Building the Digital Infrastructure PEAK 8920VL2 User Manual

Building the Digital Infrastructure

PEAK 8920VL2 User Manual Version 1.01

Nov 29, 2006 Preface

Packing Materials Checklist Copyright Notice

Item Description Q’ty Copyright © 2006 NEXCOM All rights reserved. No part of this manual may be reproduced, trans- 1 PEAK8920VL2 BOARD SET 1 mitted, transcribed, stored in a retrieval system, or translated into any 2 CPU COOLER 2 language or computer language, in any form or by any means (elec- 3 PS/2 KB/Mouse Y CABLE 1 tronic, mechanical, photocopying, recording, or otherwise), without 4 CABLE SET (SIO+PIO P2.00)/(SIO P2.00)/IDE66 1 the express written permission of NEXCOM Information provided in this manual is intended to be accurate and reliable. However, the 5 QUICK REFERENCE GUIDE 1 original manufacturer assumes no responsibility for its use, nor for 6 CD DRIVER 1 any infringements upon the rights of third parties that may result from such use.

Acknowledgements Intel and Pentium are trademarks of Intel Corporation. Microsoft Windows® is a registered trademark of Microsoft Corp. All other product names or trademarks are properties of their respective owners.

Declaration of Conformity Installation Suggestions CE Ensure you have a stable, clean working environment. Dust and dirt This product has passed the CE test for environmental specifications can get into components and cause a malfunction. Use containers to when shielded cables are used for external wiring. We recommend keep small components separated. the use of shielded cables. Please contact your local supplier for Adequate lighting and proper tools can prevent you from acciden- ordering information. tally damaging the internal components. Most of the procedures that This product has passed the CE test for environmental specifications. follow require only a few simple tools, including the following: Test conditions for passing included the equipment being operated A Philips screwdriver within an industrial enclosure. In order to protect the product from A flat-tipped screwdriver being damaged by ESD (Electrostatic Discharge) and EMI leakage, A grounding strap we strongly recommend the use of CE-compliant industrial enclosure products. An anti-static pad Using your fingers can disconnect most of the connections. It is FCC Class A recommended that you do not use needlenose pliers to disconnect This equipment has been tested and found to comply with the limits connections as these can damage the soft metal or plastic parts of for a Class A digital device, pursuant to part 15 of the FCC Rules. the connectors. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commer- cial environment. Handling Precautions This equipment generates, uses, and can radiate radio frequency en- 1. Always disconnect the unit from the power outlet whenever you ergy and, if not installed and used in accordance with the instruction are installing or fixing a component inside the chassis. manual, may cause harmful interference to radio communications. 2. If possible, always wear a grounded wrist strap when you are Operation of this equipment in a residential area is likely to cause installing or fixing a component inside the chassis. Alternatively, harmful interference in which case the user will be required to correct discharge any static electricity by touching the bare metal chas- the interference at his own expense. sis of the unit case, or the bare metal body of any other grounded appliance. 3. Hold electronic circuit boards by the edges only. Do not touch the components on the board unless it is necessary to do so. Do not flex or stress the circuit board. 4. Use the correct screws and do not overly tighten them. 5. Keep the original packaging and static-protective bag in case the unit has to be returned.

NEXCOM RMA Policy 3. Repair service charges for out of warranty products NEXCOM will charge for out of warranty products in two categories, 1. Warranty Period one is basic diagnostic fee and another is component (product) fee. NEXCOM manufactures products that are new or equivalent to new in 3.1 System level accordance with industry standard. NEXCOM warrants that products will be free from defect in material and workmanship for 24 months a. Component fee: NEXCOM will only charge for main components, beginning on the date of invoice by NEXCOM. HCP series products such as SMD chip, BGA chip, etc. Passive components will be re- (Blade Server) which are manufactured by NEXCOM are covered by paired for free, ex: resistor, capacitor. a three year warranty period. b. Items will be replaced with NEXCOM products if the original one is 2. RMA (Return Merchandise Authorization) not able to be repaired. Ex: motherboard, power supply, etc. 2.1 Customers shall enclose the “NEXCOM RMA Service Form” with c. Replaced with 3rd party products if needed. the returned packages. d. If RMA goods can not be repaired, NEXCOM will return it to cus- 2.2 Customers must collect all the information about the problems tomer without any charge. encountered and note anything abnormal or, print out any on-screen 3.2 Board level messages, and describe the problems on the “NEXCOM RMA Ser- vice Form” for the RMA number apply process. a. Component fee: NEXCOM will only charge for main components, such as SMD chip, BGA chip, etc. Passive components will be re- 2.3 Customers can send back the faulty products with or, without ac- paired for free, ex: resistors, capacitors. cessories (manuals, cable, etc.) and any unnecessary components from the card, such as CPU and DRAM. If the components were b. If RMA goods can not be repaired, NEXCOM will return it to cus- suspected as part of the problems, please note clearly that which tomer without any charge. components are included. Otherwise, NEXCOM is not responsible for the devices/parts. 2.4 Customers are responsible to for the safe packaging of defective products are durable enough to be resistant against further damage and deterioration during transportation. In case of damages occurred during the transportation, the repair is treated as “Out of Warranty.” 2.5 Any products returned by NEXCOM to other locations besides the customers’ site will bear an extra charge and will be billed to the customer.

Global Service Contact Information Headquarters NEXCOM International Co, Ltd. Japan 18F, No. 716, Chung-Cheng Road, NEXCOM Japan Chung-Ho City, Taipei County, 235 1OF, Nakagin-Shiroyama Building, Taiwan, R.O.C. 8-16-13. Ginza Chuou-KU, Tel: 886-2-8228-0606 Tokyo 104-0061, Japan Fax: 886-2-8228-0501 Tel: 81-3-3524-4250 www.nexcom.com.tw Fax: 81-3-3524-4252 Email: [email protected] www.nexcom-Jp.com Email: [email protected] USA NEXCOM USA China 3758 Spinnaker Court NEXCOM China Fremont, CA 94538 USA Room 301, Block E, Tel: 1 (510) 656-2248 Power Creative Building, Fax: 1 (510) 656-2158 No. 1 Shangdi East Rd. www.nexcom.com Haidian District, Email: [email protected] Beijing, 100085, China Tel: 86-1 0-5885-6655 United Kingdom Fax: 86-1 0-5885-1066 NEXCOM UK www.nexcom.cn 10 Vincent Avenue. Crownhill Email: [email protected] Milton Keynes, Buckinghamshire MK8 OAB, United Kingdom Tel: 44-1908-218877 Fax: 44-1908-218867 www.nexcomuk.co.uk Email: [email protected]

RoHS Compliance For existing products where there are non-RoHS and RoHS ver- sions, the suffix “(LF)” will be added to the compliant product name. NEXCOM RoHS Environmental Policy and Status Update For example, PEAK 7220VL2G RoHS version will become PEAK Nexcom is a global citizen for building the digital infrastructure. We 7220VL2G(LF). are committed to providing green products and services, which are All new product models launched after January 2006 will be RoHS compliant with European Union RoHS (Restriction on Use of Hazard- compliant. They will use the usual NEXCOM naming convention. For ous Substance in Electronic Equipment) directive 2002/95/EU, to be example, PEAK 870VL2, NBP14570, EBC 420 etc. your trusted green partner and to protect our environment. All RoHS compliant model and component manufacturing part num- RoHS restricts the use of Lead (Pb) < 0.1% or 1,000ppm, Mercury bers will be suffixed “XO”. For Example: (Hg) < 0.1% or 1,000ppm, Cadmium (Cd) < 0.01% or 100ppm, Hexavalent Chromium (Cr6+) < 0.1% or 1,000ppm, Polybrominated 73AI064M03X0 CF CARD INDUSTRY, 64MB, T: 0-70°C, PQI:AC47- biphenyls (PBB) < 0.1% or 1,000ppm, and Polybrominated diphenyl 0640-0442, PBFREE Ethers (PBDE) < 0.1% or 1,000ppm. 71A5500301X0 CPU+NB, AMD LX800, 500MHz/128K ,BGU481, In order to meet the RoHS compliant directives, NEXCOM has estab- AMD:ALXC800EETJ2VD lished an engineering and manufacturing task force in to implement 1E00042001X0 EBC420-LX8 the introduction of green products. The task force will ensure that we follow the standard NEXCOM development procedure and that all the new RoHS components and new manufacturing processes maintain Manual Revision History the highest industry quality levels for which NEXCOM are renowned. The model selection criteria will be based on market demand. Ven- Revision Date Description dors and suppliers will ensure that all designed components will be 1.01 Nov 29, 2006 Initial Draft RoHS compliant. How do you recognize NEXCOM RoHS Products?

