ADLINK Technology VPX3000 Series Manual
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ADLINK Technology VPX3000 Series Manual

Performance rugged conduction cooled 3u vpx 3rd gen intel core i7 processor blade
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VPX3000 Series
Performance Rugged Conduction Cooled
3U VPX 3rd Gen Intel® Core™ i7
Processor Blade
Manual Rev.:
Revision Date:
Part No:
Leading EDGE COMPUTING
1.1
June 4, 2019
50-15092-2000

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Summary of Contents for ADLINK Technology VPX3000 Series

  • Page 1 VPX3000 Series Performance Rugged Conduction Cooled 3U VPX 3rd Gen Intel® Core™ i7 Processor Blade Manual Rev.: Revision Date: June 4, 2019 Part No: 50-15092-2000 Leading EDGE COMPUTING...
  • Page 2 Leading EDGE COMPUTING Revision History Revision Release Date Description of Change(s) 2019/06/04 Initial release...

  • Page 3: Preface

    VPX3000 Preface Copyright © 2019 ADLINK Technology, Inc. This document contains proprietary information protected by copy- right. All rights are reserved. No part of this manual may be repro- duced by any mechanical, electronic, or other means in any form without prior written permission of the manufacturer.
  • Page 4 Leading EDGE COMPUTING California Proposition 65 Warning WARNING: This product can expose you to chemicals including acrylamide, arsenic, benzene, cadmium, Tris(1,3-dichloro-2-propyl)phosphate (TDCPP), 1,4-Diox- ane, formaldehyde, lead, DEHP, styrene, DINP, BBP, PVC, and vinyl materials, which are known to the State of California to cause cancer, and acrylamide, benzene, cadmium, lead, mercury, phthalates, toluene, DEHP, DIDP, DnHP, DBP, BBP, PVC, and vinyl materials, which are known to the State of California to cause...

  • Page 5: Table Of Contents

    VPX3000 Table of Contents Revision History..............ii Preface ..................iii List of Figures ............... vii List of Tables................ix 1 Introduction ................ 1 Overview................1 Features................2 Block Diagrams..............3 Model Number Decoder - Processor Blade ......6 Package Contents ............... 7 2 Specifications ..............
  • Page 6 Leading EDGE COMPUTING VPX-R300 RTM Board Layout........... 26 VPX-R300 RTM Connector Pin Assignments....27 Switches................34 5 Getting Started ..............35 Installing the VPX3000 to the Chassis....... 35 Installing the VPX-R300 to the Chassis ......35 Driver Installation ............... 36 6 Utilities ................

  • Page 7: List Of Figures

    VPX3000 List of Figures Figure 1-1: VPX3000 Functional Block Diagram........ 3 Figure 1-2: VPX-R300 RTM Functional Block Diagram ..... 4 Figure 1-3: tBP-VPX3000 Test Backplane Func Block Diagram ..5 Figure 4-1: VPX3000 Board Layout ..........19 Figure 4-2: VPX3000 Mechanical Drawing ........20 Figure 4-3: VPX-R300 RTM Board Layout........
  • Page 8 Leading EDGE COMPUTING This page intentionally left blank. viii List of Figures...

  • Page 9: List Of Tables

    VPX3000 List of Tables Table 2-1: VPX3000 Blade Specifications ........9 Table 2-2: VPX-R300 RTM Specifications........11 List of Tables...
  • Page 10 Leading EDGE COMPUTING This page intentionally left blank. List of Tables...

  • Page 11: Introduction

    VPX3000 Introduction 1.1 Overview The VPX3000 Series is a 3U VPX processor blade featuring the 3rd Generation Intel® Core i7 processor with Mobile Intel® QM77 Express Chipset. VPX3000 provides DDR3-1066/1333 dual channel ECC memory soldered onboard, one PCI Express x8 XMC.3 site with VITA 46.9 rear IO, and onboard soldered 16GB SLC SATA solid state drive.

  • Page 12: Features

    Leading EDGE COMPUTING 1.2 Features 3U VPX VITA 46, OpenVPX VITA 65, VPX REDI 48 4HP (0.8") rugged conduction cooled 3U VPX blade with conformal coating Intel® 3rd generation Core™ i7-3612QE Processor (4 cores, 6M cache, 2.1 GHz, 35W TDP) Dual channel DDR3-1333/1666 SDRAM with ECC soldered onboard, up to 8GB Intel®...

