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Summary of Contents for EVOC EPE-1814V2NAR
- Page 1 EPE-1814V2NAR EPE 全长主板带 VGA 和双千兆 LAN EPE Full-size Motherboard with VGA and Double Gigabit LAN Version:C00...
- Page 2 Announcement What contained in this User Manual does not represent the commitments of EVOC Company. EVOC Company reserves the right to revise this User Manual, without prior notice, and will not be held liable for any direct, indirect, intended or unintended losses and/or hidden dangers due to installation or improper operation. Before purchasing, please have a detailed understanding of the product performance to see whether it meets your requirements. EVOC is a registered trademark of EVOC Intelligent Technology Co., Ltd. All ...
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Page 3: Table Of Contents
Contents Chapter 1 Product Introduction ................1 Overview ......................1 Mechanical Dimension, Weight and Environment..........1 Typical Consumption...................2 Microprocessor ....................2 Chipset .......................2 System Memory ....................2 Video Function....................2 Network Function....................2 Audio Function ....................3 Power Feature .....................3 Expansion Bus ....................3 Watchdog Function....................3 I/O Connector .....................3 Chapter 2 Installation....................4 Product Outline ....................4 Locations of Connectors ..................5 Motherboard Structure..................6 Jumper Setting ....................7 Audio Connector ....................7 Video Connector ....................8 LAN Port ......................8 Serial Port ......................9 Parallel Port ......................9 ... - Page 4 Hotswap of SATA Hard Disk................11 USB Port......................13 Digital IO Connector..................14 Keyboard and Mouse Connector................ 14 Status Indicating and Controlling Connectors............. 14 Power Connector ....................15 Fan Connector ....................15 Install the CPU ....................16 Install the CPU Cooling Fan................16 Chapter 3 BIOS Setup ................... 19 Overview......................19 BIOS Parameter Setup ..................19 Basic Function Setting for BIOS................ 20 The System Resource Managed by BIOS under x86 Platform......37 Chapter 4 Install the Driver..................41 Appendix......................42 Watchdog Programming Guide................42 Digital I/O Programming Guide ................
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Page 5: Chapter 1 Product Introduction
Chapter 1 Product Introduction Chapter 1 Product Introduction Overview EPE1814V2NAR is a sort of highperformance fullsize CPU card which adopts EPE specification (compatible with PICMG1.3 bus specification) and supports dualcore/quadcore CPU and DDR3 memory; the latest EPE specification enables the stability of the card better than the PICMG1.3 motherboard. The product adopts Intel® 4 series embedded platform: technique scheme realization of Intel® G41 + ICH7R. Integrate VGA display, support DVMT mode with shared memory up to 352MB; onboard two DDR3 memory slots, support dualchannel DDR3 800/1066MHz up to 4GB; eight USB2.0 ports (four on motherboard and the other ... -
Page 6: Typical Consumption
Chapter 1 Product Introduction Typical Consumption CPU: Intel Core 2 Quad Q9300 1333 2.5GHz 95W Memory: Kingston/1333/2G*2 Ø +5V@ 1.47A; +5%/3%; Ø +3.3V@ 1.75A; +5%/3%; Ø +12V@ 1.07A; +5%/3%; Microprocessor TM TM Support Intel® LGA775 socket Core 2 Quad ,Core 2 Duo, Celeron® E1000 and Celeron®400 series CPU, 800/1066/1333MHz FSB. Not support Intel® Core™2 Extreme, Pentium® 4, Pentium® D and Celeron® D series CPU. Chipset ... -
