cPCI-6525 6U CompactPCI® 3rd Generation Intel® Core™ i7 Processor Blade User’s Manual Manual Rev.: 0.10 preliminary Revision Date: April 17, 2015 Part No: 50-15101-1010 Advance Technologies; Automate the World.
Revision History Revision Release Date 0.
cPCI-6525 Preface Copyright 2015 ADLINK Technology Inc. This document contains proprietary information protected by copyright. All rights are reserved. No part of this manual may be reproduced by any mechanical, electronic, or other means in any form without prior written permission of the manufacturer.
Conventions Take note of the following conventions used throughout this manual to make sure that users perform certain tasks and instructions properly. Additional information, aids, and tips that help users perform tasks. NOTE: CAUTION: WARNING: iv Information to prevent minor physical injury, component damage, data loss, and/or program corruption when trying to complete a task.
cPCI-6525 Table of Contents Revision History...................................................................... ii Preface .................................................................................... iii List of Figures ....................................................................... vii List of Tables.......................................................................... ix 1 Introduction ........................................................................ 1 1.1 Overview.........
4.3 cPCI-6525 Front Panel ...................................................... 21 4.4 Connector Pin Assignments............................................... 22 4.5 Buttons, Switches and Jumpers......................................... 33 5 Checkpoints & Beep Codes ............................................. 37 5.1 Checkpoint Ranges............................................................ 37 5.2 Standard Checkpoints........................................................ 37 5.
cPCI-6525 List of Figures Figure 1-1: Figure 4-1: Figure 4-2: Figure 4-3: cPCI-6525 Functional Block Diagram.............................. 4 cPCI-6525 Board Layout - Front.................................... 19 cPCI-6525 Board Layout - Back .................................... 20 cPCI-6525 Front Panel ..................................................
This page intentionally left blank.
cPCI-6525 List of Tables Table 2-1: cPCI-6525 Blade Specifications ...................................... 7 Table 2-2: cPCI-6525 I/O Connectivity ............................................. 9 Table 4-1: DVI-I Connector Pin Definition.......................................
This page intentionally left blank.
cPCI-6525 1 Introduction 1.1 Overview The cPCI-6525 is a 6U CompactPCI® processor blade in single-slot (4HP) width form factor featuring a single 22nm FC-BGA 3rd generation Intel® Core™ i7 Processor with quad-cores mated with the Mobile Intel® QM77 Express Chipset. The cPCI-6525 supports dual channel DDR3-1333/1600 ECC SDRAM with one channel in a SO-CDIMM socket and one channel of soldered onboard memory (total memory capacity up to 16GB).
The cPCI-6525 supports operation in both a system slot and in a peripheral slot as a standalone blade. The cPCI-6525 is compliant with the PICMG 2.9 specification and supports system management functions based on the Intelligent Platform Management Interface (IPMI) as well as hardware monitoring of physical characteristics such as CPU and system temperature, DC voltages and power status.
cPCI-6525 1.2 Features X 6U CompactPCI® processor blade in 4HP width form factor X Quad-core 3rd Generation Intel® Core™ i7-3615QE 2.
DVI-I GbE2 USB1 USB2 GbE1 COM1 Front Panel USB3 1.3 Block Diagram J5 COM1 ECC SO-CDIMM, max. 8GB Soldered ECC, max. 8GB Intel 82574IT USB 3.0 USB 3.0 J5 BIOS DVI USB 3.0 Intel 82574IT PCIe x1 SPI PCIe x1 DDR3 1333/1600 DMI Intel®QM77 PCH rd 3 Gen Intel® Core i7 FDI LPC SIO PCIe x16 or 2x PCIe x8 PCIe x4 TPM COM6 6x USB 2.0 3x SATA HDA RTC DVI 2/3 GPIO PCIe Switch PCIe x1 SATA0 2.
cPCI-6525 1.