  • Page 13: Block Diagrams

    VPX3000 1.3 Block Diagrams IMVP7 On Board ECC Max 512MBX8 PCIe2.0x8 or PCIe2.0x4 + PCIe2.0x4 Intel® Core™ i7 On Board ECC Max 512MBX8 PCIe switch quad/dual-core PCIE[8..15] PEX8619 SV-BGA X8d+X12d PCIE[0..7] GPIO 0,1,2* PCIe2.0x8 SATA Gen3 Port 0,1 USB 3.0 Port 0 and USB 2.0 Port 0, 6 RS-422** ALC262 Line-in, Line-out...

  • Page 14: Figure 1-2: Vpx-R300 Rtm Functional Block Diagram

    Leading EDGE COMPUTING VS1(DC12V), 8A/slot VS2(DC3V), 8A/slot VS3(DC5V), 16A/slot DC3V_AUX,1A/Slot DC12V_AUX,1A/Slot DC-12V_AUX,1A/Slot VBAT NVMRO, SYSRESET# SATA 0 ~ SATA 1 SATA3.0 2 port USB 2.0 USB2.0 1 port USB3.0 +USB2.0 USB3.0 1 port DVI signal DVI-I 1 port VGA signal AC signal_LI Audio jack(LI) 1 port...

  • Page 15: Figure 1-3: Tbp-Vpx3000 Test Backplane Func Block Diagram

    VPX3000 Slot#1 Slot#2 Slot#3 VS1(DC12V), 32A/slot VS2(DC3V), 32A/slot VS3(DC5V), 23A/slot DC3V_AUX,1A/Slot DC12V_AUX,1A/Slot DC-12V_AUX,1A/Slot REF_CLK+/- SM[0:1] IPM2, SM[2:3] I2C NVMRO, SYSRESET#, JTAG VBAT Crossover PCIE x4 2x PCIe by 4 PCIE8~PCIE15 2 Slots Crossover 2x GbE 1000BASE-BX 4xSMA 10/100/1000BASE-T RJ-45 jack SATA 0 ~ SATA 1 SATA3.0 2 port...

  • Page 16: Model Number Decoder - Processor Blade

    Leading EDGE COMPUTING Model Number Decoder - Processor Blade VPX3000/3612/M8/S16-R1 (B) (C) (A) CPU Code 3612 = Quad-Core Intel® i7-3612QE processor 3555 = Dual-Core Intel® i7-2655LE processor (B) Memory Size Code M8 = Onboard 8GB DDR3-1333/1600 memory M16 = Onboard 16GB DDR3-1333/1600 memory (C) SATA NAND Flash Size Code S16 = Onboard 16GB S32 = Onboard 32GB...

  • Page 17: Package Contents

    VPX3000 1.5 Package Contents The VPX3000 is packaged with the following components. If any of the items on the contents list are missing or damaged, retain the shipping carton and packing material and contact the dealer for inspection. Please obtain authorization before returning any prod- uct to ADLINK.
  • Page 18 Leading EDGE COMPUTING This page intentionally left blank. Introduction...

  • Page 19: Specifications

    VPX3000 Specifications 2.1 VPX3000 Blade Specifications VITA Standards • VITA 46.0 VPX Base Standard • VITA 46.4 PCI Express on VPX Fabric Connector • VITA 46.6 Gigabit Ethernet Control Plane on VPX • VITA 46.9 XMC/Ethernet Signal Mapping to 3U/6U VPX •...
  • Page 20 Leading EDGE COMPUTING • One PCIe 2.0 x8 conduction cooled XMC.3 site • Jn6 rear XMC I/O connector compliant to VITA 46.9, X8d+X12d Front Panel I/O • Reset button • Power LED Storage • Onboard SATA NAND flash on SATA 3 Gb/s, up to 32GB •...

  • Page 21: Vpx-R300 Rtm Specifications

    VPX3000 2.2 VPX-R300 RTM Specifications VITA Standards • VITA 46.10 Rear Transition Module on VPX Mechanical • 100mm x 80mm Faceplate I/O • DVI-I port • USB 2.0 port • USB 3.0 port • 10/100/1000BASE-T Ethernet port Onboard • Line-in audio jack Interfaces •...

  • Page 22: Power Consumption

    Leading EDGE COMPUTING 2.3 Power Consumption This section provides information on the power consumption of the VPX3000 when using Intel® Core™ i7 processors with Dual Chan- nel 8GB DDR3-1333 soldered memory and soldered onboard 16GB SATA SSD. The VPX3000 is powered by 12V, 5V and 3.3V. Power consumption at 100% CPU usage was measured by running Intel Thermal Analysis Tool (TAT).

