» Kontron User's Guide « AT8060 Document Revision 1.2 October 2013 If it's embedded, it's Kontron.
Revision History Rev. Index Brief Description of Changes Date of Issue 1.0 First Release April 2012 1.1 Add Web interface section in charter 4.3 June 2012 1.2 Add new memory installation instructions section 3.3.2 October 2013 Customer Service Contact Information: Kontron Canada, Inc. 4555 Ambroise-Lafortune Boisbriand, Québec, Canada J7H 0A4 Tel: (450) 437-5682 (800) 354-4223 Fax: (450) 437-8053 E-mail: support@ca.kontron.
Table of Contents Table of Contents Safety Instructions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . viii Before You Begin . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . viii Preventing Electrostatic Discharge . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ix Preface . . . . . . . . . . . . . . . . . . . . . . . . . .
Table of Contents 2.6 Redundant BIOS Flash . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 2.7 Ethernet Interfaces . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 2.7.1 Fabric Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12 2.7.2 Base Interface . . . . . . . . . . . . . . . . . . . . . .
Table of Contents 4.3 Web Management Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28 4.3.1 Connecting to the Web Management Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .28 4.3.2 System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .29 4.3.3 Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table of Contents 6. Thermal Considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 111 6.1 A. B. Thermal Monitoring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 111 6.1.1 Heat Sinks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .111 6.1.2 Temperature Sensors . . . . . . . . . . . . . . . . . . . . .
List of Figures List of Figures Figure 2-1: Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9 Figure 2-2: Faceplate LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18 Figure 3-1: Jumper Settings and Locations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
List of Tables List of Tables Table 1-1 Board Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 Table 2-1 SFP LED Significations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 Table 2-2 Serial Interface connector Pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 Table 2-3 Faceplate LEDs. . . . . . . . . . .
Safety Instructions Safety Instructions Before You Begin Before handling the board, read the instructions and safety guidelines on the following pages to prevent damage to the product and to ensure your own personal safety. Refer to the "Advisories" section in the Preface for advisory conventions used in this user's guide, including the distinction between Warnings, Cautions, Important Notes, and Notes. • Always use caution when handling/operating the computer.
Safety Instructions Preventing Electrostatic Discharge Static electricity can harm system boards. Perform service at an ESD workstation and follow proper ESD procedure to reduce the risk of damage to components. Kontron strongly encourages you to follow proper ESD procedure, which can include wrist straps and smocks, when servicing equipment.
Preface Preface How to Use This Guide This user's guide is designed to be used as step-by-step instructions for installation, and as a reference for operation, troubleshooting, and upgrades. For the circuits, descriptions and tables indicated, Kontron assumes no responsibility as far as patents or other rights of third parties are concerned.
Preface Customer Comments If you have any difficulties using this user's guide, discover an error, or just want to provide some feedback, please send a message to: Tech.Writer@ca.kontron.com. Detail any errors you find. We will correct the errors or problems as soon as possible and post the revised user's guide on our Web site. Thank you.
Preface Unpacking Follow these recommendations while unpacking: •Remove all items from the box. If any items listed on the purchase order are missing, notify Kontron customer service immediately. •Inspect the product for damage. If there is damage, notify Kontron customer service immediately. •Save the box and packing material for possible future shipment. Powering Up the System Before any installation or setup, ensure that the board is unplugged from power sources or subsystems.
Preface Regulatory Compliance Statements FCC Compliance Statement for Class B Devices This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation.
Preface Limited Warranty Kontron grants the original purchaser of Kontron's products a TWO YEAR LIMITED HARDWARE WARRANTY as described in the following. However, no other warranties that may be granted or implied by anyone on behalf of Kontron are valid unless the consumer has the express written consent of Kontron. Kontron warrants their own products, excluding software, to be free from manufacturing and material defects for a period of 24 consecutive months from the date of purchase.
Chapter 1 Product Description 1.1 1.2 1.3 1.4 1.5 1.6 Product Overview .............................................. 2 What’s Included ................................................ 2 Board Specifications .......................................... 3 Compliance ...................................................... 5 Hot-Plug Capability............................................ 5 Interfacing with the Environment ......................... 5 1 AT8060 www.kontron.
Product Description 1. Product Description 1.1 Product Overview The AT8060 is a single width ATCA compliant processor blade. It implements Intel’s next generation Xeon dual processors codename Sandybridge on Romley platform. The AT8060 uses the full bandwidth of the four DDR3 memory channels with 4 VLP DDR3 Sockets per CPU. High speed interfaces such as dual 10GBase-KX4 in the fabric interface can deliver maximum performance using the PCIe ports from the processors.
Product Description 1.3 Board Specifications Table 1-1: Board Specifications Features Description Processors • • • • Dual socket Intel Xeon Processors from the SandyBridge-EP series E5-2600 processor family. 8cores 1.8GHz 70W 8cores 2.0GHz 95W 6cores 2.
Product Description Features Description • • • • IPMI Features • • • • • • Supervisory • • • Management Controller compliant IPMI v2.0. Remote control capability (power on-off /clean shutdown/cold reset) via any IPMI channels including LAN. Full speed 115200 bps Serial Over LAN (+LAN access to BIOS menu setup) and IPMI Over LAN (IPMI v2.0) always available. Serial data caching and replay to ease software application troubleshooting and post mortem analysis.
Product Description 1.4 Compliance This product conforms to the following specifications: • PICMG3.0 R3.0(AdvancedTCA Base Specification) • PICMG3.1 R1.0 Option 1 and 9(Ethernet/Fiber Channel over AdvancedTCA) • AMC.0 R2.0 (Advanced Mezzanine Card Base Specification) • AMC.1 R2.0 type 1, 2, 4 and 8 (Advanced Mezzanine Card PCI-Express) • AMC.3 R1.0 (Advanced Mezzanine Card Storage) • ACPI rev 2.0 • HPM.1 • IPMI 2.0 1.5 Hot-Plug Capability The AT8060 supports Full Hot Swap capability as per PICMG3.
Product Description • RS-232 signal levels at RTM face plate connector. • Serial port speed capability is: 9.6kbits/s to 115.2kbits/s. 1.6.1.3 Debug Video Feature A header is present on the RTM to connect a debug video cable. This interface is suitable for low rate video, not for HD or intensive use. Video signals are VGA standard signals. Custom video cable available on demand, please contact Technical Support. 1.6.1.
Product Description • PCI-Express clock on FCLKA • SATA on AMC port 7 AT8060 www.kontron.
Chapter 2 Board Features 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 2.10 2.11 2.12 Block Diagram .................................................. 9 System Core ..................................................... 10 USB 2.0 Interfaces............................................. 10 USB Flash Module.............................................. 11 Serial ATA/Serial Attached SCSI............................ 11 Redundant BIOS Flash ........................................ 12 Ethernet Interfaces..................
2. Board Features 2.1 Block Diagram Figure 2-1:Block Diagram *6 + , + @ / , " 0 % ** / > * % ** / > * ** ** & " 0 ** / / * 3 4/5 9; E ,<( 9; ,<( ** & " 0 ** / ' " " ( ) ' " # B ** / / * / ! " #$ % && * " + ,) & + ( ( -*, .
2.2 System Core 2.2.1 Processors (SandyBridge-EP Series) • Built on 32 nanometer process technology. • Six/Eight cores processor in 2011-land FCLGA. • 32KB L1/core • 256KB L2 / core • Up to 20MB L3: Up to 2.5MB per core. • Streaming SIMD Extension 4.1 and 4.2 • Integrated 4-channel DDR3 controller, DDR3-1600 memory with ECC • Intel QuickPath interconnect links, 8.0/7.
