» Kontron User's Guide « AT8050 Document Revision 1.5 January 2014 If it's embedded, it's Kontron.
Revision History Rev. Index Brief Description of Changes Date of Issue 1.0 First Release April 2009 1.1 Second Release 1.2 Third Release 1.3 Fourth Release 1.4 Fifth Release October 2013 1.5 Sixth Release January 2014 November 2009 April 2010 September 2011 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 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ix Before You Begin . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ix Preventing Electrostatic Discharge . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .x Preface . . . . . . . . . . . . . . . . . . . . . . . . . .
Table of Contents 2.5 Serial ATA/Serial Attached SCSI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 2.5.1 Serial Attached SCSI (LSISAS1064e is PCI-e rev 1.1) . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12 2.5.2 Serial ATA (ICH10R) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13 2.6 Update Channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table of Contents 4. Hardware Management . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38 4.1 Hardware Management Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38 4.2 Hardware Management Functionality. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38 4.2.1 IPMC specific features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table of Contents A. B. Memory & I/O Maps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .A-1 A.1 Memory Mapping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .A-1 A.2 Kontron I/O Mapping. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .A-2 A.3 PCI IDSEL and Device Numbers . . . . . . . . . . . . . . . . . .
List of Figures List of Figures Figure 2-1: Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9 Figure 2-2: Available Ethernet Interfaces Configurations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16 Figure 2-3: 10GbE and Management to Front Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17 Figure 2-4: 10GbE and Management to AMC . . . . . . . . . .
List of Tables List of Tables Table 1-1 Board Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 Table 2-1 USB Connector Pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 Table 2-2 Serial Interface connector Pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24 Table 2-3 Faceplate LEDs. . . . . . . . . . .
List of Tables Table 4-28 AMC connectivity details for "Intel ICH10 SATA Controller" . . . . . . . . . . . . . . . . . . . . . . . . . . 70 Table 4-29 AMC connectivity details for "Intel 82576EB NC (front/rear)" . . . . . . . . . . . . . . . . . . . . . . . . 71 Table 4-30 AMC connectivity details for "Onboard Fabric Channel 1 Switch" . . . . . . . . . . . . . . . . . . . . . . 72 Table 4-31 AMC connectivity details for "Onboard Fabric Channel 2 Switch" . . . . . . . . . . . . . . . . . . . . . .
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 AT8050 www.kontron.
Product Description 1. Product Description 1.1 Product Overview The Kontron AT8050 AdvancedTCA processor board redefines the design possibilities with a new Intel® microarchitecture processor, which offers greater efficiency and performance. The AT8050 is a single-socket design with two featurerich processor options: an Intel Xeon Quad-Core L5518 (45nm) processor; or an Intel Xeon Six-Core L5638 (32nm) processor (BIOS 3.00 and highier).
Product Description 1.3 Board Specifications Table 1-1: Board Specifications Features Description • • • Intel® Xeon® Quad-Core L5518 Processor (2.13 GHz, 8MB cache) (BIOS 3.00 and highier) or Intel® Xeon® Six-Core L5638 Processor (2 GHz, 12MB cache) Passive heatsink Virtualization Technology supported Chipset • Intel 5520 I/O Hub (IOH 36D) & Intel I/O Controller Hub (ICH10R) Bus Interface • • CPU QuickPath Interconnect delivering up to 5.
Product Description Features Description • • • • IPMI Features • • • • • • Supervisory • • • Management Controller compliant IPMI v2.0 and design to meet CP-TA v1.1 compliancy. Remote control capability (power on-off /clean shutdown/warm reset/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.
Product Description 1.4 Compliance This product conforms to the following specifications: • PICMG3.0 R3.0(Advanced TCA Base Specification) • PICMG3.1 R1.0 (Ethernet/Fiber Channel over AdvancedTCA) • AMC.0 R2.0 (Advanced Mezzaninne Card Base Specification) • AMC.1 R1.0 (Advanced Mezzaninne Card PCI-Express) • AMC.2 R1.0 (Advanced Mezzaninne Card Ethernet) • AMC.3 R1.0 (Advanced Mezzaninne CardStorage) • ACPI rev 2.0 • HPM.1 • IPMI 2.0 1.
Product Description 1.6.1.2 Serial Port Feature • One serial ports available on the RTM face plate through a RJ-45 connector. • 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 Hot Swap The RTM8050 supports hot swapping by using the switch connected to the face plate lower ejector. This switch indicates the coming hot swap action. The insertion of the RTM to a slot is always done over a non powered connector.
Product Description 1.6.2 Advanced Mezzanine Card The AT8050 has one AMC bay. Using a mezzanine allows to add storage or I/O not provided on board. 1.6.2.1 AMC Expansion The AMC slot provides an AMC.1 type 4, AMC.2 Type E2 and 4, AMC.3 Dual Port SAS.
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 2.13 2.14 2.15 Block Diagram .................................................. 9 System Core ..................................................... 10 USB 2.0 Interfaces............................................. 11 USB Flash Module.............................................. 12 Serial ATA/Serial Attached SCSI............................ 12 Update Channel ................................................
2. Board Features 2.1 Block Diagram Figure 2-1:Block Diagram &.
2.2 System Core 2.2.1 Processor • Built on 45/32 nanometer process technology. • Quad/Six core processor in 1366-land FCLGA. • On-die, 8 MB/12MB L3 shared cache • Streaming SIMD Extension 2, 3 and 4 (SSE2, SSE3 and SSE4) • Integrated 3-channel DDR3 controller, DDR3-1066 memory with ECC • Intel QuickPath interconnect links, 5.86 GT/s in each direction • Intel 64 Architecture • Enhanced Intel SpeedStep Technology • Intel Virtualization Technology • Simultaneous Multi-Threading 2.2.