  • Page 23: Functional Description

    VPX3000 Functional Description The following sections describe the VPX3000 features and functions. 3.1 Processors The 3rd Generation Intel® Core™ i7 Processor is the next genera- tion of 64-bit, multi-core mobile processors built on 22-nanometer process technology. Based on a new micro-architecture, the pro- cessor is designed for a two-chip platform.
  • Page 24 Leading EDGE COMPUTING Supported Technologies Intel® Virtualization Technology for Directed I/O (Intel® VT-d) Intel® Virtualization Technology (Intel® VT-x) Intel® vPro Technology (Intel® VT) Intel® Trusted Execution Technology (Intel® TXT) Intel® Hyper-Threading Technology Intel® 64 Architecture Intel® Turbo Boost Technology 2.0 AES New Instructions Intel®...

  • Page 25: Chipset

    VPX3000 3.2 Chipset The VPX3000 incorporates the Mobile Intel® QM77 Express Chip- set (Intel® BD82QM77 PCH). Mobile Intel® QM77 Express Chipset PCI Express Base Specification, Revision 2.0 support for up to eight ports with transfer rate up to 5 GT/s Supports dual display ACPI Power Management Logic Support, Revision 4.0a Enhanced DMA controller, interrupt controller, and timer...

  • Page 26: Intel® Turbo Boost Technology

    Leading EDGE COMPUTING 3.3 Intel® Turbo Boost Technology Intel Turbo Boost Technology is a feature that allows the processor to opportunistically and automatically run faster than its rated operating core and/or render clock frequency when there is suffi- cient power headroom, and the product is within specified temper- ature and current limits.

  • Page 27: Xmc Site

    VPX3000 3.5 XMC Site The VPX3000 Series supports one XMC site for rear I/O expan- sion. The XMC site provides a x8 PCI Express 2.0 lane. Jn6 rear XMC I/O connector is compliant to VITA 46.9, X8d+X12d. 3.6 Real Time Clock The Intel®...
  • Page 28 Leading EDGE COMPUTING This page intentionally left blank. Functional Description...

  • Page 29: Board Interfaces

    VPX3000 Board Interfaces 4.1 VPX3000 Board Layout (160) Intel Core Processor 16/32GB SATA NAND Flash Intel QM77 PCH XMC Primary Connector Pericom PEX8619 Bridge XMC Secondary Connector (to rear I/O via P2) Intel 82580EB Ethernet DIP Switch for PCIe to P1 Controller configuration P0-2...

  • Page 30: Vpx3000 Mechanical Drawing

    Leading EDGE COMPUTING 4.2 VPX3000 Mechanical Drawing Power 14.34 18.94 Figure 4-2: VPX3000 Mechanical Drawing Power LED Color Condition Indication System is off Green Power System is on Board Interfaces...

  • Page 31: Vpx3000 Connector Pin Assignments

    VPX3000 4.3 VPX3000 Connector Pin Assignments XMC Connectors XMC Primary Connector (JN1) RXP0 RXN0 +3.3V RXP1 RXN1 VPWR TRST# MRSTI# RXP2 RXN2 +3.3V RXP3 RXN3 VPWR MRSTO# RXP4 RXN4 +3.3V RXP5 RXN5 VPWR +12V RXP6 RXN6 +3.3V RXP7 RXN7 VPWR -12V_AUX TXP0 TXN0...
  • Page 32 Leading EDGE COMPUTING Secondary Connector (JN2, to rear I/O via P2) JN2_A1 JN2_B1 JN2_D1 JN2_E1 JN2_A3 JN2_B3 JN2_D3 JN2_E3 JN2_A5 JN2_B5 JN2_D5 JN2_D6 JN2_A7 JN2_B7 JN2_D7 JN2_D7 JN2_A9 JN2_B9 JN2_D9 JN2_D9 JN2_A11 JN2_B11 JN2_D11 JN2_D11 JN2_A13 JN2_B13 JN2_D13 JN2_D13 JN2_A15 JN2_B15 JN2_D15 JN2_D16...
  • Page 33 VPX3000 VPX Connectors P0 Connector +12V +12V +12V +3.3V +3.3V +3.3V +12V +12V +12V +3.3V +3.3V +3.3V I2C_CLK I2C_DAT -12V_AUX GND SYSRESET +3.3V_AUX GND IPMB_CLK IPMB_DATA +12V_AUX TRST REF_CLK- REF_CLK+ Board Interfaces...
  • Page 34 Leading EDGE COMPUTING P1 Connector L0-TX- L0-TX+ L0-RX- L0-RX+ L1-TX- L1-TX+ L1-RX- L1-RX+ VBAT L2-TX- L2-TX+ L2-RX- L2-RX+ L3-TX- L3-TX+ L3-RX- L3-RX+ SYSCON# L4-TX- L4-TX+ L4-RX- L4-RX+ L5-TX- L5-TX+ L5-RX- L5-RX+ L6-TX- L6-TX+ L6-RX- L6-RX+ L7-TX- L7-TX+ L7-RX- L7-RX+ GPIO1 SATA0-TX- SATA0-TX+ SATA0-RX-...
  • Page 35 VPX3000 P2 Connector GPIO3 DVI_TX1- DVI_TX1+ DVI_TX0- DVI_TX0+ DVI_TXC- DVI_TXC+ DVI_TX2- DVI_TX2+ VGA_SDA DVI_HPD DVI_SCL DVI_SDA COM_SIN COM_SOUT COM_CTS# COM_RTS# VGA_SCL RS422_TX- RS422_TX+ RS422_RX- RS422_RX+ Linein-L Linein-R AGND Lineout-L Lineout-R AGND VGA-HS JN2-A1 JN2-B1 JN2-D1 JN2-E1 JN2-A3 JN2-B3 JN2-D3 JN2-E3 VGA-VS JN2-A11 JN2-B11...