BIOS Settings: Advanced -> USB Configuration Chipset -> South Bridge -> USB Configuration 2.4 USB Flash Module The AT8060 supports up to two Solid State Drives. It is a NAND flash disk module with a USB 2.0 interface. The modules are socketed on two 2x5 headers attached to the AT8060. They are available in many sizes and accessible only when removing the top cover. By default the USB devices are used as booting devices. Signal Path: USB Flash Module Connector are available on J10 and J11. See section 3.
2.6 Redundant BIOS Flash Two redundant 64MBits, SPI EEPROMs are connected to PCH for the BIOS. Only one EEPROM at a time is available for the PCH. If for some reason a BIOS update corrupts an EEPROM which prevents the CPU from completing the boot sequence, the IPMC will swap the active SPI EEPROM and force a reboot. 2.7 Ethernet Interfaces 2.7.1 Fabric Interface The fabric interface can be either 10GbE or 1GbE. The AT8060 has boot from LAN capability (PXE) or iSCSI support on these ports.
Signal Path: The two ports are available on the Base Interface. BIOS Settings: Advanced --> Legacy Expansion ROM Configuration -> BI: GE OpROM, Port 1 and 2 2.7.3 SFP A Powerville quad 1000 Base-T / SerDes controller is installed onboard. Two ports are routed to the RTM and two are routed to the front panel SFP connectors. The front SFP cages support multi-rate fiber SFP modules.
2.8 Serial Interfaces The AT8060 uses serial interfaces to manage the CPU, the only way to get visual information from the board when used without a RTM806X. Serial ports are provided on the faceplate and on the RTM faceplate for asynchronous serial communications. They are 16C550 high-speed UART compatible and support 16-byte FIFO buffers for transfer rates from 9,6Kbps to 115,2Kbps.
•SATA link to the PCH •Compliant to AMC.0, AMC.1 and AMC.3 •50W maximum power budget Note: The thermal solution needs to be validated by the integrator when AMC Thermal Design power exceeds 20W. As per AMC.1 R2.0, the carrier board is required to provide PCIe 100MHz reference clock to the AMC on FCLKA. However, modules are not required to use it. Kontron recommends using AMC modules that use the reference clock on FCLKA.
2.11 Redundant IPMC Firmware & BootBlock The IPMC runs a firmware from SPI flash memory. The IPMC Boot Block saves the last two copies of the IPMC firmware image in the same as it's boot block SPI flash memory. The Boot Block manages the IPMC reprogrammation and can rollback to the previous firmware image in the IPMC internal flash in case of update problem. Note: The IPMC has an external hardware watchdog. 2.
2.12.2 Out Of Service (LED1) The AdvancedTCA LED1 is red or amber and indicates an Out-of-Service (OOS) condition. During normal operation, the OOS LED is OFF. This LED is ON during firmware upgrade and is user configurable if needed by a customer application. 2.12.3 Healthy LED (LED2) The AdvancedTCA LED2 is green or amber and indicates a healthy condition. The healthy LED indicates if the blade is powered up and all voltages and temperatures are within specifications.
Figure 2-2:Faceplate LEDs Hot Swap (Blue) Solid On Long Blink Solid Off Short Blink (100 % on): ( 90 % on): ( 0 % on): ( 10 % on): FRU Inactive FRU Activation Request FRU Activation In Progress / FRU Active FRU Deactivation Request / FRU Deactivation In Progress Out of service (Red/Amber) [ default : Red ] Solid On : MMC in reset Fast Blink (~50 % on) : MMC upgrade/rollback in progress Application Defined : May be controlled by application using PICMG API Health Led (Amber/Green) [ default : Green ] Off
Chapter 3 Installing the Board 3.1 3.2 3.3 3.4 3.5 Setting Jumpers................................................ 20 Processor......................................................... 21 Memory ........................................................... 21 Onboard Connectors and Headers ......................... 24 Board Hot Swap and Installation .......................... 25 www.kontron.
3. Installing the Board 3.1 Setting Jumpers 3.1.1 Jumper Description Table 3-1:Jumper Description Name Description Jumper Reserved Reserved JP2 (1-2) FPGA PROM Selection When On, it selects the factory prom JP2 (3-4) Clear BIOS setup in flash When On, it clears the BIOS Setup JP2 (5-6) Reserved Reserved JP2 (7-8) Reserved Reserved JP2 (9-10) Reserved Reserved JP2 (11-12) Onboard video enable When On, it enables onboard video controller.
3.1.
throttle the memory interface in case of overheating. Memory can perform double refresh rate to get higher maximum operating temperature. Kontron recommends the use of validated memory with this product. Thermal issues or other problems may arise if you don’t use recommended modules. At the time of publication of this user guide, the following memories memory list has been have been qualified and approved.
3.3.2 Installing Memory On an anti-static plane, place the board so that you are facing the front plate connectors Remove the memory protection top cover. Insert the memory module into any available socket, aligning the notches on the module with the socket’s key inserts. 1- Insert the memory module in the connector using your thumbs. 2- Eject partially the memory module, using the connector latches while applying some pressure on the top to avoid the full removal of the modules.
3.
3.5 Board Hot Swap and Installation Because of the high-density pinout of the hard-metric connector, some precautions must be taken when connecting or disconnecting a board to/from a backplane: 1 Rail guides must be installed on the enclosure to slide the board to the backplane. 2 Do not force the board if there is mechanical resistance while inserting the board. 3 Screw the frontplate to the enclosure to firmly attach the board to its enclosure.
3.5.3 Installing an AMC To install an AMC: 1 Remove the AMC filler panel. 2 Carefully engage the AMC into the card guide. Push the AMC until it fully mates with its connector. Secure the AMC handle to the locking position. 3 In normal condition, the blue LED shall turn ON as soon as the AMC is fully inserted. It will turn OFF at the end of the hot swap sequence. 3.5.4 Removing an AMC To remove an AMC: 1 Pull out the handle to unlock the AMC. 2 Wait for the blue LED to turn on continuously.
Chapter 4 Management 4.1 4.2 4.3 4.4 4.5 4.6 Hardware Management Overview .......................... 28 Configuring LAN interface ................................... 28 Web Management Interface ................................. 28 Hardware Management Functionality .................... 31 IPMC Specific Features........................................ 31 IPMC ............................................................... 33 www.kontron.
4. Management 4.1 Hardware Management Overview The purpose of the hardware management system is to monitor, control, ensure proper operation and provide hot swap support of ATCA Boards. The hardware management system watches over the basic health of the system, reports anomalies, and takes corrective action when needed. The hardware management system can retrieve inventory information and sensor readings as well as receive event reports and failure notifications from boards and other Intelligent FRUs.
4.3.2 4.3.2.1 System System Information Once connected to the Web Management Interface, the first page displayed is the System Information. The current component versions and board information such as serial numbers and part numbers are displayed on this page 4.3.2.2 LAN Info This page displays information on the IPMC LAN interfaces configuration. This configuration can be updated using this interface.
4.3.6 4.3.6.1 Maintenance Component Info This page displays HPM Upgrade information and current component versions. 4.3.6.2 Component Upgrade This page allows upgrading the FPGA and / or the IPMI firmware from the Web Management Interface using a HPM file. To proceed, here are the steps to follow: • Click “Browse…” and select the HPM file to upload. Then, click on “File Upload”. • When the file is uploaded, information on the HPM file is displayed.
The User ID3 to User ID5 are configurable. By default they are not set to “Enable”. 4.3.7 Logout This button allows a safe logout of the management interface. An automatic logout will be done after 5 minutes of inactivity. 4.4 Hardware Management Functionality The Front Blade Unit supports an “intelligent” hardware management system, based on the Intelligent Platform Management Interface Specification.
4.5.0.3 IPMC - System Event Log The Kontron IPMC implementation includes a Local System Event Log device as specified in the Section 31 of [IPMI 2.0]. The local System Event Log is a nonvolatile repository for the front board and all managed FRU events (AMC/RTM). The local SEL provides space for more than 5000 entries.
