N e t w o r k Ap p l i a n c e FWS-7800 FWS-7800 1U Rackmount Network Appliance Platform 1 ATA-100, 2 SATA 3.0 Gb/s 6 USB Ports, 1 Mini-PCI Type 3 FWS-7800 Manual 3rd Ed.
N e t w o r k Ap p l i a n c e FWS-7800 Copyright Notice This document is copyrighted, 2014. All rights are reserved. The original manufacturer 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 the original manufacturer. Information provided in this manual is intended to be accurate and reliable.
N e t w o r k Ap p l i a n c e FWS-7800 Acknowledgments All other products’ name or trademarks are properties of their respective owners. AMI is a trademark of American Megatrends Inc. CompactFlash™ is a trademark of the Compact Flash Association. Intel , and Xeon Quad Core, are trademarks of Intel Corporation. Microsoft Windows is a registered trademark of Microsoft Corp. ISoundBlaster is a trademark of Creative Labs, Inc.
N e t w o r k Ap p l i a n c e FWS-7800 Caution There is a danger of explosion if the battery is incorrectly replaced. Replace only with the same or equivalent type recommended by the manufacturer. Dispose of used batteries according to the manufacturer’s instructions and your local government’s recycling or disposal directives. Attention: Il y a un risque d’explosion si la batterie est remplacée de façon incorrecte. Ne la remplacer qu’avec le même modèle ou équivalent recommandé par le constructeur.
N e t w o r k Ap p l i a n c e FWS-7800 Packing List Before you begin installing your card, please make sure that the following materials have been shipped: 1 FWS-7800 1 DVD-ROM for manual (in PDF format) and drivers 1 HDD Power Cable 2 Serial ATA Cable 1 D-Sub 9-pin Cable 1 CPU Heatsink 85mm x 85mm x 26mm 1 Ear Bracket Module, Black If any of these items should be missing or damaged, please contact your distributor or sales representative immediately.
N e t w o r k Ap p l i a n c e FWS-7800 Contents Chapter 1 General Information 1.1 Introduction ................................................................ 1-2 1.2 Features .................................................................... 1-3 1.3 Specifications ............................................................ 1-4 1.4 General System Information ..................................... 1-7 Chapter 2 Quick Installation Guide 2.1 Safety Precautions ...........................................
N e t w o r k Ap p l i a n c e FWS-7800 2.17 CPU/SYSTEM FAN Connector (CPU_FAN1/SYS_FAN_1~3) .......................................... 2-11 2.18 COM2 RS232 Serial Port PIN HEADER (COM1) ... 2-12 2.19 LCM & Key Pad Control Connector (LCMA) ........... 2-12 2.20 Serial ATA power Connector (Power1~5) ............... 2-12 2.21 Installing the CPU and the Heatsink ....................... 2-13 2.22 Rackmount Slide Installation ................................... 2-19 Chapter 3 AMI BIOS Setup 3.
N e t w o r k Ap p l i a n c e FWS-7800 C.3 LAN Bypass Mode Sample Code ......................... C-6 C.4 LCM Sample Code ............................................... C-8 C.5 Console Redirection ...........................................
N e t w o r k Ap p l i a n c e FWS-7800 Chapter 1 General Information Chapter 1 General Information 1- 1
N e t w o r k Ap p l i a n c e FWS-7800 1.1 Introduction FWS-7800 adopts Intel® Xeon Quad Core™ 3400 series up to 3.06 GHz Processor. The chipset is equipped with Intel® 3450. In addition, the system memory features four 240-pin ECC DDR3 1066/1333 DIMM socket total up to 16GB and supports dual-channel. FWS-7800 deploys optional four Fiber Ethernet or eight Gigabit Ethernet (4 ports bypass function).
N e t w o r k Ap p l i a n c e FWS-7800 1.2 Features 1U Rackmount 10 LAN Ports Network Appliance Intel® Xeon Quad Core™ 3400 Series Up To 3.06 GHz 240-Pin Dual-Channel ECC DDR3 1066/1333 SDRAM DIMM x 4 (Up To 16 GB) Optional Fiber Ethernet x 4 or Gigabit Ethernet x 8 (4 Ports Bypass Function) Ultra ATA 100 Port x 1, SATA 3.0Gb/s x 2 CompactFlash™ Type 2 x 1, Mini-PCI Type 3 x 1 300W Power With Auto Range Input USB2.