  • Page 36: Vpx-R300 Rtm Board Layout

    Leading EDGE COMPUTING 4.4 VPX-R300 RTM Board Layout (83.5) (20) CN11 CN12 CN10 CN15 CN13 VPX Connector RP0 DVI-I port VPX Connector RP1 Line-in Port CN10 VPX Connector RP2 Line-out Port AP1/2 CN11 Alignment keys RS-232 Port CN4/5 CN12 7-pin SATA connectors RS-422 Port CN13 USB 3.0 port...

  • Page 37: Vpx-R300 Rtm Connector Pin Assignments

    VPX3000 4.5 VPX-R300 RTM Connector Pin Assignments Rear I/O Connectors Gigabit Ethernet Connectors (CN11, RJ-45) Pin # GbE Signal MX0+ MX0- MX1+ MX2+ MX2- MX1- MX3+ MX3- USB 2.0 Connector (CN16) Pin # Signal Name USB- USB+ Board Interfaces...
  • Page 38 Leading EDGE COMPUTING USB 3.0 Connector (CN15) Pin # Signal Name Data- Data+ RX_N RX_P TX_N TX_P DVI-I Connector (CNY1-R) Pin # Signal Pin # Signal DDCCLK_5V DDCDAT_5V VSYNC GREEN BLUE HSYNC Board Interfaces...
  • Page 39 VPX3000 Onboard Connectors SATA Connector (CN12/13) Pin # Signal RS-232 (CN31, RJ-45) Pin # RS-232 N.C. S3_RTS-L(RTS) N.C. S3_SOUT(TXD) S3_SIN(RXD) GND. S3_CTS-L(CTS) N.C. RS-422 (CN32, RJ-45) Pin # RS-232 S3_TXD422- N.C. N.C. S3_RXD422+ S3_TXD422+ N.C. S3_RXD422- Board Interfaces...
  • Page 40 Leading EDGE COMPUTING XMC Connector (CN13) S3_JN6-E1 S3_JN6-D1 +3.3V S3_JN6-B1 S3_JN6-A1 TRST# S3_JN6-E3 S3_JN6-D3 +3.3V S3_JN6-B3 S3_JN6-A3 S3_JN6-E5 S3_JN6-D5 +3.3V S3_JN6-B5 S3_JN6-A5 +12V S3_JN6-E7 S3_JN6-D7 +3.3V S3_JN6-B7 S3_JN6-A7 -12V S3_JN6-E9 S3_JN6-D9 +3.3V S3_JN6-B9 S3_JN6-A9 S3_JN6-E11 S3_JN6-D11 S3_JN6-B11 S3_JN6-A11 S3_JN6-E13 S3_JN6-D13 3.3V_AUX S3_JN6-B13 S3_JN6-A13 XMC_DAT S3_JN6-E15 S3_JN6-D15...
  • Page 41 VPX3000 RTM VPX Connectors RP0 Connector No Wafer +12V +12V +12V No Pad +3.3V +3.3V No Pad -12V_AUX SYSRESET NVMRO GAP* GA4* 3.3V_AUX GA3* GA2* +12V_AUX GA1* GA0* TRST* REF_CLK- REF_CLK+ RES_BUS- RES_BUS+ P1_VBAT SYSCON# Board Interfaces...
  • Page 42 Leading EDGE COMPUTING RP1 Connector GPIO0 GPIO1 GPIO2 MDIN1 MDIP1 MDIN0 MDIP0 MDIN3 MDIP3 MDIN2 MDIP2 Maskreset GPIO3 DVI_TX1- DVI_TX1+ DVI_TX0- DVI_TX0+ DVI_TXC- DVI_TXC+ DVI_TX2- DVI_TX2+ VGA_SDA DVI_HPD DVI_SCL DVI_SDA SOUT CTS# RTS# VGA_SCL RS422_TX- RS422_TX+ RS422_RX- RS422_RX+ Linein-L Linein-R AGND Lineout-L Lineout-R...
  • Page 43 VPX3000 RP2 Connector VGA-VS J16-A11 J16-B11 J16-D11 J16-E11 J16-A13 J16-B13 J16-D13 J16-E13 VGA-R J16-A5 J16-B5 J16-D5 J16-E5 J16-A7 J16-B7 J16-D7 J16-E7 VGA-B J16-A9 J16-B9 J16-D9 J16-E9 J16-A15 J16-B15 J16-D15 J16-E15 VGA-G J16-A17 J16-B17 J16-D17 J16-E17 J16-A19 J16-B19 J16-D19 J16-E19 Board Interfaces...

