㩷 1-1-2 ᦺᣣ↢ᐈ䊱⼱䊎䊦 8F Asahiseimei Hatagaya Bldg.