4.6 IPMC 4.6.1 Supported Commands The table below lists the IPMI commands supported by the IPMC. This table is identical as the one provided by AMC.0 and PICMG 3.0. The last column states the Kontron support for the specific command. Table 4-2:IPM Device Supported Commands for IPMC IPMI Spec. section NetFn CMD IPM Device “Global” Commands IPMI BMC req. Carrier IPMC req. M M Kontron support on IPMC Get Device ID 20.1 App 01h M M Yes Cold Reset 20.2 App 02h O O Yes Warm Reset 20.
IPMI Spec. section NetFn CMD IPMI BMC req. Carrier IPMC req. Kontron support on IPMC Enable Message Channel Receive 22.5 App 32h O O Yes Get Message 22.6 App 33h M O/M Yes Send Message 22.7 App 34h M M Yes Read Event Message Buffer 22.8 App 35h O O Yes Get BT Interface Capabilities 22.10 App 36h M O/M No Get System GUID 22.14 App 37h O O Yes Get Channel Authentication Capabilities 22.13 App 38h O O Yes Get Session Challenge 22.
IPMI Spec. section NetFn CMD IPMI BMC req. Carrier IPMC req. Kontron support on IPMC Get Channel Cipher Suites 22.15 App 54h Yes Suspend/Resume Payload Encryption 24.3 App 55h Yes Set Channel Security Keys 22.25 App 56h Yes Get System Interface Capabilities 22.9 App 57h Yes Table 4-5:Chassis Device Supported Commands for IPMC IPMI Spec. section NetFn CMD Chassis Device Commands IPMI BMC req. Carrier IPMC req. O O Kontron support on IPMC Get Chassis Capabilities 28.
Table 4-7:PEF and Alerting Supported Commands for IPMC IPMI Spec. section NetFn CMD PEF and Alerting Commands IPMI BMC req. Carrier IPMC req. O O Kontron support on IPMC Get PEF Capabilities 30.1 S/E 10h M M Yes Arm PEF Postpone Timer 30.2 S/E 11h M M Yes Set PEF Configuration Parameters 30.3 S/E 12h M M Yes Get PEF Configuration Parameters 30.4 S/E 13h M M Yes Set Last Processed Event ID 30.5 S/E 14h M M Yes Get Last Processed Event ID 30.
Table 4-9:FRU Device Supported Commands for IPMC IPMI Spec. section NetFn CMD FRU Device Commands IPMI BMC req. Carrier IPMC req. M M Kontron support on IPMC Get FRU Inventory Area Info 34.1 Storage 10h M M Yes Read FRU Data 34.2 Storage 11h M M Yes Write FRU Data 34.3 Storage 12h M M Yes CMD IPMI BMC req. Carrier IPMC req. Kontron support on IPMC M O Table 4-10:SDR Device Supported Commands for IPMC IPMI Spec.
IPMI Spec. section NetFn CMD IPMI BMC req. Carrier IPMC req. Kontron support on IPMC Clear SEL 31.9 Storage 47h M M Yes Get SEL Time 31.10 Storage 48h M M Yes Set SEL Time 31.11 Storage 49h M M Yes Get Auxiliary Log Status 31.12 Storage 5Ah O O No Set Auxiliary Log Status 31.13 Storage 5Bh O O No CMD IPMI BMC req. Carrier IPMC req. O O Table 4-12:LAN Device Supported Commands for IPMC IPMI Spec.
IPMI Spec. section NetFn CMD IPMI BMC req. Carrier IPMC req. Kontron support on IPMC Serial/Modem Connection Active 25.9 Transport 18h O/M O/M No Callback 25.10 Transport 19h O O No Set User Callback Options 25.11 Transport 1Ah O O No Get User Callback Options 25.12 Transport 1Bh O O No IPMI Spec. section NetFn CMD IPMI BMC req. Carrier IPMC req. Kontron support on IPMC O O SOL Activating 26.1 Transport 20h No Set SOL Configuration Params 26.
IPMI Spec. section NetFn CMD Compute Power Properties 3-82 PICMG Set Power Level 3-84 Get Power Level 3-83 Renegotiate Power IPMI BMC req. Carrier IPMC req.
Table 4-17:HPM Commands IPMI Spec. section NetFn CMD IPMI BMC req. Carrier IPMC req. Kontron support on IPMC HPM Get Target Upgrade Capabilities Yes Get Component Properties Yes Abort Firmware Upgrade Yes Initiate Upgrade Action Yes Upload Firmware Block Yes Finish Firmware Upload Yes Get Upgrade Status Yes Activate Firmware Yes Query Self-Test Results Yes Query Rollback Status Yes Initiate Manual Rollback Yes 4.6.
4.6.2.1 IPMC Sensors Table 4-18: IPMC Sensors 0 1 2 3 4 5 6 FRU0 Hot Swap FRU1 Hot Swap FRU2 Hot Swap FRU3 Hot Swap FRU4 Hot Swap FRU0 Reconfig Temp Board Inlet Discrete ATCA Board FRU Hot Swap Sensor for FRU 0 (Front Board) Sensor type code = F0h PICMG Hot Swap Event Reading type code = 6Fh Sensor specific See PICMG 3.0 R3.
7 8 9 10 11 12 13 14 15 16 Temp AMC Outake Temp CPU0 Temp CPU1 Temp Vcore0 Temp Vcore1 Temp DIMM A Temp DIMM B Temp DIMM C Temp DIMM D Temp DIMM E Threshold AMC Outake Temperature (Degrees) Sensor type = 01h temperature Event Reading type code = 01h threshold based See IPMI v2.0 table 42-2 for threshold based event Threshold CPU0 Temperature (Degrees) Sensor type = 01h temperature Event Reading type code = 01h threshold based See IPMI v2.
17 18 19 20 21 22 23 24 25 Temp DIMM F Temp DIMM G Temp DIMM H Temp Disk Temp Disk1 Temp Disk2 Brd Input Power FRU0 Brd Power FRU1 AMC Power Threshold DIMM F Temperature (Degrees) Sensor type = 01h temperature Event Reading type code = 01h threshold based See IPMI v2.0 table 42-2 for threshold based event Threshold DIMM G Temperature (Degrees) Sensor type = 01h temperature Event Reading type code = 01h threshold based See IPMI v2.
26 27 28 29 30 31 32 33 FRU2+ RTM Power Vcc -48V Feed Vcc +12V SUS Vcc +5V SUS Vcc +3.3V SUS Vcc +1.8V SUS Vcc +1.5V SUS Vcc +1.25V SUS Threshold FRU 2 (RTM) + FRU 3 (RTM's disk 1) + FRU 4 (RTM's disk 2) Power consumption in watts Sensor type = 0Bh Other Unit-Based Sensor (Watt) Event Reading type code = 01h threshold base See IPMI v2.
34 35 36 37 38 39 40 41 42 Vcc +1.2V SUS Vcc +1.0V SUS Vcc +0.75V SUS Vcc +1.5V Vcc +1.2V Vcc +1.1V Vcc VCORE 0 Vcc VTT CPU 0 Vcc VDDQ CPU 0 Threshold Voltage on board 1.2V suspend (management) power supply (Volts) Sensor type = 02h voltage Event Reading type code = 01h threshold based See IPMI v2.0 table 42-2 for threshold based event Threshold Voltage on board 1.
43 44 45 46 47 48 49 50 51 Vcc VSA CPU 0 Vcc PLL CPU 0 Vcc VCORE 1 Vcc VTT CPU 1 Vcc VDDQ CPU 1 Vcc VSA CPU 1 Vcc PLL CPU 1 Fuse-Pres A Feed Fuse-Pres B Feed Threshold Voltage on board CPU0 VSA payload power supply (Volts) Sensor type = 02h voltage Event Reading type code = 01h threshold based See IPMI v2.