  • Page 44: Switches

    Leading EDGE COMPUTING 4.6 Switches PCI Express to P1 Configuration Switch (SW) This switch sets the PCI Express Lane configuration at the P1 connector. Mode 8x PCIe x1 1x PCIe x4 + 4x PCIe x1 2x PCIe x4 (default) PCIe x8 Board Interfaces...

  • Page 45: Getting Started

    RTMs. Refer to previous sections for peripheral connectivity of all I/O ports on the RTM. When installing the VPX3000 Series and related RTMs, make sure the RTM is the correct matching model.

  • Page 46: Driver Installation

    Leading EDGE COMPUTING 5.3 Driver Installation The VPX3000 drivers are available from the ADLINK website (www.adlinktech.com). ADLINK provides validated drivers for Windows 7. Follow the steps below to install the drivers for Windows 7 64-bit. 1. Install the Windows operating system before installing any driver.

  • Page 47: Utilities

    VPX3000 Utilities 6.1 Watchdog Timer This section describes the operation of the VPX3000’s watchdog timer (WDT). The primary function of the WDT is to monitor the VPX3000's operation and to reset the system if a software applica- tion fails to function as programmed. The following WDT functions may be controlled using a software application: enabling and disabling set and get current configuration...
  • Page 48 Leading EDGE COMPUTING Reset Watchdog Timer This command is used to reload the WDT. Action Byte Value Description Request NetFn/LUN Defined command Response 0 Complete Code 00h means OK Set Watchdog Timer: This command is used to set the parameters of the WDT. Action Byte Value Description...
  • Page 49 VPX3000 Action Byte Value Description 1h~ffh ( ‘1h’ based.) Pre-timeout interval in Request seconds. [7] - reserved Timer Use Expiration flags [6] - reserved clear [5] - OEM [4] - SMS/OS [3] - OS Load [2] - BIOS/POST [1] - BIOS FRB2 [0] - reserved 0b = leave alone 1b = clear timer use expiration bit...
  • Page 50 Leading EDGE COMPUTING Action Byte Value Description Response 2 [7] - reserved Timer Actions [6:4] - pre-timeout interrupt 000b = none 001b = SMI (optional) 010b = NMI / Diagnostic Interrupt (optional) 011b = Messaging Interrupt 100b,111b = reserved [3] - reserved [2:0] - timeout action 000b = no action 001b = Hard Reset...
  • Page 51 VPX3000 Example of WDT Process The sample program written in C shown below offers an interac- tive way to test the Watchdog Timer under DOS. Configure WDT Parameters 0x40 : Don't stop timer. 0x01 : Hard Reset. 0x01 : Pre-timeout interval in 1 second. 0x08 : Timer Use Expiration flags clear by OS Load.
  • Page 52 Leading EDGE COMPUTING This page intentionally left blank. Utilities...