N e t w o r k Ap p l i a n c e FWS-7800 1.3 Specifications System Form Factor 1U 10-port Network Appliance Processor Intel® 45nm Quad Core™ Xeon 3400 series LGA1156 240-pin Dual-Channel DCC DDR3 System Memory 1066/1333 DIMM Socket x 4, up to 16 GB Chipset Intel® 3450 Ethernet (Optional) 10/100/1000Base-TX Ethernet w/ Intel® 82573L x 4 10 Gigabit Fiber LAN w/ Intel® 82599ES, SFP+ x 2 Gigabit Ethernet LAN w/ Intel® 82571ES, SFP x 2 Note: FWS-7800 supports “Boots on LAN” function for LAN1 only.
N e t w o r k Ap p l i a n c e FWS-7800 RTC Internal RTC Storage Internal: 3.5” Hard Disk (SATA or IDE) x1 System Fan 4 cm Ball Bearing Fan (Optional) Front I/O Panel Power LED x 1 Bypass LED x 1 Status LED x 1 HDD Active LED x 1 LAN LED x 10 (Optional) USB2.0 x 2 LAN x 10 (Optional) DB-9 x 1 LCM Display x 1 Reset Button x 1 Color Black LCM 16 x 2 characters with 4 keypad control Power Supply 1U 300W w/ auto range input Dimension 16.9” x 18.5” x 1.
N e t w o r k Ap p l i a n c e FWS-7800 I/O COM port x 2 (Internal Pin Header x 1) Serial Port COM 1: RS-232 COM 2: RS-232 (Pin header) Keyboard and Mouse Reserved pin header Universal Serial Bus USB2.
N e t w o r k Ap p l i a n c e FWS-7800 1.4 General System Information Front Panel LEDs for Bypass, HDD Active, Status, Power Reset LCM & Keypad Control PER-C31L Optional Console Port 2 GbE Copper Ports 2 USB Ports PER-C33L Optional Rear Panel Thumbscrew Thumbscrew PS/2 KB/MS (Optional) Power Switch 1 U Power Supply PCIe/ PCI Expansion Slot (Optional) 1 USB2.0 (Optional) Note: These thumbscrews must be tightened with tools after initial and subsequent accessible installation.
N e t w o r k Ap p l i a n c e FWS-7800 Chapter 2 FWS-7800 Quick Installation Guide Chapter 2 Quick Installation Guide 2-1
N e t w o r k Ap p l i a n c e FWS-7800 2.1 Safety Precautions The installation is intended for technically qualified personnel who have experience installing and configuring system boards. The equipment can be installed in a restricted access location (RAL) only. A restricted access location is a site location for equipment where the following criteria apply: 01. Access can only be gained by service persons or by users who have been trained on the restrictions and the precautions for this specific site.
N e t w o r k Ap p l i a n c e FWS-7800 2.
N e t w o r k Ap p l i a n c e Solder Side Chapter 2 Quick Installation Guide 2-4 FWS-7800
N e t w o r k Ap p l i a n c e FWS-7800 2.
N e t w o r k Ap p l i a n c e FWS-7800 2.4 List of Jumpers The board has a number of jumpers that allow you to configure your system to suit your application.
N e t w o r k Ap p l i a n c e FWS-7800 2.5 List of Connectors The board has a number of connectors that allow you to configure your system to suit your application.
N e t w o r k Ap p l i a n c e FWS-7800 2.6 Setting Jumpers You configure your card to match the needs of your application by setting jumpers. A jumper is the simplest kind of electric switch. It consists of two metal pins and a small metal clip (often protected by a plastic cover) that slides over the pins to connect them. To “close” a jumper you connect the pins with the clip. To “open” a jumper you remove the clip. Sometimes a jumper will have three pins, labeled 1, 2 and 3.