52 53 54 55 56 57 Power State Power Good Power Good Event Board Reset POST Value Memory Err Discrete Board Power State Sensor type = D0h Kontron OEM Power State Sensor Event Reading type code = 6Fh Sensor specific See OEM sensor table, Sensor type code D1h for sensor definition Discrete Actual power good status Sensor type = 08h Power Supply Event Reading type code = 77h OEM See OEM sensor table, Event/Reading type code 77h for sensor definition Discrete Power good status event that occur s
58 59 60 61 62 63 DIMM A Status DIMM B Status DIMM C Status DIMM D Status DIMM E Status DIMM F Status Discrete DIMM A Status & Presence Sensor type = 25h Entity Presence Event Reading type code = 6Fh Sensor specific Only offset 0,1,4,5,6,7 are used See IPMI v2.0 table 42-3, Sensor type 25h (Entity Presence) for sensor definition Discrete DIMM B Status & Presence Sensor type = 25h Entity Presence Event Reading type code = 6Fh Sensor specific Only offset 0,1,4,5,6,7 are used See IPMI v2.
64 65 66 67 68 69 DIMM G Status DIMM H Status Memory Resize Boot Error CMOS Passwd PCIe Error Discrete DIMM G Status & Presence Sensor type = 25h Entity Presence Event Reading type code = 6Fh Sensor specific Only offset 0,1,4,5,6,7 are used See IPMI v2.0 table 42-3, Sensor type 25h (Entity Presence) for sensor definition Discrete DIMM H Status & Presence Sensor type = 25h Entity Presence Event Reading type code = 6Fh Sensor specific Only offset 0,1 are used See IPMI v2.
70 71 72 73 74 75 PCIe AMC Error PCIe RTM Error PCIe BI Error PCIe FI Error PCIe MI Error Bios Flash 0 Discrete AMC PCIe Error Sensor type = 13h Critical Interrupt Event Reading type code = 6Fh Sensor Specific Only offset 7 and 8 are used See IPMI v2.0 table 42-3, Sensor type code 13h for sensor definition Discrete RTM PCIe Error Sensor type = 13h Critical Interrupt Event Reading type code = 6Fh Sensor Specific Only offset 7 and 8 are used See IPMI v2.
76 77 78 79 80 81 Bios Flash 1 ACPI State IPMI Watchdog Health Error IPMB0 Link State FRU0 IPMBL State Discrete Bios Flash 1 Sensor type = 1Eh Boot Error Event Reading type code = 6Fh Sensor Specific Only offset 3 is used See IPMI v2.0 table 42-3, Sensor type code 1Eh for sensor definition Discrete Advance Configuration and Power Interface State Sensor type = 22h System ACPI Power State Event Reading type code = 6Fh Sensor specific Only offset 0,4,5,10,11,12,14 are used. See IPMI v2.
82 83 84 85 86 87 FRU1 IPMBL State FRU2 IPMBL State CPU0 Status CPU1 Status FRU Over Icc FRU Sensor Error Discrete IPMB-L branch from FRU1 fault detection sensor Sensor type = C3h OEM (Kontron OEM IPMB-L link state) Event Reading type code = 6Fh Sensor specific Only offset 2 and 3 are used See OEM table, Sensor type code C3h (Kontron OEM IPMB-L Link State) for sensor definition Discrete IPMB-L branch from FRU2 fault detection sensor Sensor type = C3h OEM (Kontron OEM IPMB-L link state) Event
88 89 FRU Pwr Denied FRU MngtPwr Fail FRU Power Denial Detection Sensor type = CDh OEM (Kontron FRU Power denied) Event Reading type code = 03h Digital Discrete offset 0,1 are used -see OEM table, Sensor type code CDh (Kontron OEM FRU Power Denied) for sensor definition Discrete FRU Management Power Fail Sensor type = D2h OEM (Kontron FRU Management Power Fail) Event Reading type code = 03h Digital Discrete offset 0,1 are used Discrete -see OEM table, Sensor type code D2h (Kontron OEM FRU Management
95 96 97 98 99 100 101 Ver Change IPMC Ver Change FPGA Ver Change BIOS EventRcv ComLost IPMC Reboot IPMC Storage Err IPMC SEL State Discrete IPMC Firmware Change Detection Sensor type = 2Bh Version Change Event Reading type code = 6Fh Sensor specific See IPMI v2.0 table 42-3, Sensor type code 2Bh for sensor definition Discrete FPGA Firmware Change Detection Sensor type = 2Bh Version Change Event Reading type code = 6Fh Sensor specific See IPMI v2.
102 103 104 105 106 SEL Time Set Specify when SEL time change Sensor type = 12h System Event Event Reading type code = 6Fh Sensor specific Only offset 5 is used See IPMI v2.
107 108 109 110 4.6.2.2 LAN Fabric0 Link LAN Fabric1 Link IPMI Info-1 IPMI Info-2 Discrete Fabric Interface 0 link status Sensor type = 27h LAN Reading type code = 6Fh Sensor Specific Only offset 0,1 are used See IPMI v2.0 table 42-3, Sensor type code 27h for sensor definition Discrete Fabric Interface 1 link status Sensor type = 27h LAN Reading type code = 6Fh Sensor Specific Only offset 0,1 are used See IPMI v2.
IPMI sensor ID Sensor Name 31 Vcc +5V SUS 32 Vcc +3.3V SUS 33 Vcc +1.8V SUS 34 Vcc +1.5V SUS 35 Vcc +1.25V SUS 36 Vcc +1.2V SUS 37 Vcc +1.0V SUS 38 Vcc +0.75V SUS 39 Vcc +1.5V 40 Vcc +1.2V 41 Vcc +1.
Board Information Area Board Manufacturer Kontron Board FRU ID FRU5008-12 Board Extra BI1MAC=XX:XX:XX:XX:XX:XX Board Extra BI2MAC=XX:XX:XX:XX:XX:XX Board Extra CPUID=Á Table 4-21:Product Information Area Product Information Area Product Manufacturer Kontron Product Name AT8060 Product Part Number T5008YYY_X-ZZZZZ Product Version X Product Serial 0123456789 Product FRU ID FRU5008-12 * Variable X, may change on revisions. 59 AT8060 www.kontron.
4.6.3.1 E-Keying Section The board e-keying information contains PICMG 3.0 R3.0 defined channel and link descriptors required for matchmaking computation by the ShMC. The following figure gives all E-Keying possibilities. Figure 4-1:E-Keying possibilities. 60 AT8060 www.kontron.
Table 4-22: E-Keying capabilities of the board Field Value Record Type ID C0h Record Format Version 02h Record Length *Calculated Record Checksum *Calculated Header Checksum *Calculated Record Type ID C0h Record format version 02h Manufacturer ID 00315Ah (PICMG Record ID) PICMG Record ID 14h (Board Point-To-Point Connectivity Record) Record Format Version 00h OEM GUID Count 01h OEM GUID [F0] OEM PCIe x4 + CLK Update Channel Link Descriptor 00001101h Link Grouping ID (Bits 31-24)
Field Value Link Type (Bits 19-12) 02h : PICMG 3.1 Ethernet Fabric Interface Link Designator (Bits 11-0) F42h : Fabric Interface, Channel 2, Port 0, 1, 2, 3 Link Descriptor 00002342h Link Grouping ID (Bits 31-24) 0h : Single-Channel link Link Type Extension (Bits 23-20) 0h : Fixed 1000Base-BX Link Type (Bits 19-12) 02h : PICMG 3.
Table 4-24: Carrier AMC.0 Field Value Record Type ID C0h Record format version 02h Record Length *Calculated Record Checksum *Calculated Header Checksum *Calculated Manufacturer ID 00315Ah (PICMG Record ID) PICMG Record ID 0x1A (Carrier Information Table) Record Format Version 00h AMC.0 Extension Version 02h (AMC.0 R2.0) Carrier Site Number Count 01h Carrier Site Number 05h 4.6.