  • Page 53: Bios Setup

    VPX3000 BIOS Setup The following chapter describes basic navigation for the AMIBIOS®8 BIOS setup utility. 7.1 Starting the BIOS To enter the setup screen, follow these steps: 1. Power on the motherboard 2. Press the < Delete > key on your keyboard when you see the following text prompt: <...
  • Page 54 Leading EDGE COMPUTING Setup Menu The main BIOS setup menu is the first screen that you can navi- gate. Each main BIOS setup menu option is described in this user’s guide. The Main BIOS setup menu screen has two main frames. The left frame displays all the options that can be configured.
  • Page 55 VPX3000 Navigation The BIOS setup/utility uses a key-based navigation system called hot keys. Most of the BIOS setup utility hot keys can be used at any time during the setup navigation process. These keys include < F1 >, < F4 >, < Enter >, < ESC >, < Arrow > keys, and so on. There is a hot key legend located in the right frame on most setup screens.
  • Page 56 Leading EDGE COMPUTING Hotkey Descriptions Enter The < Enter > key allows you to display or change the setup option listed for a particular setup item. The < Enter > key can also allow you to display the setup sub-screens. The <...
  • Page 57 VPX3000 The < F4 > key allows you to save any changes you have made and exit Setup. Press the < F10 > key to save your changes. The following screen will appear: Press the < Enter > key to save the configuration and exit. You can also use the <...

  • Page 58: Main Setup

    Leading EDGE COMPUTING 7.2 Main Setup When you first enter the Setup Utility, you will enter the Main setup screen. You can always return to the Main setup screen by select- ing the Main tab. The Main BIOS Setup screen is shown below. System &...

  • Page 59: Advanced Bios Setup

    VPX3000 7.3 Advanced BIOS Setup Select the Advanced tab from the setup screen to enter the Advanced BIOS Setup screen. You can select any of the items in the left frame of the screen, such as SuperIO Configuration, to go to the sub menu for that item.
  • Page 60 Leading EDGE COMPUTING 7.3.1 CPU Configuration You can use this screen to select options for the CPU Configura- tion Settings. Use the up and down < Arrow > keys to select an item. Use the < + > and < - > keys to change the value of the selected option.
  • Page 61 VPX3000 Limit CPUID Maximum When the computer is booted up, the operating system executes the CPUID instruction to identify the processor and its capabilities. Before it can do so, it must first query the processor to find out the highest input value CPUID recognized. This determines the kind of basic information CPUID can provide the operating system.
  • Page 62 Leading EDGE COMPUTING 7.3.2 SATA Configuration You can use this screen to select options for the SATA Configura- tion Settings. An example of the SATA Configuration screen is shown below. SATA Controller(s) Enable or disable SATA device. SATA Mode Selection The SATA can be configured as a legacy IDE, RAID and AHCI mode.
  • Page 63 VPX3000 7.3.3 PCH-FW Configuration You can use this screen to get the Intel ME FW version. BIOS Setup...
  • Page 64 Leading EDGE COMPUTING 7.3.4 USB Configuration You can use this screen to select options for the USB Configura- tion. Use the up and down < Arrow > keys to select an item. The screen is shown below. Legacy USB Support Enables legacy USB support.
  • Page 65 VPX3000 XHCI Hand-off This is a workaround for OSes without XHCI hand-off support. The XHCI ownership change should be claimed by the XHCI driver. Set this value to Enabled/Disabled. EHCI Hand-off This is a workaround for OSes without EHCI hand-off support. The EHCI ownership change should be claimed by the EHCI driver.
  • Page 66 Leading EDGE COMPUTING 7.3.5 Hardware Monitor This option displays the current status of all of the monitored hard- ware devices/components such as voltages and temperatures. BIOS Setup...
  • Page 67 VPX3000 7.3.6 Super IO Configuration You can use this screen to select options for the Super IO settings. Use the up and down < Arrow > keys to select an item. Use the < + > and < - > keys to change the value of the selected option. The settings are described on the following pages.
  • Page 68 Leading EDGE COMPUTING 7.3.7 Serial Port Console Redirection You can use this screen to select options for the serial port con- sole redirection settings. Use the up and down < Arrow > keys to select an item. Use the < + > and < - > keys to change the value of the selected option.
  • Page 69 VPX3000 Terminal Type VT100+ is the preferred terminal type for out-of-band manage- ment. Configuration options: VT100, VT100+, VT-UTF8, ANSI. Bits per second Select the bits per second you want the serial port to use for console redirection. The options are 115200, 57600, 38400, 19200, 9600.
  • Page 70 Leading EDGE COMPUTING Flow Control Set this option to select Flow Control for console redirection. The settings for this value are None, Hardware RTS/CTS. VT-UTF8 Combo Key Support Enables VT-UTF8 combination key support for ANSI/VT100 terminals.Set this value to Enabled/Disabled. Recorder Mode When this mode is enabled, only text will be sent.
  • Page 71 VPX3000 Out-of-Band Mgmt Port Microsoft Windows emergency management services (EMS) allows for remote management of a Windows Server OS through a serial port. Set this value to COM0, COM1, COM2 (Disabled), COM3 (Disabled) Terminal Type VT-UTF8 is the preferred terminal type for out-of-band man- agement.
  • Page 72 Leading EDGE COMPUTING Parity This is a display-only function providing information about the parity for Out-of-Band Management. Stop Bits This is a display-only function providing information about the number of stop bits for Out-of-Band Management. 7.3.8 CPU PPM Configuration Processor Power Module (PPM) configuration parameters. EIST Enable or disable Intel SpeedStep.
  • Page 73 VPX3000 CPU C3 Report Enable or disable CPU C3 (ACPI C2) report to OS. Set this value to Enabled/Disabled. CPU C6 Report Enable or disable CPU C6 (ACPI C3) report to OS. Set this value to Enabled/Disabled. CPU C7 Report Enable or disable CPU C7 (ACPI C3) report to OS.