Table of Contents 2.2 Location of Jumpers...... 17 Figure 2-1: Jumper Location ...... 17 Packing Materials Checklist...... 2 2.3 PCI Routing...... 18 Copyright Notice...... 2 2.4 Pin Definition...... 18 Acknowledgements...... 2 2.5 POWER Consumption...... 31 Declaration of Conformity...... 3 Chapter 3 Expansion ...... 32 Installation Suggestions...... 3 3.1 System Memory...... 33 Handling Precautions...... 3 Table 3-1: DIMM Configurations of the PEAK 8920VL2...... 33 NEXCOM RMA Policy...... 4 3.2 Installing FB-DIMM...... 33 Global Service Contact Information...... 5 Figure 3-1: How to Install FB-DIMM...... 33 RoHS Compliance...... 6 3.3 Tested Memory Reference List...... 34 Manual Revision History...... 6 3.4 Installing CPU and CPU Cooler...... 34 Chapter 1 Product Introduction...... 9 Figure 3-3: Installing CPU...... 34 3.5 CPU support list...... 35 1.1 Main Feature...... 10 3.6 Passive Backplane Support List...... 35 1.2 Block Diagram...... 10 Figure 1.1: Block Diagram of PEAK 8920VL2...... 10 Chapter 4 AMI BIOS Setup ...... 36 1.3 Electrical Specifications...... 11 4.1 About the BIOS ...... 37 1.4 Board Layout...... 12 4.2 When to Run BIOS...... 37 Figure 1.2 Board Layout view of the PEAK 8920VL2...... 12 4.3 Entering Setup...... 38 1.5 Board Dimensions...... 13 4.4 The Main Menu...... 38 Figure 1.3 Top View of the PEAK 8920VL2...... 13 Figure 4-1: BIOS Setup Utility Main Menu...... 38 Figure 1.4 CPU Board Dimensions of the PEAK 8920VL2...... 13 Figure 1.5 I/O Board Dimensions of the PEAK 8920VL2...... 14 4.5 Advanced BIOS Features ...... 39 1.6 Ordering Information...... 14 Figure 4-2: BIOS – Advanced BIOS Features...... 39 4.6 Chipset Features ...... 39 Chapter 2 Jumper Setting...... 15 Figure 4-3: BIOS –Chipset Features...... 39 2.1 Setting Jumpers...... 16 4.7 Power Management Setup/APM...... 40 Table 2-1: Setting Jumpers...... 16 Figure 4-4: BIOS – Power Management Setup...... 40

4.8 PnP/PCI Configurations...... 40 Figure 4-5: BIOS – PnP/PCI Configurations...... 40 4.9 Advanced PC Health / Hardware Health Status...... 41 Figure 4-6: Advanced PC Health / Hardware Health Status...... 41 4.10 Set Password/Security...... 41 4.11 Save & Exit Setup ...... 42 Appendix A Watchdog Timer...... 43 A.1 Watchdog Timer Working Procedure...... 44 Table A-1: Watchdog Timer Character and Function...... 44 A.2 Watchdog Timer Control Register...... 44 Table A-2: Control Register Bit Definition...... 44 A.3 Watchdog Timer Programming Procedure...... 45 Table A-3: WDT Control Register Initial Value...... 45 Appendix B GP I/O Programming ...... 47

PEAK 8920VL2 User Manual Chapter 1 Product Introduction

1.1 Main Feature 1.2 Block Diagram The PEAK 8920VL2 has dual LGA771 sockets support up to two ® ® Dual / Quad Core Xeon Processor Dual / Quad Core Xeon Processor Quad-Core / Dual-Core Intel Xeon Processor 5100 series with 4 MB LGA 771 LGA 771 ® F L2 cache and the Intel Core™ microarchitecture supports up to 2.33 F S S B B FSB 1066/1333MHz 1 GHz with 1333 MHz FSB. Featuring an Intel® 5000P Chipset + Intel® 0 ESB2, the PEAK 8920VL2 delivers higher throughput with dual point- PICMG1.3 PCIE X4 FB-DIMM Channel 0 GOLD FINGER PCIE X4 Branch 0 A FB-DIMM Channel 1 to-point system buses, faster memory for I/O bandwidth, and Fully DDR2 533/667MHz Intel 5000P FB-DIMM Channel 2 Buffered DIMM (FBDIMM) support. PCIE X4 Branch 1 PICMG1.3 FB-DIMM Channel 3 GOLD FINGER PCIE X4 The SBC PEAK 8920VL2 is successor to flagship PEAK 7220 SBC, B 4 ATI X VGA 8 E

I PCI- 32bit/33MHz ES1000 X which complied with PICMG 1.3 to ensure easy configuration, high- C E P I I

C DDR 32M S P E est quality standard, and seamless compatibility with products from PCIE X4 PCIE X1 other manufactures. LAN1(82573L) RJ45 PICMG1.3 PCIE X1 LAN2(82573L) RJ45 GOLD FINGER STAT *2 Intel 6321 ESB PEAK 8920VL2 Main Feature Highlights: USB 2.0 C 6 x USB 2.0 IDE ATA-100 • Dual LGA771 sockets support up to two Quad-Core / Dual-Core IDE LPC BUS PICMG1.3 GPIO Intel Xeon processor PCI-32bit/33MHz GPI x4 / GPO x4 GOLD FINGER F/W HUB W83627 PIO PIO • Intel 5000P embedded chipset with longevity support. D GAL Super IO RS232 COM1 / COM2 • Robust mechanism design for enhanced product reliability. • Up to 8 GB ECC/Register FBDIMM DDR 2 memory Figure 1.1: Block Diagram of PEAK 8920VL2 • Dual PCI Express Gigabit Ethernet for high networking bandwidth. • Four USB 2.0 directly output from bracket to save the cabling cost. • Flexible design option for single or dual processors. • Dedicated CPU cooler design for the thermal solution.

1.3 Electrical Specifications  Support Wake On LAN (When 5Vsb power available)  2 x RJ45 with LED CPU Support Display  Support Dual-Core Intel® Xeon® processor 5000 series and Quad-Core Intel®  ATI ES1000 PCI graphic Controller Xeon® Processor 5300 series (80W)  32MB DDR2 SDRAM VGA Memory

®  Intel Embedded Processor List ( Intel Longevity CPU):  1 x DB15 VGA port Dual Core Intel® Xeon® Processor (5130 & 5140) Dual Core Intel® Xeon® Processor LV (5128, 5138, 5148) I/O Interface

 1066/1333 MHz FSB support  USB 2.0: 4 ports through I/O bracket

Main Memory  USB 2.0: 2 ports, with 1x6 JST (2.5mm )

 4 x 240-pin four channel DDR 2 FB-DIMM  Serial port: 2 ports, with 2x5 box-header (2.0mm) support RS-232 only

 Support ECC / Register DDR2 memory up to 8GB  Parallel port: 1 port , with 2x13 box-header (2.0mm), Bi-directional, EPP/ECP Chipset  PS/2: 1 x Mini-Din Keyboard/Mouse

 Intel® 5000P memory controller Hub  GPIO: Support 4 sets of general purpose I/O each with TTL level (5V) interface

 Intel® 6321ESB I/O controller Hub  FAN: 2 x 4-pin FAN JST connectors (for CPU coolers )