Chapter 5 Chapter 5 Software Setup 5.1 AMI UEFI Setup Program ..................................... 65 5.2 Boot Utilities.................................................... 107 5.3 Console Redirection (VT100 Mode)........................ 108 64 AT8060 www.kontron.
Software Setup 5. Software Setup 5.1 AMI UEFI Setup Program All relevant information for operating the board and connected peripherals is stored in the main BIOS section of the SPI. 5.1.1 Accessing the UEFI Setup Utility The Unified Extensible Firmware Interface (hereafter known as UEFI) provides an interface between the operating system and the hardware of the AT8060.
Software Setup Note: The setup options described in this section are based on BIOS Version 0.70. The options and default settings may change in a new BIOS release. CAUTION These parameters have been provided to give control over the board. However, the values for these options should be changed only if the user has a full understanding of the timing relationships involved. Note: All options in Bold are the default settings. WARNING BIOS V0.
Software Setup Key Function Discard the changes for all menus. Load the Optimal Default Configuration values for all menus. Save and exit. Execute Command, display possible values for this field or Select the sub-menu. To select an item, use the arrow keys to move the cursor to the field you want. Then use the plus-and-minus value keys to select a value for that field. To control setting defaults, saving and exiting Setup, use the Exit Menu.
Software Setup 5.1.3 Main Menu Feature Option Description Help text BIOS Information BIOS Vendor Core Version Compliancy Project Version Build Date and Time Memory Information Total Memory Total Memory in the System. System Language Choose the system default language System Date Set the Date. Use Tab to switch between Data elements. System Time Set the Time. Use Tab to switch between Time elements. Access Level 68 AT8060 www.kontron.
Software Setup 5.1.4 Advanced Menu Feature Option Spread Spectrum Configuration Spread Spectrum Clocking Mode Description Help text Title Allows BIOS to Set Clock Spread Spectrum for EMI Control. Disabled, Enabled PCI Subsystem Settings Selects sub-menu. PCI, PCI-X and PCI Express Settings. ACPI Settings Selects sub-menu. System ACPI Parameters. Trusted Computing Selects sub-menu. Trusted Computing Settings WHEA Configuration Selects sub-menu. General WHEA Configuration settings.
Software Setup 5.1.4.1 PCI Subsystem Settings sub-menu Feature Option PCI Option ROM Handling PCI ROM Priority Description Help text Title In case of multiple Option ROMs (Legacy and EFI Compatible), specifies what PCI Option ROM to launch. Legacy ROM, EFI Compatible ROM PCI 64bit Resources Handling Title Disabled, Enabled Enables or Disables 64bit capable Devices to be Decoded in Above 4G Address Space (Only if System Supports 64 bit PCI Decoding).
Software Setup 5.1.4.1.1 Feature PCI Express Settings sub-menu Option PCI Express Device Register Settings Description Help text Title Relaxed Ordering Disabled, Enabled Enables or Disables PCI Express Device Relaxed Ordering. Extended Tag Disabled, Enabled If ENABLED allows Device to use 8-bit Tag field as a requester. No Snoop Disabled, Enabled Enables or Disables PCI Express Device No Snoop option.
Software Setup Feature Option PCI Express Link Register Settings ASPM Support Extended Synch Link Training Retry Description Title Disabled, Auto, Force L0s Set the ASPM Level: Force L0s - Force all links to L0s State : AUTO BIOS auto configure : DISABLE - Disables ASPM WARNING: Enabling ASPM may cause some PCI-E devices to fail Disabled, Enabled If ENABLED allows generation of Extended Synchronization patterns.
Software Setup 5.1.4.1.2 Feature PCI Express GEN 2 Settings sub-menu Option PCI Express GEN2 Device Register Settings Completion Timeout ARI Forwarding AtomicOp Requester Enable AtomicOp Egress Blocking IDO Request Enable Description Help text Title Default, Shorter, Longer, Disabled In device Functions that support Completion Timeout programmability, allows system software to modify the Completion Timeout value. 'Default' 50us to 50ms.
Software Setup Feature IDO Completion Enable LTR Mechanism Enable End-End TLP Prefix Blocking Option Help text Disabled, Enabled If supported by hardware and set to 'Enabled', this permits setting the number of ID-Based Ordering (IDO) bit (Attribute[2]) requests to be initiated. Disabled, Enabled If supported by hardware and set to 'Enabled', this enables the Latency Tolerance Reporting (LTR) Mechanism.
Software Setup Feature Clock Power Management Compliance SOS Hardware Autonomous Width Hardware Autonomous Speed Option Description Help text Disabled, Enabled If supported by hardware and set to 'Enabled', the device is permitted to use CLKREQ# signal for power management of Link clock in accordance to protocol defined in appropriate form factor specification.
Software Setup 5.1.4.2 Feature CPU Configuration sub-menu Option Description Help text CPU Configuration Subtitle Socket 0 CPU Information Selects sub-menu. Socket specific CPU Information Socket 1 CPU Information Selects sub-menu.
Software Setup Feature Option DCU Streamer Prefetcher Disabled, Enabled Enable prefetch of next L1 Data line based upon multiple loads in same cache line. DCU IP Prefetcher Disabled, Enabled Enable prefetch of next L1 line based upon sequential load history. Disabled, Enabled When enabled, a VMM can utilize the additional hardware capabilities provided by Vanderpool Technology Intel Virtualization Technology CPU Power Management Configuration 5.1.4.2.1 Feature Description Selects sub-menu.
Software Setup 5.1.4.2.2 Feature Socket 1 CPU Information sub-menu Option Description Help text Socket 1 CPU Information Subtitle CPU Signature Display only Displays CPU Signature Microcode Patch Display only CPU Microcode Patch Revision Max CPU Speed Display only Displays the Max CPU Speed Min CPU Speed Display only Displays the Max CPU Speed Processor Cores Display only Displays number of cores.
Software Setup 5.1.4.4 Feature BI : GE OpROM, Port 1 BI : GE OpROM, Port 2 FP : GE OpROM, Port 1 FP : GE OpROM, Port 2 RTM: GE OpROM, Port 1 RTM: GE OpROM, Port 2 Legacy Expansion ROM Configuration sub-menu Option Description Help text Disabled, Enabled Enabled: initializes BI GbE port 1 Expansion ROM. Disabled: PCI Expansion ROM not used to boot the system. Disabled, Enabled Enabled: initializes BI GbE port 2 Expansion ROM. Disabled: PCI Expansion ROM not used to boot the system.
Software Setup Feature FI : XE OpROM, Port 1 FI : XE OpROM, Port 2 AMC Slot OpROM(s) RTM Slot OpROM(s) 5.1.4.5 Feature Option Description Help text Disabled, PXE, iSCSI PXE: Initializes FI XGbE port 1 PXE Expansion ROM. iSCSI: Initializes iSCSI Interface Expansion ROM. Disabled, PXE, iSCSI PXE: Initializes FI XGbE port 2 PXE Expansion ROM. iSCSI: Initializes iSCSI Interface Expansion ROM. Disabled, Enabled Enabled: initializes all AMC Slot Expansion ROMs.
Software Setup 5.1.4.6 Feature SAS Configuration sub-menu Option Description Help text SAS Configuration Subtitle SAS Port 0 Display only Displays SAS Device Names if Present SAS Port 1 Display only Displays SAS Device Names if Present SAS Port 2 Display only Displays SAS Device Names if Present SAS Port 3 Display only Displays SAS Device Names if Present 5.1.4.