Page 7: Audio Function
Chapter 1 Product Introduction Audio Function Adopt ALC888 sound effect chip, it supports MICin, Linein and Speakerout functions. Power Feature Adopt ATX power, support ACPI S0/S1/S4/S5 status, etc. Expansion Bus Adopt EPE bus specification; support one PCIE x16, four PCIE x1 or one PCIE x4, four USBs, two SATAs, SMBUS and four PCI master expansions. Watchdog Function Ø Support 255 levels, programmable, by minute or second; Ø Support watchdog interrupt or reset system. I/O Connector Ø One parallel port; Ø Two COMs, COM1 supports Wakeup function; Ø One IDE connector; Ø Four SATA connectors (two of which are educed via carrier), support RAID0, 1, ... -
Page 8: Chapter 2 Installation
Chapter 2 Installation Chapter 2 Installation Product Outline 129.7 H1 H5 338.6 H6 16.6 10.5 14.7 Unit: mm 4 EPE1814V2NAR ... -
Page 9: Locations Of Connectors
Chapter 2 Installation Locations of Connectors PWR1 SYSFAN1 USB2 USB1 COM1 COM2 JCC1 LPT1 AUDIO1 LAN2 LAN1 VGA1 EPE1814V2NAR 5 ... -
Page 10: Motherboard Structure
Chapter 2 Installation Motherboard Structure LGA775 Processor FSB Bus VGA DDR3 GMCH Display Interfa ce DIMM1 CH A G41 DDR3 PCIE x16 CH B DIMM2 DMI PCIE x4 EPE Connector SATA Port 1~2 SATA3~4 SAT A RJ45 LAN1 Connector PCIE Port5 RTL8111D ICH7R USB PORT 0~3 USB 2.0 NH82801GR USB 2.0 USB PORT 4~7 RJ45 ... -
Page 11: Jumper Setting
Chapter 2 Installation Tip: How to identify the first pin of the jumpers and connectors? 1. Observe the letter beside the socket, it would be marked with “1” or thickened lines or triangular symbols; 2. The square pad on the rear is the first pin; 3. The red line on the cable or other marks show that they should be connected with the first pin of the socket. Jumper Setting JCC1: Clear/Keep CMOS Setting (Pin Distance: 2.54 mm) CMOS is powered by the button battery on board. Clear CMOS will restore original settings (factory default). The steps are listed as follows: (1) Turn off the computer and ... -
Page 12: Video Connector
Chapter 2 Installation Video Connector 15Pin DSub VGA socket, VGA1. Signal Name Signal Name Pin Pin 1 Red 2 Green 3 Blue 4 NC 5 GND 6 GND 7 GND 8 GND 9 +5V 10 GND VGA1 11 NC 12 DDCDATA 13 HSYNC 14 VSYNC 15 ... -
Page 13: Serial Port
Chapter 2 Installation Serial Port The board provides two 2×5Pin serial ports (Pin Distance: 2.54 mm), they support RS232 modes and the pin definitions are as follows: Pin Signal Name Pin Signal Name 1 DCD# 6 DSR# 2 RXD 7 RTS# 3 TXD 8 CTS# 4 DTR# 9 RI# COM1/2 5 GND 10 NA Parallel Port ... -
Page 14: Ide Connector
Chapter 2 Installation IDE Connector The board provides one standard 2×20Pin IDE connector (Pin Distance: 2.54 mm), it supports Ultra100/66/33 BMIDE and PIO mode. The pin definitions are as follows: Pin Signal Name Pin Signal Name 1 2 GND RESET# 3 4 D8 D7 5 D6 6 D9 7 D5 8 D10 9 10 D11 D4 11 12 D12 D3 13 14 D13 D2 15 ... -
Page 15: Sata Connector
Chapter 2 Installation SATA Connector The board supports four SATA connectors, two of which are educed via carrier. The pin definitions of the two standard connectors on motherboard are listed as follows: Pin Signal Name 1 GND 2 TX+ 3 TX 4 GND SATA1/2 5 RX 6 RX+ 7 GND Hotswap of SATA Hard Disk Notices for Hotswap of SATA Hard Disk: 1. The hard disk shall support SATA 2.0 and use 15pin SATA hard disk power connector. ... - Page 16 Chapter 2 Installation Step 1: Please plug the 1 x 4 pin SATA power connector (white) into the power adapter. Step 2: Please connect the SATA data cable to the SATA connector on the board. Step 3: Please connect the 15pin SATA power connector (black) to the SATA hard disk. Step 4: Please connect the SATA data cable to the SATA hard disk. 12 EPE1814V2NAR ...