BIOS  1 x on board buzzer  1 x 2-pin power on switch  AMI BIOS  1 x SMBus 2.0 to Backplane  Plug & Play support  1 x 2-pin header for reset  8M-bit flash ROM  1 x 5-pin header for key lock  Support Soft off, Wake on LAN, Power On by PS2 Keyboard Function Key, RTC  2 x 2-pin headers for power LED / HDD LED alarm Power On Storage  Power on after power failure  SATA: 2 ports, support RAID 0,1 through Backplane On-board LAN  IDE: 1 x 40-pin IDE connector, support Ultra ATA 66/100/133  2 x Intel® 82573L PCI Express Gigabit Ethernet  1 x 2-pin JST (2.5mm) power connector for DOM (Disk On Module)  Support Boot From LAN (PXE)

Watchdog Timer 1.4 Board Layout  Watchdog Timer is programmable by software from 0 to 255 seconds (Tolerance 15% under room temperature 25°C)

On-board RTC

 On-chip RTC with battery back up

 1 x External Li-Lon battery

Power Input

 Power source from backplane through PICMG 1.3 Golden Finger, support ATX mode

CPU Type (2 x Dual Core Xeon 3.0G) +12 V +5 V +3.3 V +5 Vsb (4 x FBD DDR2 2.0GB) Full-Loading Mode 21.4 A 2.07 A 3.85 A 0.04 A Figure 1.2 Board Layout view of the PEAK 8920VL2 Light-Loading Mode 10.59 A 1.69 A 3.63 A 0.04 A

NOTE: 1. Full Loading: Utilize CPU 100% with Burn-in test running 2. Light Loading: Utilize CPU loading below 5% without data or application running.

Dimensions

 PICMG 1.3 form factor 338.58 mm (L) x 122 mm (W) (13.3” x 4.8”)

Environment

 Operating Temperature: 0°C ~ 60°C (for Board Level Only)

 Storage Temperature: -20˚C to 85˚C

 Relative Humidity: Operating: 10%~90% (non-condensing) Non-Operating: 5%~95% (non-condensing)

Certifications  CE approval  FCC Class A

1.5 Board Dimensions 8 5 . 8 3 3

126.39 U1 E 121 239 121 239 2

122 240 T 122 240 C 1 119 1 119 CPU Board I/O Board 2 120 CT1 2 120 121 239 121 239 3 T 4 C 122 240 T 122 240 C 1 119 1 119 9 0

2 120 2 120 2 3

CT5 R R

9 9

R44C1 CT6 CT7 U4 R50 R47 CT8 CT9 CT10 6 CT11 CT12 CT13 U2 13 1 1 CN2 1CN3 JP1 4 C11 5

C3 7 R53 E 1 4

R U5 R58 R55

C13 R 1 3 4 5 6 7 8 9 0 1 2

R62 2

R61 1 1 1 R R R R R R R R 1 R69 R 5 4 6 L4 5

8 E 2 L R R R

C C C19 C R83 R70 C2 R48 5 6 CT14 C 3 4 5 6 7 8 9 0 1 2 3 4 2 2 R49 1 1 1 1 1 1 1 2 2 2 2 2 R R C31 FB1 U7 C7 R R R R R R R R R R R R C9 C10 R51 C8 U3 R27

102.24 R60 4 14 10 10 CE2 D1 R97 R52 U6 2 2 JP4

C12 4 R28 26 JP2 JP3 1

5 R56 1 2 3 4 5 6 7 8 9 0 1 2 3 7

C16 G 1 9

R CN1 3 3 3 3 3 3 3 3 3 4 4 4 4 5

C L1 4 1 C15 1 6 1 R R R R R R R R R R R R R R R68 4 3 2 U8 CT16 6

6 L2 G C C24 R59 CT15 L3 R

R R65 G D S 7 JP5 9 4 5 7 2 R67 1 2

G 10 1 2 1 8 8 8 U D 2 C22 C G D S Q

R74 7 R R R D

C18 R D R664 S

D C26 7 5 6 9 7 8 3 93.98 C32 3 3 Q1 2 4 5 6 7 0 7 7 7 7 7 7 2 D R89 Q4 R90 C 0 0 0 0 U20 R80 1 G

R R R R CT19 4 S R R C 1 1 1 1 S R88 Q8 G D S 8 R93 U 7

D 1 2 9 R R R R

C33 8 R63 3 Q3

7 G Q C25 R81 D S R 0 1 RN1 S R100 R96 R95 1 0 R72 4 U11 1 Q5 R91 R86 U

Q6 2 3 U C20 C28 R CT20 CT17 CT18 R94 T R99 R102 R109 U12 R103 C CE3 1 R82 R92 R110 C 19m 0 0

C29 1 G D S 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 4 9 5 6 7 8 9 1 1 2 3 4 1 1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 3 R

C34 6

1 85.29

Q 1

L G D S U 7 A Q10 L 5 2 R113

B 1 1

1 R115

1 N C35 A C U

2 M A 2 R D 30

4 T

1 USB1

1 B L A C 1 2

29 R 79.39 1 E

Q G D S

2 E K A Q

1 F 28 4

T R C36 0

5 2 7 8 J A 7 1 2 C

R116 9 G 27

2 8

1 1 1

3 8 1 Q 1 H A CT26 T 3

C39 1 1 H 26 R L C

1 R

7 4 C G A C

D4 R R

C J R 25 2

N CE4 F RT3 A T

D5 1

K 24 C

G D C USB2 3 S Q E A L

G D S U17 2 U21 23 D A B M 6 1

5 22

1 R C A N 1

U 21 3

Q B 4 A P CT28 RT5 9 2

0 4

2 20 3 L A T A R 4 8 T

3 RT4

C 19 C 4 Y G T 6 D S C T

1 U 5 7 2 W C G D S Q18 8 4 U 18

7 L10 CT35 9 Q 6 2 2 2 2 1 V 17

V 0 1 6 1 1

1 1

32.5mm R187 2 R181 R182 2 Q U

R R R Q W 16 3 83.2mm R R CT36

R199 T

1 CT29 T C Y R197 R198 15 U18 4

C 1 9 R C C66 1 0

3 AA 5 62.07 14 G L R211 R212 D S 2 8

1 0 1 2 3 T

R230 2 P 1 AB 13 3 G 3 3

D S 1 C 1 Q R223 R224

T R T T N AC R246 R

12 R 6 C

CPU Cooler C C B E R243 R244 CPU Cooler R257 M B E AD 2

3 C C 4 R255 R256 11 U CT37 L 3 3 AE R266 10

1 1 R264 R265

K AF R275 9 RT6

R R G D S J E E AG R288 R271 R272 8

7 B

C B C 2

H AH R286 R297 5 3 7 1 R282 R283 4 G 3 4 7 4 1 AJ L 2

9 0 R293 6

0 T 0 0 R 3 4 F 54.5mm AK Q 3 1

1 1 C R304

8 R303

T T 5 7 1 E C AL C C

E 3 2 C C B E B CT41

2 CE5 USB3

L CT42 G 2 4 D S 1 3 C41 D 3 AM

C Q 2 9

C44 2 R 1 3 R131 C C42 AN 4 3 Q Q R CT43

D6 CT44 2 1 R135 1 B 6 AP L U22

R 1 2

D7 5 6 C43 3 G D S A AR 1 B 8 4 4 2 2 1 7 8 9 0 4 2

5000P Heatsink 1 1

AT 5 5 5 6 Q Q R R184 Q29

U R183 V D F P R T D E A E G J L N W B H K M Y F G A C C J L H K B M N R R Q

1 1 1 1 G D S 2 0 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 9 1 5 8 6 4 3 2 1 A A 7 A A 5 A A A A A A A AU A A 1 1 3 2 2 2 2 2 2 2 2 2 2 1 1 1 1 1 1 1 1