  • Page 74: Chipset Setup

    Leading EDGE COMPUTING 7.4 Chipset Setup Select the Chipset tab from the setup screen to enter the Chipset BIOS Setup screen. You can select any of Chipset BIOS Setup options by highlighting it using the < Arrow > keys. The Chipset BIOS Setup screen is shown below.
  • Page 75 VPX3000 7.4.1 PCH-IO Configuration SB CRID Enable or disable SB Compatible Revision ID. High Precision Timer Enable or disable the High Precision Event Timer. BIOS Setup...
  • Page 76 Leading EDGE COMPUTING 7.4.2 System Agent (SA) Configuration VT-d The Intel Virtualization Technology for Directed I/O. Set this value to Enabled/Disabled. Primary Display Select which graphics device should be the primary display. Set this value to Auto, IGFX, PCI. PLX_8619 PCIe Port1/3 Support Select which of IGFX/ PCI graphics device should be primary display.
  • Page 77 VPX3000 Memory Configuration Memory Remap Enable or disable memory remap above 4G. Set this value to Enabled/Disabled. BIOS Setup...

  • Page 78: Boot Settings

    Leading EDGE COMPUTING 7.5 Boot Settings Select the Boot tab from the setup screen to enter the Boot BIOS Setup screen. You can select any of the items in the left frame of the screen, such as Boot Device Priority, to go to the sub menu for that item.
  • Page 79 VPX3000 Boot Option Priorities Set Boot Option #1 ~2 boot priority. Hard Drive BBS Priorities Specifies the boot device priority sequence from available hard drives. 7.5.1 CSM Parameter OpROM execution, boot option filter, etc. Launch CSM This option controls if CSM will be launched. Set this value to Always, Never.
  • Page 80 Leading EDGE COMPUTING Launch Video OpROM policy This option controls the execution of UEFI and Legacy Video OpROM. Set this value to Do not launch, UEFI only, Legacy only. Other PCI device ROM priority For PCI devices other than Network, Mass storage or Video defines which OpROM to launch.

  • Page 81: Security Setup

    VPX3000 7.6 Security Setup Administrator, User Password If only the administrator's password is set, then this only limits access to setup and is only asked for when entering setup. If only the user's password is set, then this is a power on password and must be entered to boot or enter setup.

  • Page 82: Save & Exit Menu

    Leading EDGE COMPUTING 7.7 Save & Exit Menu Select the Save & Exit tab from the setup screen to enter the Save & Exit BIOS Setup screen. You can display an Exit BIOS Setup option by highlighting it using the < Arrow > keys. The Save & Exit BIOS Setup screen is shown below.
  • Page 83 VPX3000 Discard Changes and Reset Reset system setup without saving any changes. Save Changes Save changes done so far to any of the setup options. Discard Changes Discard changes done so far to any of the setup options. Restore Changes Restore/Load Defaults values for all the setup options.
  • Page 84 Leading EDGE COMPUTING Save as User Defaults Save the changes done so far as user defaults.. Restore User Defaults Save changes done so far to any of the setup options. Launch EFI Shell from Filesystem Device Attempts to Launch EFI Shell application (Shellx64.efi) from one of the available filesystem devices.