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Page 17: Usb Port
Chapter 2 Installation Hot Unplug Step 1: uninstall the hard disk from the device manager. Step 2: Unplug the data cable from the SATA hard disk. Step 3: Unplug the SATA 15pin power connector (black) from the SATA hard disk. USB Port The board supports eight USB ports, four of which are educed out via carrier. The board provides two sets of standard USB ports (Pin Distance: 2.54 mm), which could educe out four USB ports. The pin definitions are as follows: Signal Name Signal Name Pin Pin 1 +5V 2 +5V 3 4 USB1_Data USB2_Data ... -
Page 18: Digital Io Connector
Chapter 2 Installation Digital IO Connector The board provides one 8bit digital I/O connector (Pin Distance: 2.00 mm); the pin definitions are as follows: Signal Name Signal Name Pin Pin 1 DIO_IN0 2 DIO_OUT0 3 DIO_IN1 4 DIO_OUT1 5 DIO_IN2 6 DIO_OUT2 7 DIO_IN3 8 DIO_OUT3 GPIO1 9 GND 10 NC Keyboard and Mouse Connector Keyboard and mouse connector Pin Signal Name KB_DATA 1 MS_DATA 2 GND 3 ... -
Page 19: Power Connector
Chapter 2 Installation Power Indicator Connector (Pin Distance: 2.54 mm) Pin Signal Name 1 PWR_LED+ 2 NC FP2 3 GND Loudspeaker Output Connector (Pin Distance: 2.54 mm) Signal Name Pin 1 SPEAKER 2 NC 3 GND FP3 4 +5V Power Connector +12V Power Connector (Pin Distance: 4.20 mm) Pin Signal Name 1 GND 2 GND PWR1 3 +12V ... -
Page 20: Install The Cpu
Chapter 2 Installation cable (usually black) and fan speed output impulse signal cable (other colors). Some fans have no speed detecting while the output of the cable is up to 12V, usage of these substandard connection will destroy the CPU card. It is recommended to use a fan with speed detection. Ø Adjust the fan’s airflow to the direction of heat venting. Signal Name Pin 1 GND 2 +12V 3 FAN_IO CPUFAN1/ SYSFAN1 4 FAN_PWM FAN_IO: Fan Speed Impulse Output; FAN_PWM: Fan Speed PWM Control Install the CPU ... - Page 21 Chapter 2 Installation the rear of the CPU card; Connect the front side of cooling fin (see figure ⑤) with the bracketand fix Ø them; pay attention that the surface between the cooling fin and the CPU crystal wafer shall be well contacted; Ø Fix the cooling fin with two screws on the cross (do not tighten them) and then the other two screws; then tighten the four screws; Ø Lastly, connect the fan power cable to the fan socket on the CPU card. Note! 1) It is recommended to use cooling fan authenticated by Intel; before installing the fan, smear the heat sink compound on the surface between CPU and the fan cooling fin to improve the heat dissipation performance; always check whether ...
- Page 22 Chapter 2 Installation Steps: 1. Fix the cooling fin bracket with PCB via two screws at the locations of H1 and H3; 2. Fix the four screws on cooling fin with the cooling fin bracket. Notes: 1: Do not tighten the screws at H1 and H3 until the four screws on cooling fin are well contacted with the rivet holder of the cooling fin bracket; 2. When tightening the four screws on cooling fin, tighten them in diagonal sequence instead of one at a time or the screws at the same side. 18 EPE1814V2NAR ...
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Page 23: Chapter 3 Bios Setup
Chapter 3 BIOS Setup Chapter 3 BIOS Setup Overview BIOS (Basic Input and Output System) is solidified in the flash memory on the CPU board. Its main functions include: initialize system hardware, set the operating status of the system components, adjust the operating parameters of the system components, diagnose the functions of the system components and report failures, provide hardware operating and controlling interface for the upper level software system, guide operating system and so on. BIOS provides users with a humancomputer interface in menu style to facilitate the configuration of system parameters for users, control power management mode and adjust the resource distribution of system device, etc. Setting the parameters of the BIOS correctly could enable the system operating stably and reliably; it could also improve the overall performance of the system at the same time. Inadequate even incorrect BIOS parameter setting will decrease the system operating ... -
Page 24: Basic Function Setting For Bios
Chapter 3 BIOS Setup Basic Function Setting for BIOS After starting SETUP program, the main interface of CMOS Setup Utility will appear: Phoenix – AwardBIOS CMOS Setup Utility „ Standard CMOS Features Load FailSafe Defaults „ Advanced BIOS Features Load Optimized Defaults „ Advanced Chipset Features Set ... - Page 25 Chapter 3 BIOS Setup Ø Date Choose this option and set current data by PageUp /PageDown, which is displayed in format of month/date/year. Reasonable range for each option is: Month (Jan.Dec.), Date (0131), Year (Maximum to 2099), Week (Mon. ~ Sun.). Ø Time Choose this option and set current time by PageUp /PageDown which is displayed in format of hour/minute/second. Reasonable range for each option is: Hour (0023), Minute (0059), Second (0059). Ø IDE Channel 0 Master The four options: IDE Channel 0 Master/Slave, IDE Channel 1 Master/Slave, IDE Channel 2 Master and IDE Channel 3 Master indicate that the motherboard integrates four sets of IDE channels on board; channel 0 and channel 1 could connect ...