N e t w o r k Ap p l i a n c e FWS-7800 2.7 Clear CMOS / RTC (JP1/JP2) JP1, JP2 Function 1-2 Protected (Default) 2-3 Clear 2.8 AT/ATX Power Type Selection (JP3) JP3 Function Close 1-2 AT (Default) Close 2-3 ATX 2.9 Compact Flash Card Power Selection (JP4) JP4 Function Close 1-2 +5V Close 2-3 +3.3V (Default) 2.
N e t w o r k Ap p l i a n c e FWS-7800 7 GND 8 PWROK 9 +5VSB 10 +12V 11 +12V 12 +3.3V 13 +3.3V 14 -12V 15 GND 16 PS_ON 17 GND 18 GND 19 GND 20 NC 21 +5V 22 +5V 23 +5V 24 GND 2.12 AUX POWER 12 Connector (ATX 2) Pin Signal Pin Signal 1 GND 2 GND 3 GND 4 GND 5 +12V 6 +12V 7 +12V 8 +12V 2.
N e t w o r k Ap p l i a n c e FWS-7800 2.14 PS2 Keyboard/Mouse Connector (CN2) Pin Signal Pin Signal 1 KB_DATA 2 KB_CLK 3 GND 4 +5V 5 MS_DATA 6 MS_CLK 7 NC 8 NC 2.15 USB 0/1/2/3 PIN HEADER (CN3/CN4) Pin Signal Pin Signal 1 +5V 2 GND 3 USBD- 4 GND 5 USBD+ 6 USBD+ 7 GND 8 USBD- 9 GND 10 +5V 2.16 PCI-E Power Connector (CN7) Pin Signal Pin Signal 1 GND 2 +3.3V 3 +3.3V 4 +3.3V 5 -12V 6 +5V 7 +5V 8 GND 2.
N e t w o r k Ap p l i a n c e FWS-7800 2.18 COM2 RS232 Serial Port PIN HEADER (COM1) Pin Signal Pin Signal 1 DCD 2 RXD 3 TXD 4 DTR 5 GND 6 DSR 7 RTS 8 CTS 9 RI 10 NC 2.19 LCM & Key Pad Control Connector (LCMA) Pin Signal Pin Signal 1 POWER 2 GND 3 LSLIN- 4 VEE 5 LAFD- 6 LINIT- 7 LPD1 8 LPD0 9 LPD3 10 LPD2 11 LPD5 12 LPD4 13 LPD7 14 LPD6 15 LCD- 16 VCC 17 UP 18 RIGHT 19 LEFT 20 DOWN 21 RESET 22 NC 23 NC 24 NC 2.
N e t w o r k Ap p l i a n c e FWS-7800 2.
N e t w o r k Ap p l i a n c e Step 2: Lift up the CPU bracket Step 3: Lift up the CPU cover Chapter 2 Quick Installation Guide 2-14 FWS-7800
N e t w o r k Ap p l i a n c e FWS-7800 UStep 4U: Place the CPU to the socket and have the two fillisters locked properly Step 5: Close the CPU bracket and lock the pole to the position Chapter 2 Quick Installation Guide 2-15
N e t w o r k Ap p l i a n c e Chapter 2 Quick Installation Guide 2-16 FWS-7800
N e t w o r k Ap p l i a n c e FWS-7800 UStep 6U: Cover the Heatsink on the CPU and watch out the direction of the Heatsink that did not against the airflow Step 7: Fasten the four screws to lock the air duct Chapter 2 Quick Installation Guide 2-17
N e t w o r k Ap p l i a n c e FWS-7800 Step 8: Lock the cables in position and done the CPU installation Chapter 2 Quick Installation Guide 2-18
N e t w o r k Ap p l i a n c e FWS-7800 2.