• DMA Controller, Timer/Counters, Interrupt Controller • Universal Serial Bus (USB) • GPIOs • Enhanced Power Management • System Management Bus 2.0 (SMBus) 2.3 USB 2.0 Interfaces The board embeds a USB controller. This controller is compliant to USB 2.0. It provides two USB ports on the face plate and two on the RTM. Those ports can be used for external storage and for booting.
2.4 USB Flash Module The AT8050 supports Solid State Drive. It is a NAND flash disk module with a USB 2.0 interface. The module is socketed on a 2x5 header attached to the AT8050 PCB.
temperature). The SAS controller can be on a AMC carrier blade connected to the AT8050 through x4 PCIExpress in the Update Channel Interface. See the AMC carrier blade's specification for more information about its storage capabilities and restrictions. 2.5.2 Serial ATA (ICH10R) SATA ports are locally available from the AT8050. One ICH10R SATA port is connected to the AMC Port 2 through a multiplexer.
2.9 Ethernet Interfaces 2.9.1 Fabric Interface The fabric interface can be either 10GbE or 1GbE. An E-Keying configuration is required to properly route the desired connection speed. The AT8050 has boot from LAN capability (PXE) or iSCSI support on these ports. Enable the option from the BIOS Setup Program. Please refer to Section 5.1, AMI BIOS Set-up Program. 2.9.1.1 10GbE (i82599EB) connectivity : The AT8050 has one dual port 10GbE controller (i82599EB) connected to the Fabric Interface.
2.9.2 Base Interface An i82576EB dual port 1Gb Ethernet controller is features on the Base Interface. Boot from LAN capability (PXE) or iSCSI is supported on these ports. Enable the option from the BIOS Setup Program. Please refer to Section 5.1, AMI BIOS Set-up Program. Signal Path: The two ports are available on the Base Interface. BIOS Settings: Advanced --> Expansion ROM Configuration 2.9.
2.9.4 Ethernet Interfaces Configuration Many Ethernet configurations are available with the crosspoint switch. Below is a block diagram that shows all the supported crosspoint switch configurations. Figure 2-2:Available Ethernet Interfaces Configurations GbE, 10 GbE RTM 10 GbE only GbE only Ports0-1 0-1 Ports AMC Ports 8-11 Ports 0-1 Possible Path Fabric Interface 82599EB 10 GbE Ch.11&&22 Ch. Possible Path MGNT 82576EB Front 2x RJ-45 Base Interface BI 82576EB Ch.11&&22 Ch.
2.9.4.
2.9.4.2 10GbE and Management to AMC Configuration Figure 2-4: 10GbE and Management to AMC 10 GbE GbE RTM Ports0-1 0-1 Ports AMC Ports 8, 10 Ports 9, 11 Ports 0-1 Fabric Interface Channel 1 82599EB 10 GbE Output 1 Ports 0-3 2 Output 2 1 MGNT 82576EB Ports 0-3 Base Interface Channel 1 Front 2x RJ-45 BI 82576EB Fabric Interface Channel 2 Copper Base Interface Channel 2 BIOS Settings: 1)System Management --> OEM E-Keying Configuration --> Management LAN Setting: AMC.
2.9.4.
2.9.4.
2.9.4.
2.9.4.
2.9.4.
2.10 Serial Interfaces The AT8050 uses serial interfaces to manage the CPU. Since no video interface is provided on board, the only way to get visual information on the board is the serial console. 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.
•Fully compliant PCI-Express hot plug support •Provision for telecom clocks on TCLKA, B, C, D •SAS link from RTM connector •Compliant to AMC.0, AMC.1, AMC.2 and AMC.3 •Serial Port (AMC port 15) •50W maximum power budget 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-Express modules that use the reference clock on FCLKA.
2.12 FPGA The FPGA has many functions. One of them is to act as a companion chip to the IPMC. The states of all the critical signals controlled by the IPMC are memorized in the FPGA and are preserved while the IPMC firmware is being updated. The FPGA is a RAM-based chip that is preloaded from a separate flash memory at power-up. Two such flash memory devices are provided; one that can only be programmed in factory and the other one that can be updated in the field.
2.15 LEDs Description The following table lists the LED on the faceplate (not counting the RJ-45 Ethernet LED).
Figure 2-10: Faceplate LEDs Out Of Service LED Healthy LED Link / Act Off: No link Green: Link Blinking: Activity Speed Off: No link Amber: 10/100Mb Green: 1000 Mb Base Interface: Link / Act Off: No link Green: 1Gb Link Amber: 10/100Mb Link Blinking: Activity Hard Disk Act (Local / Remote) Off: No activity Blinking: Activity B.I. Fabric Interface: Link / Act Off: No link Green: 10Gb Link Amber: 1Gb Link Blinking: Activity F.I.
Chapter 3 Installing the Board 3.1 3.2 3.3 3.4 3.5 Setting Jumpers................................................ 30 Processor......................................................... 31 Memory ........................................................... 31 Onboard Connectors and Headers ......................... 34 Board Hot Swap and Installation .......................... 35 www.kontron.