Software Setup 5.1.4.8 Feature USB Configuration sub-menu Option Description USB Configuration Subtitle USB Devices: Display only Legacy USB Support EHCI Hand-off Port 60/64 Emulation Help text Enabled, Disabled, Auto Enables Legacy USB support. AUTO option disables legacy support if no USB devices are connected. DISABLE option will keep USB devices available only for EFI applications. Disabled, Enabled This is a workaround for OSes without EHCI handoff support.
Software Setup Feature Device power-up delay Option Description Maximum time the device will take before it properly reports itself to the Host Controller. 'Auto' uses default value: for a Root port it is 100 ms, for a Hub port the delay is taken from Hub descriptor. Auto, Manual Delay range is 1..40 seconds, in one second increments Device power-up delay in seconds Numeric Mass Storage Devices: Display only USB Device X 5.1.4.
Software Setup 5.1.4.9.1 Feature COM Port A Configuration sub-menu Option COM Port A Configuration Serial Port 5.1.4.9.2 Feature Display only Auto, IO=3F8h; IRQ=4;, IO=3F8h; IRQ=3,4,5,6,7,10,11, 12;, IO=2F8h; IRQ=3,4,5,6,7,10,11, 12;, IO=3E8h; IRQ=3,4,5,6,7,10,11, 12;, IO=2E8h; IRQ=3,4,5,6,7,10,11, 12; Enable or Disable Serial Port (COM) Select an optimal setting for IO device.
Software Setup 5.1.4.10 Feature Serial Port Console Redirection sub-menu Option COM0 Console Redirection Description Subtitle Console Redirection Enable or Disable. Disabled, Enabled Console Redirection Settings Selects sub-menu. COM1 Subtitle Console Redirection Selects sub-menu.
Software Setup 5.1.4.10.1 Feature Out-of-Band Mgmt Port Terminal Type Bits per second Console Redirection Settings sub-menu Option Description Help text COM0, COM1 Microsoft Windows Emergency Management Services (EMS) allows for remote management of a Windows Server OS through a serial port. VT100, VT100+, VTUTF8, ANSI VT-UTF8 is the preferred terminal type for out-ofband management. The next best choice is VT100+ and then VT100.
Software Setup Feature Flow Control Data Bits Parity Stop Bits Option Description Help text Flow control can prevent data loss from buffer overflow. When sending data, if the receiving buffers are full, a 'stop' signal can be sent to stop the data flow. Once the buffers are empty, a 'start' signal can be sent to re-start the flow. Hardware flow control uses two wires to send start/stop signals.
Software Setup 5.1.4.10.2 Feature COM 0 sub-menu Option Description COM0 Subtitle Console Redirection Settings Subtitle Help text VT100, VT100+, VTUTF8, ANSI Emulation: ANSI: Extended ASCII char set. VT100: ASCII char set. VT100+: Extends VT100 to support color, function keys, etc. VTUTF8: Uses UTF8 encoding to map Unicode chars onto 1 or more bytes. Bits per second 9600, 19200, 38400, 57600, 115200 Selects serial port transmission speed. The speed must be matched on the other side.
Software Setup Feature Option Description Help text None, Hardware RTS/CTS Flow control can prevent data loss from buffer overflow. When sending data, if the receiving buffers are full, a 'stop' signal can be sent to stop the data flow. Once the buffers are empty, a 'start' signal can be sent to re-start the flow. Hardware flow control uses two wires to send start/stop signals.
Software Setup Feature Option Description Help text Description Help text Recorder Mode Resolution 100*31 Legacy OS Redirection Resolution Force System Vga to Text Mode 5.1.4.10.3 Feature COM 1 sub-menu Option COM1 Subtitle Console Redirection Settings Subtitle VT100, VT100+, VTUTF8, ANSI Emulation: ANSI: Extended ASCII char set. VT100: ASCII char set. VT100+: Extends VT100 to support color, function keys, etc. VTUTF8: Uses UTF8 encoding to map Unicode chars onto 1 or more bytes.
Software Setup Feature Option Description Help text 1, 2 Stop bits indicate the end of a serial data packet. (A start bit indicates the beginning). The standard setting is 1 stop bit. Communication with slow devices may require more than 1 stop bit. Flow Control None, Hardware RTS/CTS Flow control can prevent data loss from buffer overflow. When sending data, if the receiving buffers are full, a 'stop' signal can be sent to stop the data flow.
Software Setup 5.1.5.1 Feature North Bridge sub-menu Description Help text IOH Configuration Selects sub-menu. IOH Configuration Page QPI Configuration Selects sub-menu. QPI Configuration Page Compatibility RID Option Support for Compatibility Revision ID (CRID) Functionality mentioned in Sandybridge bios spec Enabled, Disabled Memory Configuration Subtitle Total Memory Display only Total Memory in the System.
Software Setup Feature Option DDR Speed Auto, Force DDR3 800, Force DDR3 1066, Force DDR3 1333, Force DDR3 1600, Force DDR3 1866 Force DDR Speed Channel Interleaving Auto, 1 Way, 2 Way, 3 Way, 4 Way Select different Channel Interleaving setting. Rank Interleaving Auto, 1 Way, 2 Way, 4 Way, 8 Way Select different rank Interleaving setting.
Software Setup Feature Option Description Help text CPU Socket 1 DIMM Information Subtitle Node 1 Ch 0 Dimm 0 Display only Memory in the Slot. Node 1 Ch 1 Dimm 0 Display only Memory in the Slot. Node 1 Ch 2 Dimm 0 Display only Memory in the Slot. Node 1 Ch 3 Dimm 0 Display only Memory in the Slot. 5.1.5.1.2 Feature IOH Configuration sub-menu Option Intel(R) VT for Directed I/ O Configuration Description Help text Selects sub-menu.
Software Setup Feature Option Description Help text IOH Resource Selection Type Auto, Manual Allows to select Auto/ Manual. When Auto option is selected PCI resource allocation across multiple IOHs is optimized automatically based on the PCI devices present. With Manual option user can force the PCI resource allocation across multiple IOHs based on the ratios selected.
Software Setup Feature Option IOH 0 PCIe port Speed Control AMC Port Link Speed 5.1.5.2 Feature Help text Subtitle Select Target Link Speed Gen1,Gen2 or Gen3 GEN1, GEN2, GEN3 IOH 1 PCIe port Speed Control RTM Port Link Speed Description Subtitle Select 'Auto' to check for T5705 (RTM8050) and force GEN1 if detected, else GEN2 is used. Select 'GEN1' if Hot-Plug of T5705 is to be done later.
Software Setup 5.1.5.3 South Bridge sub-menu Feature Option Description Help text PCH Information Subtitle Name Display only PCH Name Stepping Display only PCH Stepping SB Chipset Configuration Subtitle PCH Compatibility RID Disabled, Enabled Support for PCH Compatibility Revision ID (CRID) Functionality. SMBus Controller Disabled, Enabled Enabled/Disabled SMBus Controller. Periodic SMI Disabled, Enabled Enabled/Disabled Periodic SMI.
Software Setup Feature Option High Precision Event Timer Configuration High Precision Timer Description Help text Subtitle Enabled/Disabled the High Precision Event Timer. Disabled, Enabled PCI Express Ports Configuration Selects sub-menu. PCI Express Ports Configuration USB Configuration Selects sub-menu. USB Configuration 5.1.5.3.
Software Setup Feature Option USB Port 6 (RTM1) Disabled, Enabled Enabled/Disabled USB Port 6 USB Port 7 (FP1) Disabled, Enabled Enabled/Disabled USB Port 7 USB Port 11 (MC0) Disabled, Enabled Enabled/Disabled USB Port 11 USB Port 13 (MC1) Disabled, Enabled Enabled/Disabled USB Port 13 5.1.5.