N e t w o r k Ap p l i a n c e Chapter 2 Quick Installation Guide 2-20 FWS-7800
N e t w o r k Ap p l i a n c e FWS-7800 Below Table for China RoHS Requirements 产品中有毒有害物质或元素名称及含量 AAEON Boxer/ Industrial System 有毒有害物质或元素 部件名称 铅 汞 镉 (Pb) (Hg) (Cd) (Cr(VI)) (PBB) (PBDE) × ○ ○ ○ ○ ○ × ○ ○ ○ ○ ○ × ○ ○ ○ ○ ○ × ○ ○ ○ ○ ○ 硬盘 × ○ ○ ○ ○ ○ 电源 × ○ ○ ○ ○ ○ 印刷电路板 及其电子组件 外部信号 连接器及线材 外壳 中央处理器 与内存 六价铬 多溴联苯 多溴二苯醚 O:表示该有毒有害物质在该部件所有均质材料中的含量均在 SJ/T 11363-2006 标准规定的限量要求以下。 X:表示该有毒有害物质至少在该部件的某一均质材料中的含量超出 SJ/T 11363-2006 标准规定的限量要求。 备注: 一、此产品所标示之环保使用期限,系指在一般正常
N e t w o r k Ap p l i a n c e FWS-7800 Chapter 3 AMI BIOS Setup Chapter 3 AMI BIOS Setup 3-1
N e t w o r k Ap p l i a n c e 3.1 FWS-7800 System Test and Initialization These routines test and initialize board hardware. If the routines encounter an error during the tests, you will either hear a few short beeps or see an error message on the screen. There are two kinds of errors: fatal and non-fatal. The system can usually continue the boot up sequence with non-fatal errors.
N e t w o r k Ap p l i a n c e 3.2 FWS-7800 AMI BIOS Setup AMI 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 CMOS RAM so that it retains the Setup information when the power is turned off. Entering Setup Power on the computer and press or immediately. This will allow you to enter Setup. Main Set the date, use tab to switch between date elements.
N e t w o r k Ap p l i a n c e FWS-7800 Chapter 4 Driver Installation Chapter 4 Driver Installation 4-1
N e t w o r k Ap p l i a n c e FWS-7800 The FWS-7800 comes with an AutoRun DVD-ROM that contains all drivers and utilities that can help you to install the driver automatically. Insert the driver DVD, the driver DVD-title will auto start and show the installation guide. If not, please follow the sequence below to install the drivers.
N e t w o r k Ap p l i a n c e 4.1 FWS-7800 Installation Insert the FWS-7800 CD-ROM into the CD-ROM drive and install the drivers from Step 1 to Step 3 in order. Step 1 – Install Chipset Driver 1. Click on the STEP1-CHIPSET folder and select the OS folder your system is 2. Double click on the .exe file located in each OS folder 3. Follow the instructions that the window shows 4. The system will help you install the driver automatically Step 2 – Install VGA Driver 1.
N e t w o r k Ap p l i a n c e FWS-7800 Appendix A Programming the Watchdog Timer Appendix A Programming the Watchdog Timer A-1
N e t w o r k Ap p l i a n c e FWS-7800 A.1 Programming FWS-7800 utilizes ITE 8718 chipset as its watchdog timer controller. ( K version ) Below are the procedures to complete its configuration and the AAEON intial watchdog timer program is also attached based on which you can develop customized program to fit your application. Configuring Sequence Description After the hardware reset or power-on reset, the ITE 8718 enters the normal mode with all logical devices disabled except KBC.
N e t w o r k Ap p l i a n c e FWS-7800 (1) Enter the MB PnP Mode To enter the MB PnP Mode, four special I/O write operations are to be performed during Wait for Key state. To ensure the initial state of the key-check logic, it is necessary to perform four write opera-tions to the Special Address port (2EH). Two different enter keys are provided to select configuration ports (2Eh/2Fh) of the next step.
N e t w o r k Ap p l i a n c e Bit 7-2 1 0 FWS-7800 Description Reserved Returns to the Wait for Key state. This bit is used when the configuration sequence is completed. Resets all logical devices and restores configuration registers to their power-on states. WatchDog Timer Control Register (Index=71h, Default=00h) Bit 7 6 5 4 3-2 1 0 Description WDT is reset upon a CIR interrupt WDT is reset upon a KBC (Mouse) interrupt WDT is reset upon a KBC (Keyboard) interrupt Reserved Reserved Force Time-out.