  • Page 85: Ipmi User Guide

    VPX3000 IPMI User Guide 8.1 Introduction This chapter is written for those who already have a basic under- standing of the newest implementation of the baseboard manage- ment controller (BMC) of the Intelligent Platform Management Interface (IPMI) specification rev. 2.0. 8.2 Summary of Commands Supported by VPX3000 The table below lists all the commands supported by the IPMC.
  • Page 86 Leading EDGE COMPUTING IPMI v2.0 Command Name Specification NetFn Section Get SDR Repository 27.9 Storage (0Ah) Info Get SDR Repository 27.10 Storage (0Ah) Allocation Info Reserve SDR 27.11 Storage (0Ah) Repository Get SDR 27.12 Storage (0Ah) SEL Device Commands Get SEL Info 25.2 Storage (0Ah) Get SEL Allocation Info...
  • Page 87 VPX3000 VITA 64.11 Command Name Specification NetFn Section VITA: section Get FRU LED State VITA 10.1.3.29 VITA: section Set IPMB State VITA 10.1.3.7 Set FRU State Policy VITA: section VITA Bits 10.1.3.9 Get FRU State Policy VITA: section VITA Bits 10.1.3.8 VITA: section Set FRU Activation...

  • Page 88: Communications With Ipmc

    Leading EDGE COMPUTING 8.3 Communications with IPMC The VPX3000 communicates with the Chassis Manager through its primary IPMB (System IPMB) and responds to all mandatory commands for respective IPM Controllers (as defined in the VITA 46.11 Specification), as well as some optional ones. 8.4 IPMI Sensors List Sensors include the mandatory sensors defined by VITA 46.11.
  • Page 89 VPX3000 Sensor Reading Value of Sensor Normal Sensor name IPMI Get Sensor Reading Number Reading Command 1.8V NIC 1.8V Threshold Value 1.0V NIC 1.0V Threshold Value 1.5V AUX 1.5V Threshold Value 0.6V DRAMD 0.6V Threshold Value Temp 1 Threshold Value Entity ID: 03h Sensor Type: 23h Event / Reading:...

  • Page 90: System Event Log (Sel)

    Leading EDGE COMPUTING 8.5 System Event Log (SEL) The BMC provides a centralized, non-volatile System Event Log, or SEL. Having the SEL and logging functions managed by the BMC helps ensure that 'post-mortem' logging information is avail- able should a failure occur that disables the system processor(s). The communication interface is used by I2C.

  • Page 91: Fru Information

    VPX3000 8.6 FRU Information Board Info Mfg Date/Time = xx/xx/xxxx Manufacturer = ADLINK Product Name = VPX-3XXX Serial Number = PPSxxxxxxx Part Number = xxxxxxxxxxxx Product Info Manufacturer = ADLINK Product Name = VPX-3XXX Part/Model Number = xxxxxxxxxxxxx Product Version = Rev A1 IPMI User Guide...

  • Page 92: Relevant Documents

    Leading EDGE COMPUTING 8.7 Relevant Documents ANSI/VITA 46.0-2007 American National Standard for VPX Baseline Standard. (2007). ANSI/VITA 46.11-2007 System Management on VPX Draft Revision 0.11. (Nov. 18, 2013). ANSI/VITA 46.11-2015 System Management on VPX Draft Revision r022. (Nov. 18, 2013). Cortex-M3 Devices Generic User Guide.

  • Page 93: Important Safety Instructions

    VPX3000 Important Safety Instructions For user safety, please read and follow all instructions, WARNINGS, CAUTIONS, and NOTES marked in this manual and on the associated equipment before handling/operating the equipment. Read these safety instructions carefully. Keep this user’s manual for future reference. Read the specifications section of this manual for detailed information on the operating environment of this equipment.
  • Page 94 Leading EDGE COMPUTING Never attempt to fix the equipment. Equipment should only be serviced by qualified personnel. A Lithium-type battery may be provided for uninterrupted, backup or emergency power. Risk of explosion if battery is replaced with one of an incorrect type.

  • Page 95: Getting Service

    San Jose, CA 95138, USA Tel: +1-408-360-0200 Toll Free: +1-800-966-5200 (USA only) Fax: +1-408-360-0222 Email: info@adlinktech.com ADLINK Technology (China) Co., Ltd. 300 Fang Chun Rd., Zhangjiang Hi-Tech Park Pudong New Area, Shanghai, 201203 China Tel: +86-21-5132-8988 Fax: +86-21-5132-3588 Email: market@adlinktech.com...

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