R195 R196 R R R R 4 AV C R207 R208 3 5 6 7 8 9 4 4 41.29 R221 R222 6 6 6 6 G D S 8 0 1 1 1 1 1 1 0

R240 R241 0 4 9 D

R R A R R R R

3 R144 C46 4 3 7 8 G D S CT46

Q R253 R254 38.85 R188 R189 9 1 4 4 1 7

R146 1 R D C C C72

4 R200 R201 U19 Q35 3 Q34 CT48 T R162 R163 R270

D Q R214 R215 1 5 C 2 3 Q37 5 4 S 2 R284 1 R170 R171 G D S 5

G D S 5 3 5 5 1 5 3 C53 R233 R234 5 U23 R150 T 1 C49 R177 R178 R295 R296 3 L 1 1 1 1 1 C50 1 Q C

R R172 R173

C52 R247 R248 J CE7 R Q R R191 R192 G D S 1 R R305 R306 7 8 9 R 1 R179 R180 4 4 4 1 R202 R203 R259 R260 5 CE6 C54 CT49 R314 R311 D 1 1 1 6 C56 R193 R194 4 8

C R216 R217

3 R164 C73 1 R R R

CT50 2 3 R205 R206 6

6 C57 R235 R236 R156

R R176 U

Q L18 C64 P C G D S R219 R220 2 R249 R250 4 J

5 Q36 29.21 FAN2 R165 S 9 D 5 R238 R239 D12 7 0 7

7 C55 5 T 1 G 6 P 1 C70 R274 C75 D R229 A USB4 3 1 2 C C J C R C58 R B 5 3 3 C61 1 D10 R261 R262 R285 M1 T 7 2 2 C80 R267 R268 R294 1 6 R218 D11 C

R R 1 5 R302 C87 G R263 5

C C77

PEAK8920VL2 REV:B 5 G D S C68 R204 2 9 C100 R213

6 C84

R227 R291 R 1 R269 1

R225 C Q40 4 4

L 4BP08920B1X1

2 1 D13 L16 R185 L17 Q39 2 Q

R186 9

R190 R279 4 4 5 R226 C62 FAN1 4 5 6 E S 8 2 5 1 1 MADE IN TAIWAN R237 R210 C71 2 R209 C R245 8 R 2 E E R C69 D 2 3 C R228 8 C C U

CT57 CT54 7 1 1 1 8 4 C85 5 2 3 4 R276R277 1 C 1 C86 R273 2 U 9 9 0 6 7 9 5 R 6 8 9 2 C C 3 9 9 9 C CE8 9 G 7 R287 9 9 1

1 R289R290 1

4 3 2 15.63 R C C 8 C C C C 7 E 0 8 1 7 7 7 C92 1 2 C 14.61 1 2 6 7 8 6 C C74 8 7 8 6 6 6 R300 9

Q42 D 9 0 0

1 CT55 R312 2 1 0

0 F 2 2 2 R

C110 7 R R R CT56 C78 E 2 E 1 1

8 RN2 8 3 R298 1 R C R R L

C90R299 2 2 2 C C C R C C J5 C R 1 9 2 2 2 1 2 2 1 CE10 CE11 C105 1 R308R309 1 4 1 1 1 1 1 1 1 8

C106 1 1 R313 1 C J2 A A A A A A A A A A A49 J4 J3 A A A1 A82 A C109 R310 CE13 0 8 9 F 1 P P P J J J 0.00 6 1 0 3 5 8 0 8 3 4 0 9 6 2 0 0 ...... 7 8 0 9 8 0 0 6 4 2 2 9 1 5 6 1 3 2 2

Figure 1.3 Top View of the PEAK 8920VL2 Figure 1.4 CPU Board Dimensions of the PEAK 8920VL2

1.6 Ordering Information

RoHS Compliant PICMG 1.3 Full-Size SHB Express (System Host 6 2 9 8 7 6 1 0 3 4

1 7 FB1 1 C

R R R R FB2 1 1

D1 R R C RT1 C 5 5 6 7 8 R Q1 R R 2 3 R 1 2 4 5 D D D D 1 2 3 4 C C R R C C C E E E E E D D D D 2 3 4 5 6 7 8 9 L L L L 3 4 E E E E 2 2 2 2

1 1 1 1 U1 U2 1 1 L L L L R R R R

B 8 R27 R20R21 C R C R R R D2 C R13 9 C

E 4 6 3 C11 C 0 7 111.79 BAT1 1 2 111.79 3 3 0

R R ® C10

R B R 2 4 C12 9 JP3 1 C15 5 8 Q2 R 102 65 1 2 3 4 5 6 2 1 2 3 3 3 3 3 3 R R R

1 6 2 1 2 1 2 R R R R R R

1 BZ1 R45 2 JP1 JP2 R41 8 9 RN1 64 C 4 3 4 3 3 PEAK 8920VL2 Board), Intel 5000P Chipset, LGA 771 socket 7 8 4 4 R 103 R46 C19 R R 1 1 8 9 0 9 6 7 8 1 2 3 4 5 0 R R U3 U4 C C 4 4 5 5 5 5 5 5 5 5 5 5 0 3

R47 RN2 6 RN3 RN4 RN5 R R C R R R R R R R R R R C26 RN6 RN7 RN8 RN9 R 7 0 1 1 2 2 L 2 2 3 4 5

JP4 C C 2 2 2 2 99 1 C

Y1 C C C C R61 U5 C31 C28 C29 JP5 R62 L2 R63 99 1 ® ® 2 M1 3 D 6

D3 3 C

R65 6 L 93.84 8 FB3 R 2 4

100 R69 8 1 2 3 4 G 6 S VGA1 6 3 3 (P/N: 1P00892000X0) 9 support Dual Core /Quad Core Intel Xeon pro-

C36 0 R

C C R C 3 7 9

C C35 Q3 2 C38 R67 R 3 100 C50 C37 RN10 R71 4

R72 8 CP5 E 1 4 C44 B

U7 5 38 3 1 2 3 1 2 3

C49 1 2 0 Q4 P R E 8 9 0 1 3 7 7 7 4 8 9 0 1 2 3 4 4 4 P P P 1 9 9 8 1 B 4 2 3 5 5 6 6 C 5 6 3 4 2 7 7 6 6 7 7 7 7 5 C C C R C C C R 7 7 8 5 C R R 8 8 R80 R79 8 4 4 5 5 C C C C 4 1 1 1 1 N 1 1 U9 6 7 F1 4 C R R 6

8 85.59 4

R90 C57 R R R C C L R C C 8 8 5 C R R R R R R R C D C R 2

U6 6 RN13 RN14 RN15 R89 R93 5 RN12 U8 C R R

CE1 RN17 R88 5 6 7 8 5

RN16 7 CP6 C64 5

1 CE2 2 CP7 CP8 8 9 9 9 9

3 RN11 C

4 5 3 R94 C R 1

C63 1 U11 0 C62 1 0 6 2 5 R R R R 6 8 1 1 1 1 2 7 5 1 1 1 1 N 0 2 2

6 6 R116 1 1 1 0 1 R104 6 6

R107 9 C70 FB4 C71 R R

C69 1 1 1 C C R R J

1 1 FB5 C78 R P N M L K H G F E D C B A C R R C R 1 0 2

R R117 R R R R 1 1 U10 R118 0 9 7 8 9 0 R105 1 U13 FB6 1 9 U12 R C 0 1 1 1 1 1 1 2 2 2 2 2 2 2 2 2 3 1 2 3 3 3 3 3 3 1 1 1 0 0 1 1 2 3 4 5 6 7 8 9 0

Q5 Q6 1 2 3 4 R121 2 R R 0 0 2 3 4 6 7 1 2 3 4 5 6 7 8 9 0 5 6 7 8 9 9 0 1 2 3 4 5 6 5 1 8 1 1 1 3 3 3 3 3 3 3 3 3 4 76 7 R124 C77 1 3 4 5 6 3 4 1 1 1 1 1 1 1 1 1 1 2 R R R 8 I cressors w/ 4 DDR2 FB-DIMM / 2 Express GbE / 6 D5 G C88 7 7 7 7