3. Installing the Board 3.1 Setting Jumpers 3.1.
3.2 Processor This product ships with the CPUs and a thermal solution installed. The thermal solution is custom and critical for passive cooling. Cooling performance can greatly be affected if manipulation is not handled within Kontron facility. Do not attempt any heat sink removal. 3.3 Memory The AT8050 has 3 memory channels connected to the main CPU. There are 2 DIMMs per memory channels for a total of 6. The AT8050 accepts DDR3, VLP(very low-profile) (0.72 inch; 18.29mm), 1.
3.3.1 Memory List and Characteristics Table 3-2:Approved Memory List Manufacturer Part Number Description Company VL33B5663F-F8M DIMM DDR3-1066 2GB256M*72 REG ECC 0.70" VIRTIUM SG572568FH8P6LC2 DIMM DDR3-1066 2GB256M*72 REG ECC 0.70" Smart modular VL33B5168F-F8M DIMM_DDR3-1066_4GB_512M*72_REG_ECC_0.70" VIRTIUM VL33B5168F-F8S DIMM_DDR3-1066_4GB_512M*72_REG_ECC_0.70" VIRTIUM VL33B5663F-F8S-H DIMM DDR3-1066 2GB256M*72 REG ECC 0.
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 mate 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 Hardware Management 4.1 Hardware Management Overview .......................... 38 4.2 Hardware Management Functionality .................... 38 4.3 IPMC ............................................................... 40 www.kontron.
4. Hardware Management 4.1 Hardware Management Overview The purpose of the hardware management system is to monitor, control, insure 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.
4.2.1.2 IPMC - System Manager Interface The Section 24 of [IPMI 2.0] describes how IPMI messages can be sent to and from the IPMC encapsulated in RMCP (Remote Management Control Protocol) packets datagrams. This capability is also referred to as “IPMI over LAN” (IOL). IPMI also defines the associated LAN-specific configuration interfaces for setting things such as IP addresses other options, as well as commands for discovering IPMI-based systems.
4.3 IPMC 4.3.1 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 4-1: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 Get Message Flags 224 App 31h M O/M Yes 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.
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 4-4: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 4-6: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 No Arm PEF Postpone Timer 30.2 S/E 11h M M No Set PEF Configuration Parameters 30.3 S/E 12h M M No Get PEF Configuration Parameters 30.4 S/E 13h M M No Set Last Processed Event ID 30.5 S/E 14h M M No Get Last Processed Event ID 30.
Table 4-8: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 4-9: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 4-11: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 4-16: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 4.3.
4.3.2.1 IPMC Sensors Table 4-17: IPMC Sensors ID Sensor Name Sensor Class Description (Sensor Type, Event trigger) 0 FRU0 Hot Swap 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.
ID Sensor Name Sensor Class Description (Sensor Type, Event trigger) 12 Temp ICH Threshold I/O Controller Hub (ICH) Chipset Temperature (Degrees) Sensor type = 01h temperature Event Reading type code = 01h threshold based see IPMI v1.5 section 29.13.3 for threshold based event Threshold Management Ethernet Controller Temperature (Degrees) Sensor type = 01h temperature Event Reading type code = 01h threshold based see IPMI v1.5 section 29.13.
ID Sensor Name Sensor Class Description (Sensor Type, Event trigger) 26 AMC Power Threshold FRU 1 (AMC B1) Power consumption in watts Sensor type = 0Bh Other Unit-Based Sensor (Watt) Event Reading type code = 01h threshold base see IPMI v1.5 section 29.13.3 for threshold based event Threshold FRU 2 (RTM) + FRU 3 (RTM's disk) Power consumption in watts Sensor type = 0Bh Other Unit-Based Sensor (Watt) Event Reading type code = 01h threshold base see IPMI v1.5 section 29.13.
ID Sensor Name Sensor Class Description (Sensor Type, Event trigger) 40 Vcc +1.1V Threshold Voltage on board 1.1V payload power supply (Volts) Sensor type = 02h voltage Event Reading type code = 01h threshold based see IPMI v1.5 section 29.13.3 for threshold based event Threshold Voltage on board 1.2V payload power supply (Volts) Sensor type = 02h voltage Event Reading type code = 01h threshold based see IPMI v1.5 section 29.13.3 for threshold based event Threshold Voltage on board 1.
ID Sensor Name Sensor Class Description (Sensor Type, Event trigger) 55 DIMM#4 SPD Pres Discrete DIMM#4 Temperature Sensor Presence Sensor type = 25h Entity Presence, Event Reading type code = 6Fh Sensor specific, only offset 0,1 are used, -see IPMI v1.5 table 36.
ID Sensor Name Sensor Class Description (Sensor Type, Event trigger) 72 Memory Discrete Memory Status Sensor type = 0Ch Memory Event Reading type code = 6Fh Sensor specific, offset 0,1,3,4,5 are used, -see IPMI v1.5 table 36.3, Sensor type code 0Ch for sensor definition 73 CMOS Mem Size Discrete POST Memory Resize, Indicates if CMOS memory size if wrong Sensor type = 0Eh, POST Memory Resize Event Reading type code = 03h Digital Discrete offset 0,1 are used, -see IPMI v1.5 table 36.
ID Sensor Name Sensor Class Description (Sensor Type, Event trigger) 87 FRU Over Icc Discrete FRU Over Current Sensor Sensor type = CBh OEM (Kontron OEM FRU Over Current) Event Reading type code = 03h Digital Discrete offset 0,1 are used, -see OEM table, Sensor type code CBh (Kontron OEM FRU Overcurrent) for sensor definition Discrete FRU Error during external FRU Sensor discovery Sensor type = CCh OEM (Kontron OEM FRU sensor error) Event Reading type code = 03h Digital Discrete offset 0,1 are used
ID Sensor Name Sensor Class Description (Sensor Type, Event trigger) 100 ME Availability Discrete Provides status on the chipset Management Engine Sensor type = 28h Management Subsystem Health Event Reading type code = 0Ah Generic Discrete, offset 2,6,8 are used see IPMI v1.5 table 36.