Software Setup 5.1.6 Server Mgmt Feature Option BMC Self Test Status BMC KCS interrupt Default Reset Type Description Help text Subtitle Displays current Bmc Self Test Whether PASSED or FAILED.In FAILED case, please check Bmc Self Test Log page for error reported Enabled, Disabled Enable support for Interrupt in KCS communication with BMC. Hard Reset, Warm Reset Sets the reset type issued whenever front panel reset button is pushed or IPMI Watchdog expires with reset action configured.
Software Setup 5.1.6.
Software Setup 5.1.6.3 Feature Watchdog Configuration sub-menu Option Watchdog Configuration Description Help text Subtitle FRB-2 Timer Enabled, Disabled Enable or Disable FRB-2 timer(POST timer) FRB-2 Timer timeout 3 minutes, 4 minutes, 5 minutes, 6 minutes Enter value Between 3 to 6 min for FRB-2 Timer Expiration value FRB-2 Timer Policy Do Nothing, Reset, Power Down, Power Cycle Configure how the system should respond if the FRB-2 Timer expires. Not available if FRB-2 Timer is disabled.
Software Setup 5.1.6.5 Feature BMC Network configuration sub-menu Option Description Help text BMC network configuration Subtitle Lan channel 1 configuration Selects sub-menu. Lan channel 1 configuration Lan channel 2 configuration Selects sub-menu. Lan channel 2 configuration 5.1.6.5.
Software Setup 5.1.6.5.2 Feature Lan channel 2 configuration sub-menu Option Lan channel 2 configuration Configuration source Description Help text Subtitle Select to configure LAN channel parameters statically or dynamically (DHCP). Changes will be applied on next reboot. Disabled, Static, Dynamic BMC IP address Display only if Dynamic Enter BMC IP address. Subnet mask Display only if Dynamic Enter subnet mask. Gateway IP address Display only if Dynamic Enter Gateway IP address.
Software Setup 5.1.7 Boot Feature Option Boot Configuration Description Help text Subtitle Setup Prompt Timeout Number of seconds to wait for setup activation key. 65535(0xFFFF) means indefinite waiting. Numeric Bootup NumLock State On, Off Select the keyboard NumLock state Quiet Boot Disabled, Enabled Enables or disables Quiet Boot option Retry Boot Sequence Disabled, Enabled Enable this option to Retry the Boot Sequence until a successful boot (infinite retries).
Software Setup 5.1.8 Security Feature Option Password Description Description Help text Subtitle 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. In Setup the User will have Administrator rights.
Software Setup Feature Option Description Help text Save as User Defaults Save the changes done so far as User Defaults. Restore User Defaults Restore the User Defaults to all the setup options. Boot Override Subtitle Boot Option X Select device to boot Boot Option X+1 Select device to boot 5.2 Boot Utilities 5.2.1 Entering BIOS Setup Menu Pressing during POST enters BIOS Setup. 5.2.2 SAS Option ROM (RTM8050) To access the SAS Option ROM, follow the procedure listed below.
Software Setup 5.3 Console Redirection (VT100 Mode) The VT100 operating mode allows remote setup of the board. This configuration requires a remote terminal that must be connected to the board through a serial communication link. 5.3.1 Requirements The terminal should emulate a VT100 or an ANSI terminal. Terminal emulation programs such as Putty, Telix©, HyperTherminal(Windows), minicom(Linux) or ProComm©(Windows) can also be used. 5.3.
Software Setup F11 Key ! F12 Key @ Alt Modifier ^A Control Modifier ^C Home Key h End Key k Insert Key + Delete Key - Page Up Key ? Page Down Key / These "escape sequences" are supported by VT-UTF8 compliant terminal connections, such as Windows Server 2003 Emergency Management Services (EMS).
Chapter 6 Thermal Considerations 6.1 Thermal Monitoring ........................................... 111 110 AT8060 www.kontron.
Thermal Considerations 6. Thermal Considerations The following chapter provides system integrators with the necessary information to satisfy thermal and airflow requirements when using the AT8060. 6.1 Thermal Monitoring To ensure optimal operation and long-term reliability of the AT8060, all on-board components must remain within the maximum temperature specifications. The most critical components on the AT8060 are the processors, the memory modules and the chipset.
Thermal Considerations IPMI non-recoverable / PICMG 3.0 critical/ telco critical: Temperature has reached a destructive level. Device might be damaged. Most ATCA chassis react to temperature events in the following manner: When a minor threshold is reached, the shelf manager will incrementally increase airflow (fan speed) to bring the temperature below the crossed threshold. When a major threshold is reached, the shelf manager will increase the fans to maximum speed.
Thermal Considerations 6.1.3 Airflow blockers It is highly recommended to use airflow blockers (ATCA slot) and AMC airflow blocker in the AT8060 (or any empty AMC slot) to block any slot open to exterior air. Failure to do so, would go against forced air principles applied on ATCA components, reducing system's cooling efficiency. Additionally, airflow blockers offer a higher impedance to forced air than typical board, who tend to let more air into slots filled with AT8060 or other ATCA boards. 6.1.
Thermal Considerations Figure 6-2:Pressure Curve in Metric 6.1.5 Thermal Profile It is important to follow the thermal profile to make sure the MTBF values are respected. The CPU usage will influence the temperature that the case can handle. Refer to the figure below for more details.
A. Memory & I/O Maps A.1 Memory Mapping FFFFFh System BIOS E0000h 1MB to top of DRAM Optional ROM (free) LAN BIOS (if activated) (~30KB) SAS BIOS 7 HW 7 SDU 7 HW 7 See Note 2 See Note 1 Optional ROM (Free) C0000h 100000h See detailed map to the right A0000h XBDA; USB Legacy / BIOS Stack Video DRAM 0 - 622KB DRAM A0000h Note : 6$6 %,26 DGGUHVV PD\ YDU\ ,I QR GULYH FRQQHFWHG WKHQ 6L]H LV RQO\ .% 6$6 7 6L]H LV RQO\ .
A.
BUS# DEV# V. ID D. ID Funct.
BUS# DEV# V. ID D. ID Funct. # Description PCI Description 12 00 1912 0013 0 PCI bridge: Renesas Technology Corp. SH7757 PCIe Switch [PS] BMC 13 00 1912 0013 0 PCI bridge: Renesas Technology Corp. SH7757 PCIe Switch [PS] BMC 13 01 1912 0013 0 PCI bridge: Renesas Technology Corp. SH7757 PCIe Switch [PS] BMC 14 00 1912 0012 0 PCI bridge: Renesas Technology Corp. SH7757 PCIe-PCI Bridge [PPB] BMC 16 00 1912 0011 0 Unassigned class [ff00]: Renesas Technology Corp.
BUS# DEV# V. ID D. ID Funct.
BUS# DEV# V. ID D. ID Funct.
BUS# DEV# V. ID D. ID Funct.
BUS# DEV# V. ID D. ID Funct.
BUS# DEV# V. ID D. ID Funct.
B. Connector Pinouts B.
B.
Pin Signal Pin Signal Pin Signal Pin Signal B40 GND B82 GND B125 GND B168 TDO B41 ENABLE# B83 PS0#(GND) B126 RxD14- B169 TDI B42 12V B84 12V B127 RxD14+ B170 GND B85 GND B128 GND B.4 USB Dual Port (J12) Signal Pin VCC 1 DATA- 2 DATA+ 3 GND 4 B.5 Serial Port, COM1(J13) Signal Pin Pin Signal RTS 1 5 GND DTR 2 6 RX# TX# 3 7 DSR GND 4 8 CTS B.6 USB Flash Drive(J10, J11) Signal Pin Pin Signal VCC 1 6 N.C. N.C.