- Page 26 Chapter 3 BIOS Setup l IDE HDD AutoDetection This option allows detecting the parameters of the IDE device via pressing Enter, and these parameters will automatically be displayed at the bottom of the screen. l IDE Channel 0 Master The default value is Auto; system will automatically detect which IDE device it is; select “Manual” means that users have to input all these parameters manually (it is not recommended unless the user is quite familiar with all these parameters). Select “None” to disable that channel. l Access Mode ...
- Page 27 Chapter 3 BIOS Setup 640*350. VGA (Video Graphics Array) supports 16 colors, resolution 640*480 and 256 colors, resolution 320*200. CGA40/CGA80: CGA (Color Graphics Adapter) supports 4 colors, resolution 320*200. 40 and 80 represent to display in 40 and 80 rows respectively. MONO: single color display. Ø Halt On <Halt On>: set the interrupt location for system selftest. All Errors: during POST phase, BIOS will stop selftest whenever there is an error. No Errors: BIOS ignores the error and continues selfinspection. All, But Keyboard: during POST phase, skip the inspection for keyboard. Base Memory Extended Memory Total Memory u Advanced BIOS Features Advanced BIOS Features „ ...
- Page 28 Chapter 3 BIOS Setup Ø CPU Feature CPU Feature Item Help PPM Mode [Native Mode] Menu Level Limit CPUID MaxVal [Disabled] C1E Function ...
- Page 29 Chapter 3 BIOS Setup Disabled Auto: BIOS automatic detection (Default) l Execute Disable Bit Hardware antivirus technique is a function educed into new generation processor by Intel. Enabling this function could prevent virus, Trojan and so on from destroying the system memory and control the system. The basic operating principle is that the processor will divide several areas in memory, part of the areas are allowed to implement application code while other areas are not allowed. ...
- Page 30 Chapter 3 BIOS Setup Disabled Enabled (Default) Ø Quick Power On Self Test If this function is enabled, certain tests during booting may be skipped to reduce booting time. Disabled Enabled (Default) Ø First Boot Device First boot device LS120: 120M floppy driver, it could take 120M floppy disk as boot disk. Hard Disk: take hard disk as boot disk. (Default) CDROM: CDROM, it could take CD as boot disk. ZIP100: 100M floppy disk driver USBFDD: floppy disk driver of USB port USBZIP: take USBZIP as the first boot device USBCDROM: CDROM of USB port Legacy LAN: take the network card as boot devices Disabled: disable this function Ø Second Boot Device Second boot device ...
- Page 31 Chapter 3 BIOS Setup On (Default) Ø Typematic Rate Setting This option can be set to “Enabled” or “Disabled”. When it is set to “Enabled”, if press certain key without release, the computer will regard that you’ve pressed the key repeatedly. When it is set to “Disabled”, if press certain key without release, Disabled (Default) Enabled Ø Typematic Rate(Chars/Sec) If “Typematic Rate Setting” is set to “Enabled”, then you may set to press certain key for one second equals to pressing the key for several times via this option. ...
- Page 32 Chapter 3 BIOS Setup Enabled: automatically detect all the PCI and AGP slots; if no inserted cards are occupying that slot, disable the clock signal for that slot to reduce EMI. (Default) Disabled: no matter the slots are used or not, all the clock signals are provided normally. Ø Spread Spectrum <Disabled>: disable Spread Spectrum function for system. <Enabled>: extend clock frequency for the system to reduce EMI. (Default) u Advanced Chipset Features Advanced Chipset Features Item Help Memory Hole At 15M16M [Disabled] Disable MCHBAR MMIO ...
- Page 33 Chapter 3 BIOS Setup This option chooses to use the onchip graphic controller or video card with PCIE slot when booting the system. Onchip VGA: onchip graphic processor; PEG Port: external video card with PCIE slot; Auto: BIOS Automatic Detection Selection. (Default) Ø OnChip Frame Buffer Size This option chooses the system memory resource size assigned to the Graphics Media Accelerator. The options are: 32MB (Default), 64M and 128MB. Ø DVMT Mode Dynamic ...