1.5 Package Contents The cPCI-6525 is packaged with the following components. If any of the items on the contents list are missing or damaged, retain the shipping carton and packing material and contact the dealer for inspection. Please obtain authorization before returning any product to ADLINK. The packing contents of the cPCI-6525 are non-standard configurations and may vary depending on customer requests.
cPCI-6525 2 Specifications 2.1 cPCI-6525 Blade Specifications CompactPCI® Standards • • • • PICMG® 2.0 CompactPCI® Rev. 3.0 PICMG® 2.1 Hot Swap Specification Rev.2.0 PICMG® 2.9 System Management Bus Rev. 1.0 PCIMG® 2.16 Packet Switching Backplane Rev.1.0 Mechanical • • • • • Standard 6U CompactPCI® Board size: 233.35mm x 160mm Single-slot width (4HP, 20.
Serial Ports Four16C550 serial ports • One DB-9 RS-232/422/485 serial port on front panel • Three serial ports routed to rear I/O through J3 (1x RS232/422/485, 2x TX/RX only) PCI Express • PCIe x16 Gen2 to J4 • PCIe x4 Gen2 to J5 USB 2.0 • Six USB 2.0 ports routed to J3 USB 3.0 • Three USB 3.
cPCI-6525 Notes: 1. The storage device limits the operational vibration. When application requires higher specification for anti-vibration, it is recommended to use a flash storage device. 2. ADLINK-certified thermal design. The thermal performance is dependent on the chassis cooling design. Sufficient forced airflow is required (see 2.4 "Thermal Requirements"). Temperature limit of optional mass storage devices may affect the thermal specification. 2.
2.3 Power Requirements In order to guarantee a stable functionality of the system, it is recommended to provide more power than the system requires. An industrial power supply unit should be able to provide at least twice as much power as the entire system requires of each voltage. An ATX power supply unit should be able to provide at least three times as much power as the entire system requires of each voltage. The tolerance of the voltage lines described in the CompactPCI specification (PICMG 2.0 R3.
cPCI-6525 Power Consumption This section provides information on the power consumption of the cPCI-6525 when using Intel® Core™ i7 processors with 4GB DDR31333 soldered memory and onboard ADLINK ASD25 64GB SATA SSD. Power consumption at 100% CPU usage was measured by running Intel Thermal Analysis Tool 4.3. Quad-Core Intel® Core™ i7-3615QE, 2.3GHz, TDP 45W OS / Mode 5V Current (A) 3.3V Current (A) 12V Current (A) Total Power (W) DOS / idle 4.48 2.80 0.19 33.9 Win7 / idle 3.34 2.62 0.20 27.
This page intentionally left blank.
cPCI-6525 3 Functional Description The following sections describe the cPCI-6525 features and functions. 3.1 Processors The 3rd Generation Intel® Core™ i7 Processor is the next generation of 64-bit, multi-core mobile processors built on 22-nanometer process technology. Based on a new micro-architecture, the processor is designed for a two-chip platform. The two-chip platform consists of a processor and Platform Controller Hub (PCH).
Supported Technologies X Intel® Virtualization Technology for Directed I/O (Intel® VT-d) X Intel® Virtualization Technology (Intel® VT-x) X Intel® vPro Technology (Intel® VT) X Intel® Trusted Execution Technology (Intel® TXT) X Intel® Hyper-Threading Technology X Intel® 64 Architecture X Intel® Turbo Boost Technology 2.
cPCI-6525 3.2 Chipset The cPCI-6525 incorporates the Intel® QM77 Platform Controller Hub (PCH). Intel® QM77 Platform Controller Hub X PCI Express Base Specification, Revision 2.0 support for up to eight ports with transfer rate up to 5 GT/s X Supports dual display X ACPI Power Management Logic Support, Revision 4.0a X Enhanced DMA controller, interrupt controller, and timer functions X Integrated Serial ATA host controllers with independent DMA operation on up to six ports and SATA 6.