IPMI sensor ID Sensor Name 26 AMC Power 27 RTM Power 28 Vcore Power 29 Vddq Power 30 Vcc Mez Hold-UP 31 Vcc +1.0V SUS 32 Vcc +1.2V SUS 33 Vcc +1.8V SUS 34 Vcc +3.3V SUS 35 Vcc +5V SUS 36 Vcc +12V SUS 37 Vcc Vtt 38 Vcc VttDdr 39 Vcc Vcore 40 Vcc +1.1V 41 Vcc +1.2V 42 Vcc +1.5V 43 Vcc +1.8V 44 Vcc +3.3V 45 Vcc +5V 46 Vcc +2.5V REF 47 Vcc +1.
IPMI sensor ID Sensor Name 75 CPU Status 76 Bios Flash 0 77 Bios Flash 1 79 IPMI Watchdog 4.3.3 FRU Information Table 4-19:Board Information Area Board Information Area Field Description Value (hex) Format Version 0x01 Board Area Length *Calculated Language code 0x19 Manufacturing Date / Time *Based on mfg.
Table 4-20:Product Information Area Product Information Area Field Description Value (hex) Format Version 0x01 Product Area Length *Calculated Language code 0x19 Product Manufacturer type/length *Calculated Product Manufacturer "KONTRON " Product Name type/ length *Calculated Product Name “AT8050” Product Part Number type/length *Calculated Product Part Number T5007AA#_R-ZZZZZ (R= Board revision) (Z=config.
Table 4-21: 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 4-23: 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 4.3.3.3 AMC Carrier Point-To-Point Connectivity Information As defined in the AMC.
Field Value Manufacturer ID 00315Ah (PICMG Record ID) PICMG Record ID 18h (Carrier Point-To-Point Connectivity Record) Record Format Version 00h Point-To-Point AMC Resource Descriptor Local Resource ID 85h ->AMC Site 5 (AMC B1) Point-To-Point Port Count Dh Point-to-Point Port Descriptor 000003h Reserved (Bits 23-18) 0h Local Port (Bits 13-17) 0h Remote Port (Bit 12-8) 0h Remote Resource ID (Bits 7-0) 03h ->Carrier, Device 3 ( Intel 82576EB NC (front/rear) ) Point-to-Point Port Descript
Field Value Local Port (Bits 13-17) 5h Remote Port (Bit 12-8) 1h Remote Resource ID (Bits 7-0) 01h ->Carrier, Device 1 (Intel IOH PCI-Express Root Complex Port 7) Point-to-Point Port Descriptor 00c201h Reserved (Bits 23-18) 0h Local Port (Bits 13-17) 6h Remote Port (Bit 12-8) 2h Remote Resource ID (Bits 7-0) 01h ->Carrier, Device 1 (Intel IOH PCI-Express Root Complex Port 7) Point-to-Point Port Descriptor 00e301h Reserved (Bits 23-18) 0h Local Port (Bits 13-17) 7h Remote Port (Bit 12
Field Value Remote Resource ID (Bits 7-0) 07h -> Virtual On-Carrier Device 7 (RTM) Point-To-Point AMC Resource Descriptor Local Resource ID 07h -> Virtual On-Carrier Device 7 (RTM) Point-To-Point Port Count Bh Point-to-Point Port Descriptor 000003h Reserved (Bits 23-18) 0h Local Port (Bits 13-17) 0h Remote Port (Bit 12-8) 0h Remote Resource ID (Bits 7-0) 03h ->Carrier, Device 3 ( Intel 82576EB NC (front/rear) ) Point-to-Point Port Descriptor 002103h Reserved (Bits 23-18) 0h Local Port
Field Value Remote Port (Bit 12-8) 2h Remote Resource ID (Bits 7-0) 00h ->Carrier, Device 0 (Intel IOH PCI-Express Root Complex Port 3) Point-to-Point Port Descriptor 00e300h Reserved (Bits 23-18) 0h Local Port (Bits 13-17) 7h Remote Port (Bit 12-8) 3h Remote Resource ID (Bits 7-0) 00h ->Carrier, Device 0 (Intel IOH PCI-Express Root Complex Port 3) Point-to-Point Port Descriptor 018102h Reserved (Bits 23-18) 0h Local Port (Bits 13-17) Ch Remote Port (Bit 12-8) 1h Remote Resource ID (
Field Value OEM GUID Count 0h Record Type/Connected-device ID 00h(Carrier,Device 0->Intel IOH PCI-Express Root Complex Port 3) AMC Channel Descriptor Count 01h AMC Channel Descriptor F18820h Reserved (Bits 23-20) 0Fh Lane 3 Port Number (Bits 19-15) 03h Lane 2 Port Number (Bits 14-10) 02h Lane 1 Port Number (Bits 9-5) 01h Lane 0 Port Number (Bits 4-0) 00h AMC Link Descriptor FE00302f00h Reserved (Bits 39-34) 3Fh AMC Asymmetric Match (Bits 33-32) 02h (Provides a Secondary PCI Express
Table 4-27:AMC connectivity details for "Intel IOH PCI-Express Root Complex Port 8" 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 19h (AMC Point-To-Point Connectivity Record) Record Format Version 00h OEM GUID Count 0h Record Type/Connected-device ID 01h(Carrier,Device 0->Intel IOH PCI-Express Root Complex Port 8) AMC Channel Descriptor Count 01h AMC Ch
Field Value AMC Asymmetric Match (Bits 33-32) 02h (Provides a Secondary PCI Express Port) Link Grouping ID (Bits 31-24) 00h (Single-Channel Link) AMC Link Type Extension (Bits 23-20) 00h (Gen1 NO SSC) AMC Link Type (Bits 19-12) 02h (AMC.