N e t w o r k Ap p l i a n c e FWS-7800 WatchDog Timer Time-out Value (LSB) Register (Index=73h, Default=00h) Bit 7-0 Description WDT Time-out value 7-0 WatchDog Timer Time-out Value (MSB) Register (Index=74h, Default=00h) Bit 7-0 Description WDT Time-out value 15-8 Appendix A Programming the Watchdog Timer A-5
N e t w o r k Ap p l i a n c e FWS-7800 A.2 ITE8718 Watchdog Timer Initial Program .MODEL SMALL .CODE Main: CALL Enter_Configuration_mode CALL Check_Chip mov cl, 7 call Set_Logic_Device ;time setting mov cl, 10 ; 10 Sec dec al Watch_Dog_Setting: ;Timer setting mov al, cl mov cl, 73h call Superio_Set_Reg ;Clear by keyboard or mouse interrupt mov al, 0f0h mov cl, 71h call Superio_Set_Reg ;unit is second.
N e t w o r k Ap p l i a n c e FWS-7800 ; game port enable mov cl, 9 call Set_Logic_Device Initial_OK: CALL Exit_Configuration_mode MOV AH,4Ch INT 21h Enter_Configuration_Mode PROC NEAR MOV SI,WORD PTR CS:[Offset Cfg_Port] MOV DX,02Eh MOV CX,04h Init_1: MOV AL,BYTE PTR CS:[SI] OUT DX,AL INC SI LOOP Init_1 RET Enter_Configuration_Mode ENDP Exit_Configuration_Mode PROC NEAR MOV AX,0202h CALL Write_Configuration_Data Appendix A Programming the Watchdog Timer A-7
N e t w o r k Ap p l i a n c e FWS-7800 RET Exit_Configuration_Mode ENDP Check_Chip PROC NEAR MOV AL,20h CALL Read_Configuration_Data CMP AL,87h JNE Not_Initial MOV AL,21h CALL Read_Configuration_Data CMP AL,12h JNE Not_Initial Need_Initial: STC RET Not_Initial: CLC RET Check_Chip ENDP Read_Configuration_Data PROC NEAR MOV DX,WORD PTR CS:[Cfg_Port+04h] OUT DX,AL Appendix A Programming the Watchdog Timer A-8
N e t w o r k Ap p l i a n c e FWS-7800 MOV DX,WORD PTR CS:[Cfg_Port+06h] IN AL,DX RET Read_Configuration_Data ENDP Write_Configuration_Data PROC NEAR MOV DX,WORD PTR CS:[Cfg_Port+04h] OUT DX,AL XCHG AL,AH MOV DX,WORD PTR CS:[Cfg_Port+06h] OUT DX,AL RET Write_Configuration_Data ENDP Superio_Set_Reg proc near push ax MOV DX,WORD PTR CS:[Cfg_Port+04h] mov al,cl out dx,al pop ax inc dx out dx,al ret Superio_Set_Reg endp.
N e t w o r k Ap p l i a n c e FWS-7800 Set_Logic_Device proc near push ax push cx xchg al,cl mov cl,07h call Superio_Set_Reg pop cx pop ax ret Set_Logic_Device endp ;Select 02Eh->Index Port, 02Fh->Data Port Cfg_Port DB 087h,001h,055h,055h DW 02Eh,02Fh END Main Note: Interrupt level mapping 0Fh-Dh: not valid 0Ch: IRQ12 . .
N e t w o r k Ap p l i a n c e FWS-7800 Appendix B I/O Information Appendix B I/O Information B-1
N e t w o r k Ap p l i a n c e B.
N e t w o r k Ap p l i a n c e FWS-7800 B.2 Memory Address Map B.3 IRQ Mapping Chart B.
N e t w o r k Ap p l i a n c e FWS-7800 Appendix C Standard Firewall Platform Setting Appendix C Standard Firewall Platform Setting C-1
N e t w o r k Ap p l i a n c e FWS-7800 C.
N e t w o r k Ap p l i a n c e FWS-7800 C.