R126 R120 1 D R R R R R R R R R R 1 75 2 C79 C C C C 0 R152

A R CT1 R123 1 RN20 9 0 R151 R129

2 R157 C80

B R 7 U15 RN19 9 1 U19 C82 U17 L5 R130 4 C98 R164 C 8 FB8 C85 C C 1

4 U16 7 C81 3 9 C105 C83

R 72.35 D

R141 4 C84 FB7 0 C89 0 1 2 3 4 R143 0 R145 1

E 1 R165 1 2 3 4 5 6 7 8 9 1 1 1 1 1 1

70.96 6

U14 C87 5 R C

R147 C86 1 L C F

R146 9 0 C92 C90 A 5 7 G C91 R148 FB9

4 R150 3 0 1 I C94 G

Q8 7 1 B 1 9 1 R153 H B C97 B S

R158 1 R154 0 C96 1 R F C C 7

D J

D 0 1 1 R155 R RN21 RN22 RN24 U18 L C D R159 C104 6 6 6 7 C K 8 6 Q7 5 2 9 5 6 2 1 1 6 6 C95 E CT2 0 0 R163 2 2 9 8 1 1 L 1 1 1 1 1 R R

6 E

0 F 0

R188 N C 1 1 1 1 G R178 C109 B R C R C 5 20 14 4 1 M 3 0 R R F C C R R211 3 4 2 G R182 1 8 R174 R175 C

5 R183 R181 N 1 1 1 H 1 1

25 51 2 R USB2.0 / VGA/ 2 SATA. C

C127 R186 A A R187 R179 R185 1 1 1 P 1 2 R193 R162 0 J R J H G

26 Y W V U T R P N M L K F E D C B A C C C B A R221 50 0 B

2 C111 R176 8 R R191 K R190 2 U21 F 1 2 0 R L R242 9 R194

9 L R180 CT3 U 2 2 8 T 0 1 0 6 1 L R195 1 C117 1 1 1 M LAN1

R201 2 R204 1 2 21 13 U R196 2 2 B 1 C C

Q9 3 1 R C N R203 V N

R209 R207 0 C 5

R213 CT4 R206 1 C 3 9 7 8 9 Q11 R 1 P

1 U25 W 2 B 5

9 9 9 C126 3 4

R212 2 1 F 1 Y 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 1 1 1 R205 C123 X1 R214 1 E C R 5 C 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 1 7 0 C128 R R R CT5 C AA

R208 FB14 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 R 6 2 1 C129 D6 Q10 C124 2 R216 2

AB R R R R R R R R R R R R R R R R

U28 N R219 5 L10 7 F S R 3 AC 8

5 U23 U27 1 C136 0 U26 R241

7 8 9 1 C137 AD R243 C 3 0 1 1 B 10 1

AE 3 4 2 2

2 2 R238 R246 F R247 C 3 3 3

2 11 0 1 2 3 4

R R AF

CT7 5

1 1 1 R251 R 3

29 5 12 R254 B 1 2 3 4 5 6 7 8 9 1 1 1 1 1

R248 C142 5 C139 G

AG C C C 4 D 2 13 Q13 R257 1 46.36 A AH R262 0 1 A R 7 14 1 C145 Q12 C R263 4 4 C147

AJ 1 L11 15 E C B 8 1 1 AK CT6 0 R267 R256 C R270 C C 5 16 C146 C148 R265 AL R281 2 R266 1 17 D R272 C152 R271 R275 R264 C149 1 30 1 4 AM C E U24 R279 D8 D7 R277 18 C151 R276 C153 R278 H 5 AN 3 CT8 1 19 R284 F 5 R287 1 R286 C157 C156 R289 6 G 1 AP 20 M2 1 R294 C H C160 R298 AR C 21 8 U22 R293 9 R291 D 22 J

8 RN28 C154 8 AT F R295 5 9 CT9 2 K

2 FB16 5

R292 1 2 3 U30 1 5 6 7 8 9 0 0 0 1 2 3 4 5 5 6 7 8 9 0 1 2 3 4 5 6 6 7 7 8 9 8 0 4 5 A 3 Y2 8 R239 R240 L 1 R 3 3 3 C 6 6 6 1 1 2 3 2 2 2 2 2 2 0 0 0 0 0 1 1 1 1 1 1 1 2 2 1 2 2 1 3 3 3 6 G S 6 C 8

3 3 3 M 1 1 1 1 0 B B B

R249 C138 R250 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 R244 R245 1 1 R FB17 9 F F C R C C F R R 1 2 1 L12 D 2 R R R R R R R R R R R R R R R R R R C R R R R R R R R R C N R258 R259 C144 CE3 R252 R253 4 U31 7 7 2 4 C 32.90 2 4 5 6 7 3 4 P 1 1 6

B 6 R260 R261 1 0 0 0 0 1 1 9 1 3 1 C C 0 4 5 6 7 8 9 0 1 2 2 2 2 2 2 2 6 2 6 C 7 9

R268 R269 6 6 6 6 6 6 7 C R372 X2 1 C C C C C C C B

C G M3S R336 C175 3 1 3 3 3 3 3 3 3 D

C F R273 R274 D D R297 B C R E R R R R R R R M6 8 B C 7 R300 CE4 9 0 R282 R283 7 R371 M7 7 7 8 1

7 R301 Q14 3 6 1 1 1

PEAK8920-IO REV:A0 C 26.80 4 7

4 R303 C C C 7 1 4 8 9 0 5 1 2 6 3

0 6 7 G S E 1

3 G S 1 8

4 5 5 6 4 6 6 R304 7 5 5 5 C R 6 7 8 9 R

3 3 3 3 3 M4 3 3 1 5 3 3 3 4BP8920IA1X0 0 1 2 3 M5 R319 7 7 7 7 R R R R R C R R 2 7 8 8 8 8 R388 0 R R R 1 2 3 5 C189 R389 C184 3 3 3 3 1 3 3 3 3 3 8 1 8 2 9 8 8 8 8 4 7

CE9 4 5 6 U32 R R R R R 2 5 4 5 4 1 1 1 1 R R R R 7 8 9 8 8 8 MADE IN TAIWAN C 3 2

3 3 3 3 D10 H 1 1 C C C C R 9 3 4 3 3 3 9 LAN2

7 8 9 0 1 3 4 5 2 3 CE7 C188 CE5 20.82 L13 9 1 R C R R R C 7 7

CE12 R390 6 0 1 R R R 6

3 3 3 4 4 5 5 5 4 4 D11 1 C 3 3 9 9 9 C 9 3 3 3 3 3 3 3 3 3 3 C R285 7 8 R R 2 C202 2 2 E 4 C190 C191 R R R R R R R R R R C208 C201 1 1 C R U R 3 R392 7 R299 2 2 4 5 6

FB22 6 3 0 1 8 5 0 C C 9 9 9 9 0 1

1 2 3 FAN1 2 1

C186 3 1 1 R394 3 1 1 1 1 2 9 2 2 2 C209 2 C

R393 R 2 2 CE6 2 2 2 C C C 3 2 2 2 C C C CE8 C225 J1 B C C

C C C CE10 CE11 C224 CT10 JP7 J2 1 R 99 F

B2 A40 8 99 1 1 3 B40 B2 A40 A2 1 B40 A2 9 D12 R396 C227 1

C C228 2 C197 R397 U33 C216 8.87 JP6 C200 R398 C226 C229 KM1 6.21 R395 8 5 100 100 2 B39 B1 A39 A1 2 B39 A1 B1 A39 0.00 6 5 8 0 2 8 2 3 6 2 0 9 0 4 ...... 7 8 0 0 9 6 8 4 1 5 9 6 2 1 2 2 3