Table 4-28: AMC connectivity details for "Intel ICH10 SATA Controller" 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 19h (AMC Point-To-Point Connectivity Record) Record Format Version 00h OEM GUID Count 0h Record Type/Connected-device ID 02h(Carrier,Device 2->Intel ICH10 SATA Controller) AMC Channel Descriptor Count 02h AMC Channel Descriptor FFFFE0h
Table 4-29:AMC connectivity details for "Intel 82576EB NC (front/rear)" 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 19h (AMC Point-To-Point Connectivity Record) Record Format Version 00h OEM GUID Count 0h Record Type/Connected-device ID 03h(Carrier,Device 3->Intel 82576EB NC (front/rear)) AMC Channel Descriptor Count 02h AMC Channel Descriptor FFFFE0
The following table gives AMC connectivity details for "Onboard Fabric Channel 1 Switch" (On-Carrier Device 4).
The following table gives AMC connectivity details for "Onboard Fabric Channel 2 Switch" (On-Carrier Device 5).
Field Value Link Grouping ID (Bits 31-24) 00h (Single-Channel Link) AMC Link Type Extension (Bits 23-20) 00h (1000 BaseBX) AMC Link Type (Bits 19-12) 05h (AMC.
4.3.4 Clock E-Keying Information The clock ekeying is used to find and activate matching clock pairs to/from available clock sources and clock receivers. The board has a clock generator used as the (PCIe) FCLKA of AMC B1. Additionally, clocks from/to the ATCA backplane can be driven to/from the AMC B1 site using an on-carrier clock multiplexer. The following table gives the clock resources id assignment mapping.
Field Value Description Clock Resource Id 0x01 7:6 00b = On-Carrier device 5:4 0h (reserved) 3:0 On-Carrier Device 1( Clock Mux ) Clock Point-to-Point Connection Count 0x0A Point-to-Point Clock Connection descriptor Local Clock Id 0x00 On-Carrier Clock Id 0 Remote Clock Id 0x01 CLK1A Remote Clock Resource Id 0x80 7:6 10b = Backplane clock 5:4 0h (reserved) 3:0 0h Local Clock Id 0x01 On-Carrier Clock Id 1 Remote Clock Id 0x02 CLK1B Remote Clock Resource Id 0x80 7:6 10b = Backplane cl
Field Value Description Local Clock Id 0x07 On-Carrier Clock Id 7 Remote Clock Id 0x03 TCLKC Remote Clock Resource Id 0x45 7:6 01b = AMC 5:4 0h (reserved) 3:0 AMC Site Number ( 5 = AMC B1) Local Clock Id 0x08 On-Carrier Clock Id 8 Remote Clock Id 0x04 TCLKB Remote Clock Resource Id 0x45 7:6 01b = AMC 5:4 0h (reserved) 3:0 AMC Site Number ( 5 = AMC B1) Local Clock Id 0x09 On-Carrier Clock Id 9 Remote Clock Id 0x04 TCLKD Remote Clock Resource Id 0x45 7:6 01b = AMC 5:4 0h (reserved
Field Value Description Family 0x02 Reserved for PCI Express Accuracy Level 0x0E Gen 2 Capable PCIe Clock Frequency 0x05F5E100 As defined in AMC.1 R2.0 Min Clock 0x05F5E100 As defined in AMC.1 R2.0 Max Clock 0x05F5E100 As defined in AMC.1 R2.0 The following table gives AMC clock connectivity details for "Onboard Clock Multiplexer" (On-Carrier Device 1).
Field Value Dependent ClockId 6 Features 0x02 Dependent ClockId 7 Description 7:2 0h (reserved) [1] 1b = Connected through PLL [0] 0b = Clock Receiver Direct clock Descriptor none Clock Id 0x02 Receiver input from CLK2A Clock Control 0x01 7:1 0h (reserved) [0] 1b = Activated by Application Indirect Clock Descriptors Count(m) 0x02 Direct Clock Descriptors Count(n) 0x00 Indirect clock Descriptor Features 0x02 Dependent ClockId 6 Features 0x02 Dependent ClockId 7 7:2 0h (reserved)
Field Value Direct Clock Descriptors Count(n) 0x00 Description Indirect clock Descriptor Features 0x01 Dependent ClockId 8 Features 0x01 Dependent ClockId 9 7:2 0h (reserved) [1] 0b = Not Connected through PLL [0] 1b = Clock Source 7:2 0h (reserved) [1] 0b = Not Connected through PLL [0] 1b = Clock Source Direct clock Descriptor none Clock Id 0x06 Source output to TCLKA Clock Control 0x01 7:1 0h (reserved) [0] 1b = Activated by Application Indirect Clock Descriptors Count(m) 0x04 Dir
Field Value Description Clock Id 0x08 Receiver input from TCLKB Clock Control 0x01 7:1 0h (reserved) [0] 1b = Activated by Application Indirect Clock Descriptors Count(m) 0x02 Direct Clock Descriptors Count(n) 0x00 Indirect clock Descriptor Features 0x02 7:2 0h (reserved) [1] 1b = Connected through PLL [0] 0b = Clock Receiver Dependent ClockId 4 4 Features 0x02 7:2 0h (reserved) [1] 1b = Connected through PLL [0] 0b = Clock Receiver Dependent ClockId 5 Direct clock Descriptor none
4.3.5 Component Upgrade Support Many components can be updated through the IPMC. Most of them (IPMC itself, FPGA and BIOS) are updated using the HPM.1 Hardware Platform Management IPM Controller Firmware Upgrade Specification revision 1.0. Kontron's IPMC firmware already complies to PICMG HPM.1 R1.0. HPM commands are available from any of the MC messaging interfaces. The images of the different components can be packaged in the same HPM image (They can also be separated).