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 sufficient power headroom, and the product is within specified temperature and current limits. The Intel Turbo Boost Technology feature is designed to increase performance of both multi-threaded and single-threaded workloads.
cPCI-6525 3.6 TPM The cPCI-6525 is equipped with the Infineon ATMEL AT97SC3204 Trusted Platform Module (TPM), a security controller with cryptographic functionality that provides users a secure environment in e-commerce transactions and Internet communications. The key features provided by the TPM are: X Hardware hash accelerator for SHA-1 algorithm X Advanced Crypto Engine (ACE) for asymmetric key operations (up to 2048-bit key length) to make hardware protection.
This page intentionally left blank.
cPCI-6525 4 Board Interfaces 4.1 Board Layout - Front J5 CN13 BT2 CN14 CN9 SW1 CN6 J4 CN10 CN15 SW_IPMCDEG1 CN1 SW12 LEDs SW_COMDEG1 CN7 CN22 SW_MOD1 J3 Onboard Memory CN23 CN21 J2 SW9 J1 SW10 SW_COMPW1 BT2 Battery J1-J5 CompactPCI connectors CN1 SODIMM Socket SW1 BIOS default button CN21 DVI-I connector SW9 PCIe x16/x8 jumper CN7 RS-232/422/485 SW10 System reset CN6/10/15 USB 3.
4.
cPCI-6525 4.3 cPCI-6525 Front Panel GbE 1/2 COM USB 3.0 Ó Ó Ò Ð Ì Ò Ð Ì Reset Button DVI-I Status LEDs User LEDs Figure 4-3: cPCI-6525 Front Panel Status LEDs LED Color Power Green Condition OFF System is off ON System is on Blink Fail to power on (payload power failure) OFF Handles closed, System is on Fast Blink Preparing to shut down system (LED: 0.1s on, 0.9s off.) ON Handles open and blade ready to be removed Slow Blink Voltages out of tolerance: 3.3V, 5V, 12V, 1.
4.4 Connector Pin Assignments See “Board Layout - Front” on page 19 for connector locations.
cPCI-6525 COM1 (CN7, RJ-45) Pin # RS-232 RS-422 RS-485 1 DCD# TX- Data- 2 RTS# — — 3 DSR# — — 4 TXD RX+ — 5 RXD TX+ Data+ 6 GND — — 7 CTS# — — 8 DTR#L RX- — 8 1 COM1 RJ-45 to DB-9 Cable Pin # RS-232 RS-422 RS-485 1 DCD# TX- Data- 2 RXD TX+ Data+ 3 TXD RX+ — 4 DTR#L RX- — 5 GND — — 6 DSR# — — 7 RTS# — — 8 CTS# — — 9 — — — Board Interfaces 6 1 5 23
USB 3.
cPCI-6525 Onboard Connectors SATA Connector on DB-LSATA Pin # Signal S1 GND S2 TX+ S3 TX- S4 GND S5 RX- S6 RX+ S7 GND P1 NC P2 NC P3 NC P4 GND P5 GND P6 GND P7 5V P8 5V P9 5V P10 GND P11 Reserved P12 GND P13~P15 12V Board Interfaces S1 Signal S7 P1 Power P15 25
CFast Socket (on DB-CFAST) Pin # 26 Signal Name Ground S1 SATA_TX-P S2 SATA_TX-N S3 Ground S4 SATA_RX-N S5 SATA_RX-P S6 Ground S7 CFast_CDI P1 Ground P2 NC P3 NC P4 NC P5 NC P6 Ground P7 CFast_LED1 P8 CFast_LED2 P9 NC P10 NC P11 NC P12 P3V3 P13 P3V3 P14 Ground P15 Ground P16 CFast_CDO P17 1 24 P1 S1 Board Interfaces
cPCI-6525 DB-LSATA/DB-CFAST Connector (CN9, CN22) Signal Name Pin # Pin # Signal Name GND 1 2 GND GND 3 4 GND GND 5 6 GND GND 7 8 GND GND 9 10 GND GND 11 12 GND GND 13 14 GND GND 15 16 GND GND 17 18 GND GND 19 20 GND GND 21 22 GND GND 23 24 GND GND 25 26 GND GND 27 28 GND GND 29 30 GND P3V3 31 32 P5V P3V3 33 34 P5V P3V3 35 36 P5V P3V3 37 38 P5V NC 39 40 P12V CFAST_CDI 41 42 P12V CFAST_CDO 43 44 P12V GND 45 46 GND
CompactPCI J1 Connector Pin Assignment Pin Z A B C D E F 25 GND +5V REQ64# ENUM# +3.