B.7 Base Interface & Fabric Interface (J23) Pin ROW A ROW B ROW C ROW D ROW E ROW F 1 Tx2[2]+ Tx2[2]- Rx2[2]+ Rx2[2]- Tx3[2]+ Tx3[2]- 2 Tx0[2]+ Tx0[2]- Rx0[2]+ Rx0[2]- Tx1[2]+ Tx1[2]- 3 Tx2[1]+ Tx2[1]- Rx2[1]+ Rx2[1]- Tx3[1]+ Tx3[1]- 4 Tx0[1]+ Tx0[1]- Rx0[1]+ Rx0[1]- Tx1[1]+ Tx1[1]- 5 BI_DA1+ BI_DA1- BI_DB1+ BI_DB1- BI_DC1+ BI_DC1- 6 BI_DA2+ DI_DA2- BI_DB2+ BI_DB2- DI_DC2+ BI_DC2- 7 N.C. N.C. N.C. N.C. N.C. N.C. 8 N.C. N.C. N.C. N.C. N.C. N.C.
B.
Pin ROW G ROW H ROW AB ROW CD ROW EF ROW GH 1 NC / AMC18_RX+ NC / AMC18_RX- GND GND GND GND 2 NC / AMC20_RX++ NC / AMC20_RX- GND GND GND GND 3 N/C N/C GND GND GND GND 4 N/C N/C GND GND GND GND 5 PE2_RX- PE2_RX+ GND GND GND GND 6 PE0_RX- PE0_RX- GND GND GND GND 7 SAS1_RX+ SAS1_RX- GND GND GND GND 8 SAS0_RX+ SAS1_RX- GND GND GND GND 9 N/C MC_BLUE GND GND GND GND 10 MC_RED MC_GREEN GND GND GND GND B.
C. BIOS Setup Error Codes C.1 Memory Reference Code C.1.
C.2 SEC Status Codes Status Code Description 0x0 Not Used 0x1 Power on.
Status Code Description 0x2F Memory initialization (other). 0x30 Reserved for ASL (see ASL Status Codes section below) 0x31 Memory Installed 0x32 CPU post-memory initialization is started 0x33 CPU post-memory initialization. Cache initialization 0x34 CPU post-memory initialization. Application Processor(s) (AP) initialization 0x35 CPU post-memory initialization. Boot Strap Processor (BSP) selection 0x36 CPU post-memory initialization.
Status Code Description 0xF1 Recovery condition triggered by user (Forced recovery) 0xF2 Recovery process started 0xF3 Recovery firmware image is found 0xF4 Recovery firmware image is loaded 0xF5-0xF7 Reserved for future AMI progress codes 0xF8 Recovery PPI is not available 0xF9 Recovery capsule is not found 0xFA Invalid recovery capsule 0xFB – 0xFF Reserved for future AMI error codes C.
Status Code Description 0x80 – 0x8F OEM DXE initialization codes 0x90 Boot Device Selection (BDS) phase is started 0x91 Driver connecting is started 0x92 PCI Bus initialization is started 0x93 PCI Bus Hot Plug Controller Initialization 0x94 PCI Bus Enumeration 0x95 PCI Bus Request Resources 0x96 PCI Bus Assign Resources 0x97 Console Output devices connect 0x98 Console input devices connect 0x99 Super IO Initialization 0x9A USB initialization is started 0x9B USB Reset 0x9C USB De
Status Code Description 0xD0 CPU initialization error 0xD1 North Bridge initialization error 0xD2 South Bridge initialization error 0xD3 Some of the Architectural Protocols are not available 0xD4 PCI resource allocation error.
D. Software Update To update the board software, it is recommended to use the Kontron update CD. A version of this CD can be found on the CD/DVD provided with your board or on the Kontron Canada’s FTP site. Updating your board with this Update CD will have a payload impact on your board. To update your board from the update CD, boot from the CD and follow the instructions provided in the AT8060 - Update CD User guide provided with the CD image file.
E. Getting Help If, at any time, you encounter difficulties with your application or with any of our products, or if you simply need guidance on system setups and capabilities, contact our Technical Support at: North America EMEA Tel.: (450) 437-5682 Tel.: +49 (0) 8341 803 333 Fax: (450) 437-8053 Fax: +49 (0) 8341 803 339 If you have any questions about Kontron, our products, or services, visit our Web site at: www.kontron.com You also can contact us by E-mail at: North America: support@ca.kontron.
3) The technician will instruct you on the return procedure if the problem cannot be solved over the telephone. 4) Make sure you receive an RMA # from our Technical Support before returning any merchandise. • E-mail 1) Send us an e-mail at: RMA@ca.kontron.com in North America and at: orderprocessing@kontron-modular.com in EMEA. In the e-mail, you must include your name, your company name, your address, your city, your postal/zip code, your phone number, and your e-mail.
F. Glossary Acronyms Descriptions AC Alternate Current ACPI Advanced Configuration & Power Interface AdvancedMC (Same as AMC). Advanced Mezzanine Card. AHCI Advanced Host Controller Interface AMC (Same as AdvancedMC). Advanced Mezzanine Card. AMC.0 Advanced Mezzanine Card Base Specification. AMC.1 PCI Express and Advanced Switching on AdvancedMC. A subsidiary specification to the Advanced Mezzanine Card Base Specification (AMC.0). AMC.2 Ethernet Advanced Mezzanine Card Specification.
Acronyms Descriptions CLK2 AdvancedTCA bused resource Synch clock group 2 CLK3 AdvancedTCA bused resource Synch clock group 3 CMCI Correctable Machine Check Interrupt CMOS Complementary Metal Oxide Semiconductor. Also refers to the small amount of battery (or capacitor) powered CMOS memory to hold the date, time, and system setup parameters. COM Serial port interface COM.0 PICMG COM Express(R) Module Base Specification CPU Central Processing Unit.
Acronyms Descriptions FCC Federal Communications Commission FI Fabric Interface. Backplane connectivity defined by the ATCA. FIFO First In First Out FPGA Field-Programmable Gate Array FRU Field Replaceable Unit. Any entity that can be replaced by a user in the field. Not all FRUs are hot swappable.
Acronyms Descriptions KCS Keyboard Controller Style. An IPMI system interface. LAN Local Area Network LED Light-Emitting Diode LPC Low Pin Count port LV Low Voltage MAC Media Access Controller address of a computer networking device. MCERR Machine Check ERRor ME Management Engine MEI (Same as HECI) Management Engine Interface MHz MegaHertz Microcode Intel-supplied data block used to correct specific errata in the processor. MMC Module Management Controller.
Acronyms Descriptions PLL Phase Lock Loop POH System Operating Power-On Hours. POST Power-On Self-Test PPP Point-to-Point Protocol PROM Programmable Read-Only Memory PS Primary Slave PXE Preboot eXecution Environment QPI QuickPath Interconnect. Point-to-point interconnect between Intel processors and IOH RAID Redundant Array of Independent Disks / Redundant Array of Inexpensive Disks. RAM Random Access Memory RAS Row Address Strobe, used in DRAM.
Acronyms Descriptions SMB (Same as SMBus/SMBUS). System Management Bus. SMBUS (Same as SMB/SMBus). System Management Bus. SMBus (Same as SMB/SMBUS). System Management Bus. SMI System Management Interrupt SOL Serial Over LAN SPD Serial Presence Detect. A standardized way to automatically access information about a computer memory module. SPI Serial Peripheral Interface SpeedStep (Same as EIST). Enhanced Intel SpeedStep Technology.
Acronyms Descriptions VLAN Virtual Local Area Network VLP Very Low Profile VMM Virtual Machine Manager. Sometimes the third M is expanded to Monitor. VT Video Terminal VTT Power supply VT100 Video Terminal 100, this is a communication standard. VT-d Intel (R) Virtualization Technology for Directed I/O VT-x Intel (R) Virtualization Technology for IA-32 Intel (R) Architecture WHEA Windows Hardware Error Architecture XAUI X (meaning ten) Attachement Unit Interface.