Chapter 5 Chapter 5 Software Setup 5.1 AMI BIOS Setup Program..................................... 84 5.2 Boot Utilities.................................................... 113 5.3 Console Redirection (VT100 Mode)........................ 114 83 AT8050 www.kontron.
Software Setup 5. Software Setup 5.1 AMI BIOS Setup Program All relevant information for operating the board and connected peripherals is stored in the CMOS memory backed-up by a supercap or in the main BIOS flash and EEPROM. The latest is the default configuration. 5.1.1 Accessing the BIOS Setup Utility The system BIOS (Basic Input Output System) provides an interface between the operating system and the hardware of the AT8050.
Software Setup The main menu of the AMI BIOS CMOS Setup Utility appears on the screen.
Software Setup 5.1.2 Menu Bar The Menu Bar at the top of the window lists these selections: Menu Selection Description Main Use this menu for basic system configuration. Advanced Use this menu to set the Advanced Features available on your system. Security Use this menu to configure Security features. Boot Use this menu to determine the booting device order. System Management Use this menu to set and view the System Managment on your system. Exit Use this menu to choose Exits option.
Software Setup 5.1.2.3 General Help Windows Pressing on any menu brings up the General Help window that describes the legend keys and their alternates: General Help ←→ Select Screen +Change Option/Field PGDN Next Page HOME Go to Top of Screen F2/F3 Change Colors F9 Load Defaults F10 Save and Exit ↑↓ Enter PGUP END F7 ESC Select Item Go to Sub Screen Previous Page Go to Bottom of Screen Discard Changes Exit [OK] 5.1.3 Main Menu Feature Option Description Help text BIOS Version 8.00.
Software Setup 5.1.3.1 Memory Size Configuration menu Feature Option Description Help text Channel 0, DIMM 0 Memory Size X GB Displays Channel 0, DIMM 0 memory size. AT8050: DIMM electrically farthest to CPU (filled first). DIMMs within a channel must be populated starting with the DIMMs farthest from the processor in a "fill-farthest" approach. N/A, display only. Channel 0, DIMM 1 Memory Size X GB Displays Channel 0, DIMM 1 memory size. AT8050: DIMM electrically closest to CPU (filled last).
Software Setup 5.1.4.1 Advanced Processor Configuration sub-menu Feature Option Description Help text Manufacturer Display Show information about the CPU N/A Frequency Display Show frequency of the CPU N/A Cache L1 Display Show amount of L1 cache N/A Cache L2 Display Show amount of L2 cache N/A Cache L3 Display Show amount of L3 cache N/A Logical Processor Display Show total of processor including HT.
Software Setup 5.1.4.2 ACPI Configuration sub-menu Feature Option Description Help text ACPI Version Features V3.0 V2.0 V1.0 Support for 64-bit addressing for ACPI System Description Tables in ACPI 3.0, Only 32 bit for others description tables. Enable RSDP pointers to 64-bit Fixed System Description Tables. Different ACPI version has some addition. ACPI APIC Support Enabled Disabled Support for ACPI APIC table pointer to Root System Description Table, RSDT pointer list can be enabled/disabled.
Software Setup 5.1.4.3.1 SATA Port 0 (PM) Configuration sub-menu Feature Option Description Help text Device N/A Display the device type (Hard disk). Display only Vendor N/A Display the vendor string of the disk. Display only Size N/A Display the size of the disk. Display only Ultra DMA N/A Display the current speed of the drive. Display only S.M.A.R.T. N/A Display the status of the Self-Monitoring, Analysis, and Reporting Technology.
Software Setup 5.1.4.3.4 Feature AHCI Port0 AHCI Port1 AHCI Port2 AHCI Configuration sub-menu Option N/A N/A N/A Description Help text Selects sub-menu. While entering setup, BIOS auto detects the presence of IDE devices. This displays the status of auto detection of IDE devices. Selects sub-menu. While entering setup, BIOS auto detects the presence of IDE devices. This displays the status of auto detection of IDE devices. Selects sub-menu.
Software Setup 5.1.4.3.4.3AHCI Port2 Configuration sub-menu Feature Option Description Help text Device: N/A Show device type N/A Vendor: N/A Show HDD name and brand N/A Size N/A Show HDD size N/A SATA Port2 Auto Not Installed When using "Not Installed" the controller will disable the device. Select the type of device connected to the system. 5.1.4.
Software Setup 5.1.4.5 Expansion ROM Configuration sub-menu Feature Description Help text The base interface PXE Expansion ROM can be enabled/disabled. If disabled, remote LAN boot via base interface is not available to boot the system. Disabled: Base interface PXE expansion ROM not used. If disabled, remote LAN boot via BI is not available to boot the system! ISCSI: Initializes iSCSI expansion ROM. PXE: Initializes base interface PXE expansion ROM.