cPCI-6525 CompactPCI J2 Connector Pin Assignment Pin Z A B C D E F 22 GND GA4 GA3 GA2 GA1 GA0 GND 21 GND CLK6 GND NC NC NC GND 20 GND CLK5 GND NC GND NC GND 19 GND GND GND IPMB_DAT IPMB_CLK NC GND 18 GND NC NC NC GND NC GND 17 GND NC GND RSTBTN# REQ6# GNT6# GND 16 GND NC NC DEG# GND NC GND 15 GND NC GND FAL# REQ5# GNT5# GND 14 GND AD35 AD34 AD33 GND AD32 GND 13 GND AD38 GND V(I/O) AD37 AD36 GND 12 GND AD42 AD41 AD40
CompactPCI J3 Pin Assignment Pin Z A B C D E F P5V P5V P12V P5V P5V GND 18 GND LAN4_TXD1+ LAN4_TXD0- GND LAN4_TXD2+ LAN4_TXD2- GND 17 GND LAN4_TXD1+ LAN4_TXD1- GND LAN4_TXD3+ LAN4_TXD3- GND 16 GND LAN3_TXD0+ LAN3_TXD0- GND LAN3_TXD2+ LAN3_TXD2- GND 15 GND LAN3_TXD1+ LAN3_TXD1- GND LAN3_TXD3+ LAN3_TXD3- GND 14 GND USB-OC45# USB-OC67# USB-OC67# USB-OC89# USB-OC89# GND 19 GND 13 GND USB8-P USB8-N GND USB9-P USB9-N GND 12 GND USB6-P USB6-N GND USB7-P USB7
cPCI-6525 CompactPCI J4 Connector Pin Assignment Pin Z A B C D E F 25 GND NC PCIE_TXP15 GND PLTRST _PCIEX16 24 GND GND PCIE_TXN15 PCIE_R XP13 NC GND GND 23 GND PCIE_TXP13 GND PCIE_R XN13 GND PCIE_RXP15 GND 22 GND PCIE_TXN13 PCIE_TXP14 GND PCIE_RXP14 PCIE_RXN15 GND PCIE_RXN14 GND GND PCIE_TX N12 GND PCIE_RXP12 GND PCIE_TX PCIE_TXN14 P12 PCIE_WAKE-L GND 21 GND GND 20 GND PCIE_TXP10 GND 19 GND PCIE_TXN10 PCIE_TXP11 GND PCIE_RXP10 PCIE_RXN12 GND PCI
CompactPCI J5 Pin Assignment Pin A B C D E F 22 GND Z LAN2_TXDP0 LAN2_TXDN0 GND LAN2_TXDP2 LAN2_TXDN2 GND 21 GND LAN2_TXDP1 LAN2_TXDN1 GND LAN2_TXDP3 LAN2_TXDN3 GND 20 GND LAN1_TXDP0 LAN1_TXDN0 GND LAN1_TXDP2 LAN1_TXDN2 GND 19 GND LAN1_TXDP1 LAN1_TXDN1 GND LAN1_TXDP3 LAN1_TXDN3- GND 18 GND TMDSD_CLK+ TMDSD_CLK- GND GND GND GND GND COM5_TX COM5_RX GND DVI_HPD_D GND GND GND 15 GND TMDSD_DATA2+ TMDSD_DATA2- GND SATA-RX2+ SATA-RX2- GND 14 GND GND SATA-TX
cPCI-6525 4.5 Buttons, Switches and Jumpers See “cPCI-6525 Front Panel” on page 21 and “Board Layout Front” on page 19 for switch locations. System Reset Button The cPCI-6525 has a system reset button on the front panel. See “cPCI-6525 Front Panel” on page 21 for the button location. Load BIOS Default Button (SW1) Press switch SW1 to load the default BIOS settings. PCIe x16/x8 Selection Jumper (SW9) Switch SW9 sets the PCI Express signals on J4 to PCIe x16 (UP, default) or 2x PCIe x8 (DOWN).