- Page 34 Chapter 3 BIOS Setup Ø OnChip IDE Device OnChip IDE Device IDE HDD Block Mode [Enabled] Item Help IDE DMA transfer access [Enabled] IDE Primary Master PIO [Auto] Menu Level IDE Primary Slave PIO [Auto] If your IDE hard drive IDE Primary Master UDMA [Auto] supports block mode select ...
- Page 35 Chapter 3 BIOS Setup PIO Mode Cycle Time Transfer Rate Standard Mode 0 600 3.3 (MB/S) ATA Mode 1 383 5.2 (MB/S) ATA Mode 2 240 8.3 (MB/S) ATA Mode 3 180 11.1 (MB/S) ATA2 Mode 4 120 16.7 (MB/S) ATA2 Auto: BIOS Automatic Detection Selection. (Default) l ...
- Page 36 Chapter 3 BIOS Setup This option represents the PIO mode selection of the slave hard disk on IDE channel 2. l IDE Secondary Master UDMA This option enables the Ultra DMA data transmitting mode of the master hard disk on IDE channel 2. l IDE Secondary Slave UDMA This option enables the Ultra DMA data transmitting mode of the slave hard disk on IDE channel 2. l LEGACY Mode Support ...
- Page 37 Chapter 3 BIOS Setup This option sets the operating mode for the specified parallel port: Normal, ECP, EPP, SPP; ECP + EPP represent the maximum speed for bidirection data transmission; ECP represents the speed for bidirection data transmission faster than EPP. Ø OnChip Audio Device This option selects whether to enable the audio card controller integrated on chip. Ø USB Device Setting USB Device Setting USB 1.0 Controller Item Help USB 2.0 Controller Menu Level USB Storage Function [Enable] or [Disable] Universal Host Controller *** USB Mass Storage Device Boot Setting *** Interface for Universal Serial Bus. l USB 1.0 Controller This option is used to select whether to enable USB1.0 controller. l USB 2.0 Controller This option is used to select whether to enable USB2.0 controller. ...
- Page 38 Chapter 3 BIOS Setup Ø ACPI Function This option is used to select whether to enable ACPI power management. Disabled Enabled (Default) Ø Restore on AC Power Loss Off: do not boot automatically after resuming power. (Default) On: automatically boot after resuming power. Last State: system restores its last status after resuming power. Ø Resume by Alarm This option enables Resume by Alarm function of the system; users shall set specified time first. <Disabled> (Default) <Enabled> u PnP/PCI Configurations PnP/PCI Configurations ...
- Page 39 Chapter 3 BIOS Setup Disabled (Default) Enabled Ø Resources Controlled By Auto (ESCD): choose this option and BIOS will automatically assign the resource of the PnP/PCI device, such as, IRQ, DMA and memory. (Default) Manual: assign various resources manually. When “Resources Controlled By” is set to <Manual>, IRQ resource can be assigned manually. IRQ 35, 7, 912, 14, 15 assigned to PCI Device: assign to PCI device (Default) ...
- Page 40 Chapter 3 BIOS Setup function, choose this option and press < Enter >; messages to be confirmed will display on the screen, press < Enter > to implement this function. u Load Optimal Defaults This menu is used to input default value in system configuration. These default values are optimized and could give play to the high capability of all hardware. u Set Supervisor Password Set Supervisor Password u Set User Password Set User Password u Save & Exit Setup When you’ve finished all the modification and want to cover the former parameters, you may implement this option; the new parameter will be saved in the CMOS storage. To implement this option, choose this option and press < Enter >; press < Enter >...
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Page 41: The System Resource Managed By Bios Under X86 Platform
Chapter 3 BIOS Setup The System Resource Managed by BIOS under x86 Platform We define three types of system resources here: I/O port addresses, IRQ number and DMA number. u DMA Level Function DRAM Refresh DMA0 DMA1 Not Assigned DMA2 Floppy Disk DMA3 Not Assigned (sometimes used for hard disk) DMA4 Used for the cascade of DMAC Not Assigned DMA5 DMA6 Not Assigned DMA7 Not Assigned u APIC Advanced programmable interrupt controller. Most motherboards above P4 level support APIC and provide more than 16 interrupt sources, like IRQ16 IRQ23; some others can have up to 28 interrupt sources such has motherboard supporting ... - Page 42 Chapter 3 BIOS Setup Address Device Description DMA Controller #1 000h 00Fh PCI Bus 000h CF7h Carrier Resource 010h 01Fh Programmable Interrupt Controller #1 020h 021h Carrier Resource 022h 03Fh System Timer 040h 043h Carrier Resource 044h 05Fh Standard 101/102 Key or Microsoft Natural PS/2 Keyboard 060h System speaker 061h Carrier Resource ...