Figure 1.5 I/O Board Dimensions of the PEAK 8920VL2

PEAK 8920VL2 User Manual Chapter 2 Jumper Setting

2.1 Setting Jumpers  JP6:Key lock Pin Def. Table 2-1: Setting Jumpers 1 +5V FAN1:CPU1 FAN FAN2:CPU0 FAN 2 NC 3 GND  JP1:LAN Link/Active 4 KBLOCK# Pin Def. Pin Def. Pin Def. Pin Def. 5 GND 7 3.3VSB 5 3.3VSB 3 3.3VSB 1 3.3VSB LAN2_AC- LAN2_ LAN1_AC- LAN1_  JP7 :Main power LED 8 6 4 2 TLED# LINK# TLED# LINK# Pin Def.  JP2:Speaker (Reserved) 1 +5V Pin Def. Pin Def. Pin Def. Pin Def. 2 GND IO_SPEAK- 4 3 GND 2 GND 1 +5V  JP8:HW Reset ER Pin Def.  JP3:CMOS Clear 1 HW_RST# Pin Def. Pin Def. Pin Def. 2 GND 3 CMOS_CLEAR 2 ESB_RTCRST# 1 RTCRST#  JP9:Push button  JP4:GPIO Pin Def. Pin Def. Pin Def. Pin Def. Pin Def. Pin Def. 1 SIO_PBIN 9 GPO17 7 GPO16 5 GPO15 3 GPO14 1 +5V 2 GND 10 GPI13 8 GPI12 6 GPI11 4 GPI10 2 GND  JP10:HD LED  JP5:DOM Pin Def. Pin Def. Pin Def. 1 +5V 2 GND 1 +5V 2 HD_LED

 J1:USB port 4/5 2.2 Location of Jumpers Pin Def. 1 USB_VCC45

2 USB_4N CN2 CN3 DIMM 4 DIMM 2 3 USB_4P DIMM 3 DIMM 1 JP1 CN1 JP4 4 USB_5N JP2 JP5 JP3 USB1 5 USB_5P 6 USB_GND Intel 5000P / 5000X CN4 USB2

CPU 1 CPU 0 USB3 FAN1 JP6 J1 JP7 FAN2 USB4 JP8 JP9 JP10

Figure 2-1: Jumper Location

2.3 PCI Routing 2.4 Pin Definition

Chip Function IDSEL Interrupt Routing Remark Connector Function ATI ES1000 PCI to VGA AD18 IRQ_G J1 USB 4/5 CN1 PIO W83627HF SUPER I/O LPC REQ0 CN2 COM2 CN3 COM3 CN4 IDE JP1 LAN1 JP2 Speaker (Reserved) JP3 CMOS JP4 GPIO JP5 Disk On Module JP6 Key Lock JP7 Main Power LED JP8 Power Reset JP9 Push button JP10 HDD LED FAN1 CPU0 FAN FAN2 CPU1 FAN CON1 USB1 CON2 USB2 CON3 USB3 CON4 USB4 CON5 VGA CON6 LAN1 CON7 LAN2 CON8 PS2 KB/Mouse

J1: USB port 4/5 box header: CN2: COM2 box header: A.Connector size: 1 X 6 = 6 Pin A. Connector size: 2 X 5 = 10 Pin 2 4 6 8 10 14 15 16 17 18 19 20 21 22 23 24 25 26 CN2 CN1 BOX-2.0mm-M-180 BOX-2.0mm-M-180 1 3 5 7 9 1 2 3 4 5 6 7 8 9 10 11 12 13

B. Connector pin definition B.Connector pin definition Pin Signal Pin Signal Pin Signal 1 SIO_DCD#2_CON 2 SIO_RX2_CON 1 USB_VCC45 3 SIO_TX2_CON 4 SIO_DTR#2_CON 2 USB_4N 5 IO_GND 6 SIO_DSR#2_CON 3 USB_4P 7 SIO_RTS#2_CON 8 SIO_CTS#2_CON 4 USB_5N 9 SIO_RI#2_CON 10 NC 5 USB_5P 6 USB_GND

CN3: COM1 box header: CN4: IDE box header: A.Connector size: 2 X 5 = 10 Pin A.Connector size: 2 X 20 = 40 Pin 2 4 6 8 10 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 CN3 CN4 BOX-2.0mm-M-180 BOX-2.54mm-M-180 1 3 5 7 9 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39

B.Connector pin definition B.Connector pin definition

Pin Signal Pin Signal Pin Signal Pin Signal 1 IDE_RST#_R 2 GND 1 SIO_DCD#1_CON 2 SIO_RX1_CON 3 IDE_D7 4 IDE_D8 3 SIO_TX1_CON 4 SIO_DTR#1_CON 5 IDE_D6 6 IDE_D9 5 IO_GND 6 SIO_DSR#1_CON 7 IDE_D5 8 IDE_D10 9 IDE_D4 10 IDE_D11 7 SIO_RTS#1_CON 8 SIO_CTS#1_CON 11 IDE_D3 12 IDE_D12 9 SIO_RI#1_CON 10 NC 13 IDE_D2 14 IDE_D13 15 IDE_D1 16 IDE_D14 17 IDE_D0 18 IDE_D15 19 GND 20 NC 21 ESB_IDE_DREQ 22 GND 23 IDE_IOW# 24 GND 25 IDE_IOR# 26 GND 27 ESB_IDE_IORDY 28 IDE_CABLE 29 ESB_IDE_DACK# 30 GND 31 IDE_IRQ14 32 NC 33 ESB_IDE_DA1 34 IDE_P66DET_R 35 ESB_IDE_DA0 36 ESB_IDE_DA2 37 IDE_CS1# 38 IDE_CS3# 39 IDE_LED# 40 GND

JP1: LAN Link/Active pin header: JP2: Speaker pin header: (Reserved) A.Connector size: 2 X 4 = 8 Pin A.Connector size: 1 X 4 = 4 Pin

2 4 6 8 JP2 JP1 PIN-2.54mm-M-180 PIN-2.54mm-M-180 1 3 5 7 1 2 3 4 B.Connector pin definition B.Connector pin definition

Pin Signal Pin Signal Pin Signal 1 3.3VSB 2 LAN1_LINK# 1 +5V 3 3.3VSB 4 LAN1_ACTLED# 2 GND 5 3.3VSB 6 LAN2_LINK# 3 GND 7 3.3VSB 8 LAN2_ACTLED# 4 IO_SPEAKER

JP3: CMOS Clear pin header: JP4: GPIO pin header: A.Connector size: 1 X 3 = 3 Pin A.Connector size: 2 X 5 = 10 Pin

JP3 2 4 6 8 10 PIN-2.54mm-M-180 JP4 PIN-2.54mm-M-180 1 2 3 1 3 5 7 9 B.Connector pin definition B.Connector pin definition

Pin Signal Pin Signal Pin Signal 1 RTCRST# 1 +5V 2 GND 2 ESB_RTCRST# 3 GPO14 4 GPI10 3 CMOS_CLEAR 5 GPO15 6 GPI11 7 GPO16 8 GPI12 9 GPO17 10 GPI13

JP5: DOM pin header: JP6: Key lock pin header: A.Connector size: 1 X 2 = 2 Pin A.Connector size: 1 X 5 = 5 Pin 1 JP5 JP6 2 PIN-2.54mm-M-180 PIN-2.54mm-M-180

B.Connector pin definition 1 2 3 4 5 B.Connector pin definition Pin Signal 1 +5V Pin Signal 2 GND 1 +5V 2 NC 3 GND 4 KBLOCK# 5 GND

JP7: Main power LED pin header: JP8: HW Reset pin header: A.Connector size: 1 X 2 = 2 Pin A.Connector size: 1 X 2 = 2 Pin 1 JP7 1 JP8 2 2 PIN-2.54mm-M-180 PIN-2.54mm-M-180 B.Connector pin definition B.Connector pin definition Pin Signal Pin Signal 1 +5V 1 HW_RST# 2 GND 2 GND

JP9: Push button pin header: JP10: HDD LED pin header: A.Connector size: 1 X 2 = 2 Pin A.Connector size: 1 X 2 = 2 Pin 1 JP9 1 JP10 2 2 PIN-2.54mm-M-180 PIN-2.54mm-M-180 B.Connector pin definition B.Connector pin definition