COM1 Mode Switch (SW12) Switch SW12 sets the mode of the COM1 port on the front panel. ON 1 2 Mode 1 2 RS-232 (default) ON OFF RS-422 ON ON RS-485 OFF ON IPMC Mode Switch (SW_MOD1) Switch SW_MOD1 is a multi purpose switch that allows users to define the blade operating mode. All are set to OFF by default.
cPCI-6525 RGB to Front/Rear Switch (SW8) ON 1 2 Pin# Status 1 2 Description OFF RGB to front (default) ON RGB to rear OFF Normal (default) ON Debug GbE to Front/Rear Switch (SW11) ON 1 Pin# Status 1 2 2 Description OFF GbE1 to rear ON GbE1 to front (default) OFF GbE2 to rear ON GbE2 to front (default) Board Interfaces 35
Reserved Switches Switches SW_COMDEG1 and SW_IPMCDEG1 are reserved and their settings should not be altered unless instructed by ADLINK.
cPCI-6525 5 Checkpoints & Beep Codes 5.1 Checkpoint Ranges Status Code Range Description 0x01 – 0x0B SEC execution 0x0C – 0x0F SEC errors 0x10 – 0x2F PEI execution up to and including memory detection 0x30 – 0x4F PEI execution after memory detection 0x50 – 0x5F PEI errors 0x60 – 0x8F DXE execution up to BDS 0x90 – 0xCF BDS execution 0xD0 – 0xDF DXE errors 0xE0 – 0xE8 S3 Resume (PEI) 0xE9 – 0xEF S3 Resume errors (PEI) 0xF0 – 0xF8 Recovery (PEI) 0xF9 – 0xFF Recovery errors (PEI) 5.
Status Code Description 0x08 North Bridge initialization after microcode loading 0x09 South Bridge initialization after microcode loading 0x0A OEM initialization after microcode loading 0x0B Cache initialization SEC Error Codes 0x0C – 0x0D Reserved for future AMI SEC error codes 0x0E Microcode not found 0x0F Microcode not loaded SEC Beep Codes None PEI Phase Status Code Description Progress Codes 0x10 38 PEI Core is started 0x11 Pre-memory CPU initialization is started 0x12 Pre-memo
cPCI-6525 Status Code Description 0x1A Pre-memory South Bridge initialization (South Bridge module specific) 0x1B Pre-memory South Bridge initialization (South Bridge module specific) 0x1C Pre-memory South Bridge initialization (South Bridge module specific) 0x1D – 0x2A OEM pre-memory initialization codes 0x2B Memory initialization. Serial Presence Detect (SPD) data reading 0x2C Memory initialization. Memory presence detection 0x2D Memory initialization.
Status Code Description 0x3B Post-Memory South Bridge initialization is started 0x3C Post-Memory South Bridge initialization (South Bridge module specific) 0x3D Post-Memory South Bridge initialization (South Bridge module specific) 0x3E Post-Memory South Bridge initialization (South Bridge module specific) 0x3F-0x4E OEM post memory initialization codes 0x4F DXE IPL is started PEI Error Codes 0x50 Memory initialization error.