- Page 43 Chapter 3 BIOS Setup Address Device Description DMA Controller #6 0C0h 0DFh Carrier Resource 0E0h 0EFh Numeric Data Processor 0F0h 0FFh Slave IDE 170h 177h Master IDE 1F0h 1F7h 274h – 277h ISAPNP Read Data Port 279h ISAPNP Read Data Port 2F8h 2FFh COM2 376h Slave IDE(dual FIFO) 378h 37Fh LPT1 3B0h –...
- Page 44 Chapter 3 BIOS Setup u IRQ Assignment Table There are 15 interrupt sources of the system. Some are exclusively occupied by the system devices. Only the ones that are not exclusively occupied can be distributed. The ISA devices claim to engross the interrupt .Only the plug and play ISA devices can be distributed by the BIOS or the OS .And several PCI devices share one interrupt through the distribution of BIOS or OS. The diagram below shows parts of the interrupt distribution under X86 platform, but it does not show the interrupt source occupied by the PCI devices. Level Function IRQ0 System Timer IRQ1 Standard 101/102 Key or Microsoft Keyboard IRQ2 Programmable Interrupt Controller IRQ3 COM #2 ...
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Page 45: Chapter 4 Install The Driver
Chapter 4 Install the Driver Chapter 4 Install the Driver Please refer to the equipped CD for the driver program of this product, and it is omitted here. EPE1814V2NAR 41 ... -
Page 46: Appendix
Appendix Appendix Watchdog Programming Guide This board provides a programmable watchdog timer (WDT) up to 255 levels and time by minute or second. Watchdog timer overtime event can be programmed to reset system or generate maskable interrupts. The available IRQ numbers for this board are: 3, 4, 5, 7, 9, 10 and 11. Before using, please modify the corresponding IRQ number in PCIPnP of BIOS Setup interface into “Reserved”. The following describes WDT program in C language. The steps to program WDT are listed as follows: Ø Enter WDT programming mode Ø Set WDT operating mode/enable WDT/disable WDT (1) Enter WDT Programming Mode ... - Page 47 Appendix oldval &= 0xfe; outportb(DATA_PORT, oldval); b. Configure WDT to interrupt mode oldval |= 0x01; outportb(DATA_PORT, oldval); outportb(INDEX_PORT,0xf7); outportb(DATA_PORT, IRQ_NO); /*Please replace the constant IRQ_NO with the interrupt number need to be used and evaluate the variable IRQ. The available range of the interrupt number has been listed in the beginning of this chapter.*/ (3) Configure WDT to time by minute/second: ...
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Page 48: Digital I/O Programming Guide
Appendix Digital I/O Programming Guide The motherboard provides 8channel programmable digital I/O pins, four of which are for input while the other four are for output. The following describes digital I/O program in C language. The steps to program digital I/O are as follows: Ø Initialize digital I/O Ø I/O programming (1) Initialize Digital I/O: #define BAR 0x400 unsigned char tmp_val; outportb(BAR,0xbf); outportb(BAR+0x04,0x40); outportb(BAR+0x03,0x03); outportb(BAR+0x05,0x0F); tmp_val =(inportb(BAR+0x02)|0x08)&0xeb; tmp_val |= 0x40; outportb(BAR+0x02, tmp_val); delay(30); tmp_val =inportb(BAR); while((tmp_val &0x02)!=0x02) { ... - Page 49 Appendix (2) I/O Programming a. Output Programming Functions input: int pin – Value 1~4 are corresponding with output pin 1~4 int lev_val – 1: output pin is active high; 0: output pin is active low Functions Output: None void Out_Lev(int pin ,int lev_val) { unsigned int reg_val ; outportb(BAR,0xbf); outportb(BAR+0x04,0x40); outportb(BAR+0x03,0x01); reg_val = inportb(BAR+0x05); reg_val = lev_val ? reg_val|(0x01<<pin+3) :reg_val&(~(0x01<<pin+3)) ; outportb(BAR+0x05, reg_val); reg_val =(inportb(BAR+0x02)|0x08)&0xeb; reg_val |= 0x40; outportb(BAR+0x02, reg_val); delay(30); reg_val =inportb(BAR); while((reg_val &0x02)!=0x02) { reg_val =inportb(BAR); if((reg_val &0x04)!=0) { printf("ERROR\n"); return 0; } } EPE1814V2NAR ...