Software Setup 5.1.4.6 PCI Express Configuration sub-menu Feature RTM Hot Plug Support Option Enabled Disabled Description Help text RTM hot plug support can be enabled/ disabled. Enabled: Hot Plug for RTM available. Disabled: Hot Plug for RTM not available. Note: Need Power Cycle with any changes. AMC Slot Hot Plug Support Enabled Disabled AMC slot hot plug support can be enabled/ disabled. Enabled: Hot Plug for AMC slot available. Disabled: Hot Plug for AMC slot not available.
Software Setup 5.1.4.7 USB Configuration sub-menu Feature Option Description Help text USB 2.0 Controller Mode FullSpeed HiSpeed Configures the USB 2.0 Controller in HiSpeed (480Mbps) or FullSpeed (12Mbps). FullSpeed: 12 Mbps HiSpeed: 480 Mbps BIOS EHCI Hand-Off Enabled Disabled A workaround for OSes without EHCI hand-off support can be enabled/disabled. The EHCI ownership change should be claimed by an EHCI driver. Enabled: EHCI hand-off support enabled.
Software Setup 5.1.4.9.1 CPU Bridge Configuration sub-menu Feature Option Description Help text CPU Revision N/A Display CPU revision ID. Show only Current QPI Frequency N/A Display Current QPI frequency speed in GT/s Show only Current Memory Frequency N/A Display current memory speed (DDR-3) in MHz Show only DDR3 2x Refresh Rate 5.1.4.9.2 Allows override selection of the DDR3 refresh rate for normal operation. Enabled use the 2x refresh rate for high temperature.
Software Setup 5.1.5 Security Menu Feature Option Description Help text Supervisor Password Installed Not Installed Indicates the status of the Supervisor Password. Indicates the status of the supervisor password. User Password Installed Not Installed Indicates the status of the User Password. Indicates the status of the user password. Set Supervisor Password Enter The supervisor password can be installed or changed. Install or change the supervisor password.
Software Setup 5.1.6 Boot Menu Feature Option Description Help text Boot Settings Configuration N/A Selects sub-menu. Selects boot settings configuration. Boot Device Priority N/A Selects sub-menu. Selects boot device priority. Hard Disk Drives N/A Selects sub-menu. Lists available hard disk drives in priority order. Removable Drives N/A Selects sub-menu. Lists available removable disk drives in priority CD/DVD Drives N/A Selects sub-menu.
Software Setup 5.1.6.1 Feature Boot Settings Configuration sub-menu Option Description Help text Enabled Disabled Allows/denies skipping the memory tests during a cold boot. Quick Boot enabled has no impact on a warm reset boot since then memory is not initialized during a warm reset. Enabled: Allows skipping the memory tests during a cold boot. Disabled: Allows the extended memory test to be executed during a cold boot. Enabled Disabled If disabled, the normal boot path is used.
Software Setup 5.1.6.3 Feature 1st Drive Hard Disk Drives sub-menu Option Varies Description Help text Specifies the boot priority of the available Hard Disk devices. Specifies the boot priority of the available devices. Select the boot device with UpArrow or DownArrow key. Press Enter to set the selection as the intended boot device. … Nth Drive 5.1.6.4 Feature 1st Drive Varies Specifies the boot priority of the available Hard Disk devices.
Software Setup 5.1.6.5 Feature 1st Drive CD/DVD Drives sub-menu Option Varies Description Help text Specifies the boot priority of the available CD or DVD devices. Specifies the boot priority of the available devices. Select the boot device with UpArrow or DownArrow key. Press Enter to set the selection as the intended boot device. … Nth Drive 5.1.6.6 Feature 1st Drive Varies Specifies the boot priority of the available CD or DVD devices. Specifies the boot priority of the available devices.
Software Setup 5.1.6.7 Feature 1st Drive Network Disk Drives sub-menu Option Varies Description Help text Specifies the boot priority of the available Network Disk devices. Specifies the boot priority of the available devices. Select the boot device with UpArrow or DownArrow key. Press Enter to set the selection as the intended boot device. … Nth Drive 5.1.6.8 Feature 1st Drive Varies Specifies the boot priority of the available Network Disk devices.
Software Setup 5.1.7 System Management Menu Feature Option Description Help text Remote Access Configuration N/A Selects sub-menu. N/A Set LAN Configuration N/A Selects sub-menu. IPMI over LAN (and Serial Over LAN). Watchdog Timers N/A Selects sub-menu. N/A System Information N/A Selects sub-menu. N/A Managed FRU Deactivation Policies N/A Selects sub-menu. N/A OEM e-keying Configuration N/A Selects sub-menu. N/A 5.1.7.
Software Setup 5.1.7.2 Feature Set LAN Configuration sub-menu Option Description Help text Channel Number 01 or 02 Each interface has a channel number that is used when configuring the channel and for routing messages between channels. Channels 01 and 02 on Base interface are available. The channel number assignments are described in IPMI Specification 2.0, table 6-1. Enter Channel Number for SET LAN Config Command. Proper value 01 or 02.
Software Setup 5.1.7.4 MAC Address Configuration sub-menu Feature Option Description Help text LAN Parameter Selector 05 The parameter selector assignments are described in IPMI Specification 2.0, table 234. Selector #05: MAC Address. N/A, display only. Channel Number 01 or 02 Each interface has a channel number that is used when configuring the channel and for routing messages between channels. Channels 01 and 02 on Base interface are available.