cPCI-6525 Status Code Description 0xE3 OS S3 wake vector call 0xE4-0xE7 Reserved for future AMI progress codes S3 Resume Error Codes 0xE8 S3 Resume Failed 0xE9 S3 Resume PPI not Found 0xEA S3 Resume Boot Script Error 0xEB S3 OS Wake Error 0xEC-0xEF Reserved for future AMI error codes Recovery Progress Codes 0xF0 Recovery condition triggered by firmware (Auto recovery) 0xF1 Recovery condition triggered by user (Forced recovery) 0xF2 Recovery process started 0xF3 Recovery firmware imag
PEI Beep Codes # of Beeps Description 1 Memory not Installed 1 Memory was installed twice (InstallPeiMemory routine in PEI Core called twice) 2 Recovery started 3 DXEIPL was not found 3 DXE Core Firmware Volume was not found 4 Recovery failed 4 S3 Resume failed 7 Reset PPI is not available DXE Phase Status Code 42 Description 0x60 DXE Core is started 0x61 NVRAM initialization 0x62 Installation of the South Bridge Runtime Services 0x63 CPU DXE initialization is started 0x64 CPU
cPCI-6525 Status Code Description 0x6F North Bridge DXE initialization (North Bridge module specific) 0x70 South Bridge DXE initialization is started 0x71 South Bridge DXE SMM initialization is started 0x72 South Bridge devices initialization 0x73 South Bridge DXE Initialization (South Bridge module specific) 0x74 South Bridge DXE Initialization (South Bridge module specific) 0x75 South Bridge DXE Initialization (South Bridge module specific) 0x76 South Bridge DXE Initialization (South Bri
Status Code Description 0xA0 IDE initialization is started 0xA1 IDE Reset 0xA2 IDE Detect 0xA3 IDE Enable 0xA4 SCSI initialization is started 0xA5 SCSI Reset 0xA6 SCSI Detect 0xA7 SCSI Enable 0xA8 Setup Verifying Password 0xA9 Start of Setup 0xAA Reserved for ASL (see ASL Status Codes section below) 0xAB Setup Input Wait 0xAC Reserved for ASL (see ASL Status Codes section below) 0xAD Ready To Boot event 0xAE Legacy Boot event 0xAF Exit Boot Services event 0xB0 Runtime Set
cPCI-6525 Status Code Description 0xD3 Some of the Architectural Protocols are not available 0xD4 PCI resource allocation error.
ACPI/ASL Checkpoints Status Code Description 0x01 System is entering S1 sleep state 0x02 System is entering S2 sleep state 0x03 System is entering S3 sleep state 0x04 System is entering S4 sleep state 0x05 System is entering S5 sleep state 0x10 System is waking up from the S1 sleep state 0x20 System is waking up from the S2 sleep state 0x30 System is waking up from the S3 sleep state 0x40 System is waking up from the S4 sleep state 0xAC System has transitioned into ACPI mode.
cPCI-6525 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. X Read these safety instructions carefully. X Keep this user’s manual for future reference. X Read the specifications section of this manual for detailed information on the operating environment of this equipment.
X 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. WARNING: X 48 Risk of explosion if battery is replaced with one of an incorrect type. Dispose of used batteries appropriately.
cPCI-6525 Getting Service Contact us should you require any service or assistance. ADLINK Technology, Inc. Address: 9F, No.166 Jian Yi Road, Zhonghe District New Taipei City 235, Taiwan ᄅؑקխࡉ৬ԫሁ 166 ᇆ 9 ᑔ Tel: +886-2-8226-5877 Fax: +886-2-8226-5717 Email: service@adlinktech.com Ampro ADLINK Technology, Inc. Address: 5215 Hellyer Avenue, #110 San Jose, CA 95138, USA Tel: +1-408-360-0200 Toll Free: +1-800-966-5200 (USA only) Fax: +1-408-360-0222 Email: info@adlinktech.com ADLINK Technology (China) Co.
ADLINK Technology, Inc. (French Liaison Office) Address: 6 allée de Londres, Immeuble Ceylan 91940 Les Ulis, France Tel: +33 (0) 1 60 12 35 66 Fax: +33 (0) 1 60 12 35 66 Email: france@adlinktech.com ADLINK Technology Japan Corporation Address: ͱ101-0045 ᵅҀ䛑गҷ⬄ऎ⼲⬄䤯 ⬎ފ3-7-4 ⼲⬄ 374 ɛɳ 4F KANDA374 Bldg. 4F, 3-7-4 Kanda Kajicho, Chiyoda-ku, Tokyo 101-0045, Japan Tel: +81-3-4455-3722 Fax: +81-3-5209-6013 Email: japan@adlinktech.com ADLINK Technology, Inc.