Pin Signal Pin Signal 1 ATX5VSB 1 +5V 2 SIO_PBIN 2 HD_LED

FAN1: CPU0 FAN pin header: FAN2: CPU1 FAN pin header: A.Connector size: 1 X 4 = 4 Pin A.Connector size: 1 X 4 = 4 Pin FAN1 FAN2

WAFER-2.54mm-M-180 WAFER-2.54mm-M-180 1 2 3 4 1 2 3 4

B.Connector pin definition B.Connector pin definition

Pin Signal Pin Signal 1 GND 1 GND 2 VCC_12 2 VCC_12 3 CPU0_FAN 3 CPU1_FAN 4 CPU0_FANPWM 4 CPU1_FANPWM

USB1 connector: USB2 connector: A.Connector size: USB port A.Connector size: USB port USB1 USB2

1 1 2 VCC 2 VCC 3 DATA- MH1 3 DATA- MH1 4 DATA+ GND MH2 4 DATA+ GND MH2 GND GND GND GND USB-F-90 USB-F-90 B.Connector pin definition B.Connector pin definition

Pin Signal Pin Signal 1 USB_VCC0 1 USB_VCC1 2 USB_0N 2 USB_1N 3 USB_0P 3 USB_1P 4 USB_GND 4 USB_GND MH1 USB_GND MH1 USB_GND MH2 USB_GND MH2 USB_GND

USB3 connector: USB4 connector: A.Connector size: USB port A.Connector size: USB port USB4 1 B.Connector pin definition 2 VCC 3 DATA- MH1 4 DATA+ GND MH2 Pin Signal GND GND 1 USB_VCC2 USB-F-90 2 USB_2N B.Connector pin definition 3 USB_2P Pin Signal 4 USB_GND 1 USB_VCC3 MH1 USB_GND 2 USB_3N MH2 USB_GND 3 USB_3P 4 USB_GND MH1 USB_GND MH2 USB_GND

VGA connector: LAN1 connector: A.Connector size: 15 PIN D-SUB FEMALE A.Connector size: RJ45+LED

LAN1 1 10 2 TX+ LED1+ 9 TX- LED1- 3 12 6 RX+ LED2+ 11 RX- LED2- MH2 MH1 4 5 N/C1 VGA1 7 N/C2 MH1 VGA-5.08mm-F-90 8 N/C3 GND MH2 ID2 HSYNC VSYNC GND GND GND VCC GND VCDAT VDCLK

ID1 N/C4 GND BULE RED GREEN GND RJ45+LED-90 6 1 7 2 8 3 9 4 5 11 12 13 14 10 15 B.Connector pin definition

B.Connector pin definition Pin Signal Pin Signal Pin Signal Pin Signal 1 LAN1_M0P 2 LAN1_M0N 1 VGA_R_CON 2 VGA_G_CON 3 LAN1_M1P 4 LAN1_M2P 3 VGA_B_CON 4 NC 5 LAN1_M2N 6 LAN1_M1N 5 SGND 6 SGND 7 LAN1_M3P 8 LAN1_M3N 7 SGND 8 SGND 9 LAN1_LINK# 10 L1_CONVCC 9 VGA_VCC 10 SGND 11 LAN1_ACTLED# 12 L1_CONVCC_2 11 NC 12 VGA_I2CDAT_CON MH1 LAN_GND MH2 LAN_GND 13 VGA_HSYNC_CON 14 VGA_VSYNC_CON 15 VGA_I2CCLK_CON MH1 SGND MH2 SGND

LAN2 connector: KM1: Keyboard/Mouse connector: A.Connector size: RJ45+LED A. Connector size: MINI DIN 6PIN (PURPLE) LAN2 KM1 1 10 2 TX+ LED1+ 9 TX- LED1- 8 6 3 12 5 3 6 RX+ LED2+ 11 2 1 RX- LED2- 4 MINI_DIN-F-90 5 N/C1 7 N/C2 MH1 8 N/C3 GND MH2 MH1 MH2 MH3 N/C4 GND RJ45+LED-90 B. Connector pin definition B.Connector pin definition Pin Signal Pin Signal Pin Signal Pin Signal 1 LKB_DAT 2 LMS_DAT 1 LAN2_M0P 2 LAN2_M0N 3 K/M_GND 5 LK/M_VCC 3 LAN2_M1P 4 LAN2_M2P 6 LKB_CLK 8 LMS_CLK 5 LAN2_M2N 6 LAN2_M1N MH1 K/M_GND MH2 K/M_GND 7 LAN2_M3P 8 LAN2_M3N MH3 K/M_GND 9 LAN2_LINK# 10 L2_CONVCC 11 LAN2_ACTLED# 12 L2_CONVCC_2 MH1 LAN_GND MH2 LAN_GND

PEAK 8920VL2 User Manual Chapter 3 Expansion

3.1 System Memory 3.2 Installing FB-DIMM Memory Allocation

Memory Installation reference chart

No of Memory installing DIMM Location to use 1 DIMM1 2 DIMM1, DIMM2 4 DIMM1, DIMM2, DIMM3, DIMM4 Figure 3-1: How to Install FB-DIMM

Table 3-1: DIMM Configurations of the PEAK 8920VL2 1. Position the FB-DIMM memory over the memory slot. Be sure the notch on the memory align with the memory slot. 2. Press down the memory evenly until the ejectors snap into the lock position.

3.3 Tested Memory Reference List 3.4 Installing CPU and CPU Cooler

CN2 CN3

Type P/N Number Size Vendor DIMM 4 DIMM 2 DIMM 3 DIMM 1 240pins 512MB DDR2 JP1 78.96G99.404 512 MB Apacer CN1 JP4 JP2 FB-DIMM Module PC2-5300 CL5 JP5 JP3 USB1 240pins 1GB DDR2 667 Tran- FB-DIMM Module TS128MFB72V6J-T 1 GB Intel 5000P / 5000X CN4 USB2 scend (Reg & ECC & DDR667) CPU 1 CPU 0 USB3 240pins 2GB DDR2 677 FAN1 JP6 J1 JP7 Tran- FAN2 FB-DIMM Module TS256MFB72V6J-T 2 GB USB4 scend JP8 (Reg & ECC & DDR667) JP9 JP10

Figure 3-3: Installing CPU

3.5 CPU support list 3.6 Passive Backplane Support List

Dual-Core Intel® Xeon® Processor 5100 Series for Dual-Processor Embedded Computing NEXCOM provides PICMG 1.3 compliant 4U backplanes to fit most project needs. The 4U backplanes include two 14-slot NBP 14111, Thermal Core L2 Front-Side Processor Name Product Number Design Tcase Package NBP 14210, and one 20-slot NBP 20016. All backplanes are com- Speed Cache Bus Speed Power pliant with PICMG 1.3 for greater reliability and compatibility with Dual-Core Intel® 70.8° C product from other manufactures. See blow for available backplanes Xeon® processor HH80556JH0464M 2.13 GHz 4 MB 1066 MHz 35 W LGA 771 (nominal) LV 5138 and type. Dual-Core Intel® PEAK 8920VL2 Compatible Backplane Table Xeon® processor HH80556JJ0534M 2.33 GHz 4 MB 1333 MHz 40 W 58° C LGA 771 LV 5148 PCIe Models Slots SHB PCIe x8 PCIe x4 PCIe x1 PCI PCI-X Dual-Core Intel® x16 Xeon® processor HH80556JH0364M 1.86 GHz 4 MB 1066 MHz 40 W 58° C LGA 771 NBP14111 LV 5128 14 1 1 0 0 0 3 8 (P/N:1N01411100X0) Dual-Core Intel® Xeon® processor HH80556KJ0534M 2.33 GHz 4 MB 1333 MHz 65 W 65° C LGA 771 NBP14210 14 1 1 0 1 0 10 0 5140 (P/N:79N1421000X0) Dual-Core Intel® ® NBP20016 Xeon processor HH80556KJ0414M 2.0 GHz 4 MB 1333 MHz 65 W 65° C LGA 771 20 1 0 0 0 0 0 16 5130 (P/N:1N02001600X0)