- Page 50 Appendix b. Input Programming Functions Input: int pin – Value 1~4 are corresponding with the input pin 1~4 Functions Output: int lev_val – 1: input pin is active high; 0: input pin is active low int In_Lev(int pin) { unsigned int reg_val ; int lev_val ; outportb(BAR,0xbf); outportb(BAR+0x04,0x41); outportb(BAR+0x03,0x00); reg_val =(inportb(BAR+0x02)|0x08)&0xeb; reg_val |= 0x40; outportb(BAR+0x02, reg_val); delay(30); reg_val =inportb(BAR); while((reg_val &0x02)!=0x02) { reg_val =inportb(BAR); if((reg_val &0x04)!=0) { printf("ERROR\n"); return 0; } } lev_val = inportb(BAR+0x05)&( 0x01<<pin1); lev_val = lev_val ? 1:0; /*Get the variable lev_val, 1 represents that the input pin is active high, while 0 represents the input pin is ...
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Page 51: Way And Steps For Raid Installation
Appendix Way and Steps for RAID Installation Firstly, set BIOS: Integrated Peripherals—〉 Onchip IDE Device—〉 change SATA Mode to RAID; After setting to Raid, press “F10” to save setting. Please refer to BIOS Setup Guide for detailed information. Then enter “RAID Configuration Utility”: Serial ATA RAID volume could be set in the RAID Configuration Utility of Intel RAID Option ROM. ... - Page 52 Appendix Create RAID Volume: A: Choose Option 1 “Create RAID Volume”, and press <Enter>; the following screen will appear. Specify a name for the RAID volume within the name field (the name could be arbitrary and is only used as a prompt); then press <TAB> or <Enter> to enter the following field. 48 EPE1814V2NAR ...
- Page 53 Appendix B: Use the direction key to select the required RAID level within the RAID Level field. C: Press <Enter> within the Disk field and the following screen will appear. Choose the RAID volume you want to create via upper and down arrow key, press <Enter> to complete the selection of this option and enter the next field. EPE1814V2NAR 49 ...
- Page 54 Appendix D: Press <SPACE> to select the HDD you want to use; after you’ve chosen the HDD via pressing <SPACE>, a green triangle icon will appear before the HDD information. As shown in the figure: Note: When creating Raid0/1/10, two or four HDDs must be chosen. E: After choosing the appropriate HDD, press < Enter> to enter the next setting interface. 50 EPE1814V2NAR ...
- Page 55 Appendix F: Choose the serial optional value for RAID array via upper or down arrow and press < Enter> to confirm and enter the next region. The optional value ranges between 4KB and 128 KB and increases in fold. The selection of serial value is based on the operating method of the driver. There are some recommended options: RAID0128KB RAID1064KB RAID564KB G: Then, select the capacity of the volume within the Capacity field. The default value of this option is the maximum capacity of the disk chosen. H: The following screen will appear to let you confirm whether to create RAID volume. Press <Y> to continue. I: When the title within the red line frame appears, it indicates that your creation has completed. EPE1814V2NAR ...
- Page 56 Appendix J: After finishing creation, press < ESC> to exit Raid configuration interface; the below figure will appear and press <Y> to confirm. Thus, the setting is completed and may implement system installation. Begin to install: Boot from CDROM, when “Press F6 if you need to install third party SCSI or RAID driver” appears, press F6. 52 EPE1814V2NAR ...
- Page 57 Appendix Insert Intel IAA RAID XP Driver for ICH8R (NH82801HR) disk to disk A and press <Enter>. (Note: the board has no floppy disk connector; please adopt the IBM USB floppy driver). Select in the drop list of the Windows XP Setup screen (choose the corresponding south bridge) and press < Enter >: EPE1814V2NAR 53 ...
- Page 58 Appendix Press < Enter > to continue installation; if you want to appoint any additional devices, please install now. When all the devices are installed, press < Enter > to continue installation. Press <Enter> and it will load all the device files and continue installation. Please visit http://www.evoc.com for more information. 54 EPE1814V2NAR ...
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