N e t w o r k Ap p l i a n c e FWS-7800 out dx,al [RED LED BLINK] mov dx,48Fh ;( IO_PORT = 48Fh) in al,dx or al,00010000b ;set bit 4 -->high out dx,al mov dx,4B8h ;( IO_PORT = 4B8h) in al,dx and al,11110111b ;set bit 3 -->low out dx,al mov dx,49Bh ;( IO_PORT = 49Bh) in al,dx or al,00010000b ;set bit 4 -->high(control blink) out dx,al [GREEN LED ON] mov dx,48Fh ;( IO_PORT = 48Fh) in al,dx and al,11101111b ;set bit 4 -->low out dx,al mov dx,4B8h Appendix C Standard Firewall Platform Setting C-4
N e t w o r k Ap p l i a n c e FWS-7800 in al,dx or al,00001000b ;set bit 3 -->high out dx,al [GRN LED BLINK] mov dx,48Fh ;( IO_PORT = 48Fh) in al,dx and al,11101111b ;set bit 4 -->low out dx,al mov dx,4B8h ;( IO_PORT = 4B8h) in al,dx or al,00001000b ;set bit 3 -->high out dx,al mov dx,49Bh ;( IO_PORT = 49Bh) in al,dx or al,00010000b ;set bit 4 -->high(control blink) out dx,al Appendix C Standard Firewall Platform Setting C-5
N e t w o r k Ap p l i a n c e FWS-7800 C.
N e t w o r k Ap p l i a n c e FWS-7800 [Watch Dog Mode] mov dx,48dh ;( IO_PORT = 48dh) in al,dx or al,01000000b ;set bit 7-->high out dx,al mov dx,48Fh ;( IO_PORT = 48Fh) in al,dx or al,00000100b ;set bit 2-->high out dx,al Appendix C Standard Firewall Platform Setting C-7
N e t w o r k Ap p l i a n c e C.
N e t w o r k Ap p l i a n c e FWS-7800 } void Entry_mode_set() { outportb(0x378, 0x06); wait(); outportb(0x37A, 0xC8); wait(); outportb(0x37A, 0xCA); wait(); } void Display_Off() { outportb(0x378, 0x08); wait(); outportb(0x37A, 0xC8); wait(); outportb(0x37A, 0xCA); Appendix C Standard Firewall Platform Setting C-9
N e t w o r k Ap p l i a n c e wait(); } void Display_On_Cursor_Off() { outportb(0x378, 0x0C); wait(); outportb(0x37A, 0xC8); wait(); outportb(0x37A, 0xCA); wait(); } void Display_On_Cursor_On() { outportb(0x378, 0x0E); wait(); outportb(0x37A, 0xC8); wait(); Appendix C Standard Firewall Platform Setting C-10 FWS-7800
N e t w o r k Ap p l i a n c e FWS-7800 outportb(0x37A, 0xCA); wait(); } /******************************************************************** ****/ // Set the interface data length. // Number of display line and character font. // For 5x7 dots and 2 lines display now.
N e t w o r k Ap p l i a n c e wait(); } void Write_Char( char x ) { outportb(0x378, x); outportb(0x37A, 0xC0); wait(); outportb(0x37A, 0xC2); wait(); } void Change_Line() { outportb(0x378, 0xC0); wait(); outportb(0x37A, 0xC8); wait(); outportb(0x37A, 0xCA); Appendix C Standard Firewall Platform Setting C-12 FWS-7800
N e t w o r k Ap p l i a n c e FWS-7800 wait(); } void wait() { for (int i = 0 ; i < 0x10 ; i++) { for (int j = 0 ; j < 0x80 ; j++) { outportb(0x0EB, 0Xff); } } } Appendix C Standard Firewall Platform Setting C-13
N e t w o r k Ap p l i a n c e FWS-7800 C.5 Console Redirection Console redirection allows you to maintain a system from a remote location by re-directing keyboard input and text output through the serial port. This section will tell you how to use the console redirection. 1. Please insert console cable between on FWS-7800 and remote client system. 2. Setup BIOS in FWS-7800.
N e t w o r k Ap p l i a n c e FWS-7800 Step4 - From the connect to pull-down menu, select a COM port available on your client system and click OK Step5 - Select Baud Rate >> 19200, Flow control >> None, Data bit >>8, Parity cheek >> None, Stop bit>>1 4. Power on FWS-7800 and it will display the BIOS information on the client system.