PEAK 8920VL2 User Manual Chapter 4 AMI BIOS Setup

4.1 About the BIOS 4.2 When to Run BIOS The BIOS (Basic Input and Output System) program is a menu driven The BIOS program should be modified in the following utility that allow you to make changes to the system configuration conditions: and tailor the system to suit your individual needs. The BIOS is a ROM-based configuration utility that displays the system’s configura- - Changing of the system configuration tion status and provides a tool to set system parameters. When the - Detecting configuration error by the system, and you are prompted system is turned off, these parameters are saved in non-volatile bat- to make changes to the BIOS program tery backed-up CMOS RAM. When the system is turned back on, the - Resetting the system clock system is configured with the values saved in CMOS. - Redefining the communication ports to prevent any conflicts With easy-to-use pull down menus, you can configure items such as: - Making changes to the Power Management configuration Hard drives, diskette drives, and peripherals. You can also configure - Changing the password or making other changes to the security Video display type, display options, and password protection from setup unauthorized use. The Power management features in the BIOS inti- Making the inappropriate BIOS setting may cause the system failure mately affect how the computer performs. Therefore, it is important to to function properly. Be sure to modified the setting with caution. understand all the Setup options, and select the appropriate settings. Load Failsafe Defaults to restore the manufacture setting.

4.3 Entering Setup 4.4 The Main Menu When the system is powered on the BIOS will enter the Power-On Self Test (POST) routines. These routines perform various diagnostic checks; if anenor is encountered the error will be reported in one of tow different ways: • If the error occars before th edisplay device is initaialized, a series of beeps will be tranamitted. • If the error occurs afer the display device is initialized, the screen willdisplay the error message. Powering on the computer and immediately pressing allows you to emtter setup. Amother way to enter setup is to power n the computer and wait for the following message during the POST: TO ENTER SETUP BEFORE BOOT PRESS KEY Press the ~~key or press the , , and keys to enter Setup:~~

Figure 4-1: BIOS Setup Utility Main Menu

4.5 Advanced BIOS Features 4.6 Chipset Features

Figure 4-2: BIOS – Advanced BIOS Features Figure 4-3: BIOS –Chipset Features

4.7 Power Management Setup/APM 4.8 PnP/PCI Configurations

Figure 4-4: BIOS – Power Management Setup

Figure 4-5: BIOS – PnP/PCI Configurations

4.9 Advanced PC Health / Hardware Health Status 4.10 Set Password/Security

Figure 4-6: Advanced PC Health / Hardware Health Status

4.11 Save & Exit Setup

PEAK 8920VL2 User Manual Appendix A Watchdog Timer

A.1 Watchdog Timer Working Procedure A.2 Watchdog Timer Control Register Watchdog Timer (WDT) is a special hardware device that monitors Table A-2: Control Register Bit Definition the computer system during normal operation. WDT has a clock circuit that times down from a set number to zero. If a monitored item The Watchdog Timer Control Register controls the WDT working occurs before the timer reaches zero, WDT resets and counts down mode. Write the value to the WDT Configuration Port. The following again. If for some reason the monitored item doesn’t occur before the table describes the Control Register bit definition: timer reaches zero, WDT performs an action, such as a diagnostic operation (rebooting the computer). 7 6 5 4 3 2 1 0 You must enter timer values into WDT Configuration Register (Write x x x the control value to the Configuration Port), and clear WDT counter 0001: Select 1 second (read the Configuration Port). 0010: Select 2 second 0011: Select 4 second 0100: Select 8 second Table A-1: Watchdog Timer Character and Function 0101: Select 16 second 0110: Select 32 second WDT Configuration port F2 Default at F2 0111: Select 64 second 1000: Select 128 second Disabled 1. Default at disabled 0000: Select 255 second Watch Dog Timer Don't care Enabled 2. Enabled for user’s programming 1: Enable watchdog timer 1 sec 0: Disable watchdog timer 2 sec 4 sec 8 sec WDT Active Time 16 sec 32 sec 64 sec 128 sec 255 sec

A.3 Watchdog Timer Programming Procedure Power On or Reset the System The initial value of WDT Control Register (D7~D0) is zero (0), when Table A-3: WDT Control Register Initial Value power is on or the system has been reset. The following table indi- cates the initial value of WDT (00000000b):

Bit Value Mean 7 0 Disable Watchdog Timer 3, 2, 1, 0 0000 Select 255 second

Clear the WDT WDT Control Register WDT counter interval cannot be longer than the preset time, other- Note: This register writes to WDT configuration port. wise, WDT sends a reset signal to the system. The following is an example of clearing the WDT program in Intel 8086 assembly lan- Set WDT Control Register to control the WDT working mode. The guage. initial value of WDT Control Register is shown as follows:

;(Clear the WDT) ;(Setting the WDT Control Register as AL) Mov dx, F2h ;Setting the WDT configuration port Mov al, 0h ;Setting initial value=0 for the WDT Control Register In al, dx Follow these instructions to set the register: 1. Select the time-out intervals of WDT (decide the values of D3, D2, Note: Before running WDT, you must clear WDT to ensure that the initial value is zero. D1, D0 in F2) Example: If D3~D0 = 0, the time-out interval is 255 seconds.

AND al, 10000000b ; Setting the time-out interval as 255 second. 2. Enable or Disable WDT (decide D7 value in F2) i.e. D7=0, Disables WDT

AND al, 01111111b ; Disable the WDT i.e. D7=1, Enables WDT OR al, 10000000b ; Enable the WDT After finishing the above settings, you must output the Control Regis- ter’s value to WDT Configuration Port. Then WDT will start according to the above settings.

MOV dx, F2h ; Setting WDT Configuration Port OUT dx, al ; Output the Control Register Value

PEAK 8920VL2 User Manual Appendix B GP I/O Programming

GPIO Programming Guide out 2eh, 07h It provides definitions for the four GPI/O pins in the PEAK8920. GPI/O out 2fh, 07h (General Purpose Input/Output) pins are provided for custom system design. ;####################################################### ############### JP4 ; Select function General Purpose I/O Port Pin 4 Pin 6 Pin 8 Pin 10 Pin 3 Pin 5 Pin 7 Pin 9 ;####################################################### GPIO10 GPIO11 GPIO12 GPIO13 GPIO14 GPIO15 GPIO16 GPIO17 ############### out 2eh, 2Ah GPIO sample code: out 2fh, 0ffh ;####################################################### ;####################################################### ############### ############### ;MSB LSB ;Activate GPIO Function. GPIO17 GPIO16 GPIO15 GPIO14 GPIO13 GPIO12 GPIO11 GPIO10 ;####################################################### ;####################################################### ############### ############### out 2eh, 30h ;####################################################### out 2fh, 01h ############### ;####################################################### ;Enable Configuration mode. ############### ;####################################################### ;CRF0 (GP10-GP17 I/O selection register. Default 0xFF) ############### ;When set to a ‘1’, respective GPIO port is programmed as an input out 2eh, 87h port. out 2eh, 87h ;When set to a ‘0’, respective GPIO port is programmed as an output ;####################################################### port. ############### ;####################################################### ;Select logical device (GPIO1). ############### ;####################################################### ###############

Copyright © 2006 NEXCOM International Co., LTD. All rights reserved 48 PEAK 8920VL2 User Manual Appendix B GP I/O Programming out 2eh, 0f0h out 2fh, 0fh ;GPIO10-13 as intput pin , GPIO14-17 as output pin ;####################################################### ############### ;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. ;If a port is programmed to be an input port, then its respective bit can only be read. ;####################################################### ############### out 2eh, 0f1h out 2fh, 0f0h; pull high GPIO14-17 //###################################################### ################ // Exit Configuration mode. //###################################################### ################ out 2eh, 0aah