Software Setup 5.1.7.6 Gateway Address Configuration sub-menu Feature Option Description Help text LAN Parameter Selector 12 The parameter selector assignments are described in IPMI Specification 2.0, table 233. Selector #12: Default Gateway Address. N/A, display only. Channel Number 01 or 02 Each interface has a channel number that is used when configuring the channel and for routing messages between channels. Channels 01 and 02 on Base interface are available.
Software Setup 5.1.7.8 VLAN Priority Configuration Feature Option Description Help text LAN Parameter Selector 21 The parameter selector assignments are described in IPMI Specification 2.0, table 234. Selector #21: 802.1q VLAN Priority. N/A, display only. Channel Number 01 or 02 Each interface has a channel number that is used when configuring the channel and for routing messages between channels. Channels 01 and 02 on Base interface are available.
Software Setup 5.1.7.10 System Information sub-menu Feature Option Description Help text Board Product Name AT8050 Displays the CPU blade product name. N/A, display only. Board Vendor Kontron Displays CPU blade vendor. N/A, display only. Board Serial Number Varies Displays the CPU blade serial number. N/A, display only. Board Part Number Varies Displays the CPU blade part number. N/A, display only. Chassis Slot 1..16 Displays the current chassis slot number for the CPU blade.
Software Setup 5.1.7.11 IPMI Device and FW Info sub-menu Feature Option Description Help text IPMI Version 2.0 Displays IPMI Specification version. N/A, display only. IPMI Device ID Varies Displays IPMI device ID. OEM defined, IPMI Device ID has been assigned like this: Renesas H8S2148 = 1 Kontron PMM = 2 Renesas H8S2145 = 3 Renesas H8S2166 = 4 Renesas H8S2138 = 5 Renesas H8S2168 = 6 Renesas H8S2472 = 7 N/A, display only. IPMI Device Revision Varies Displays IPMI device revision.
Software Setup 5.1.7.12 Feature OEM e-keying Configuration sub-menu Option Description Help text PCI Express SSC Setting Enabled Disabled PCI Express Spread Spectrum Clock Mode support can be SSC/Non-SSC. Select the PCI Express Spread Spectrum Clock "SSC" Mode. Warning! Re-insert the blade after changing the PCI Express Clock Mode. This is used for AMC.1 module ekeying. PCI Express SSC State Enabled Disabled Display actual AMC PCI Express Spread Spectrum Clock Mode. N/A Upd.
Software Setup Feature Option Description Help text RTM Serial Port State CPU COM2 AMC P15 Display actual RTM Serial Port Routing. N/A ICH SATA P0 Setting Disabled AMC Route ICH SATA P0 to AMC or disable Select AMC to connect a SATA disk in the AMC to the ICH controller. Select Disabled to route AMC to the RTM SAS controller. Warning! Reinsert the blade after changing settings. ICH SATA P0 State Disabled AMC Display actual ICH SATA P0 Routing.
Software Setup 5.1.8 Exit Menu Feature Option Description Help text Exit Saving Changes N/A Saves modified settings into non-volatile memory and reboots the system. Exit system setup saving changes to non-volatile memory. Exit Discarding Changes N/A Discards modifications to settings and reverts to the state when Setup was entered, then complete remaining POST. Exit system setup without saving changes. Load Setup Defaults N/A Loads the factory default settings. Load default settings.
Software Setup 4 BIOS mention: "Please wait, invoking SAS Configuration Utility..." "***LSI Corp Configuration Utility will load after initialization***" 5 Select "SCSI:LSI MPI Boot Support" in Popup menu The menu is now available. 5.2.4 BOOT Menu POP-UP The BOOT Menu POP-UP expands your boot options by letting you choose your boot device, which could be a hard disk, floppy disk, CDROM, Flash Disk, SCSI or LAN.
Software Setup 5.3.3 VT-UTF8 Keystroke Mapping The following "escape sequences" are defined in the "Conventions for Keys Not in VT100 Terminal Definition and ASCII Character Set" section of "Standardizing Out-of-Band Management Console Output and Terminal Emulation (VT-UTF8 and VT100+)",available for download at microsoft.com.
Chapter 6 Thermal Considerations 6.1 Thermal Monitoring ........................................... 117 116 AT8050 www.kontron.
Thermal Considerations 6. Thermal Considerations The following chapter provide system integrators with the necessary information to satisfy thermal and airflow requirements when using the AT8050. 6.1 Thermal Monitoring To ensure optimal operation and long-term reliability of the AT8050, all on-board components must remain within the maximum temperature specifications. The most critical components on the AT8050 are the processor, 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 AT8050 (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. Moreover, airflow blockers offer a higher impedance to forced air than typical board, who tend to let more air into slots filled with AT8050 or other ATCA boards. 6.1.
Thermal Considerations Pressure (Pa) Figure 6-2:Pressure Curve in Metric 104,0 94,0 84,0 74,0 64,0 54,0 44,0 34,0 24,0 14,0 4,0 15,00 25,00 35,00 45,00 55,00 65,00 75,00 85,00 95,00 Airflow (m³/h) 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. Figure 6-3:CPU Thermal Profile 120 AT8050 www.kontron.
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) See Note 2 SAS BIOS (if activated)(18KB at runtime) 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 1 : LAN BIOS address may vary Note2: SAS BIOS address may vary. Size is only 2KB if no device.
A.
A.3 PCI IDSEL and Device Numbers BUS# DEV# V. ID D. ID Funct.
BUS# DEV# V. ID D. ID Funct.
A.4 Telco Clock Clock Circuit Overview A-5 AT8050 www.kontron.
A.4.1 Register Description A.4.1.1 Offset 00h Base + 00h TelClock0: Backplane Clock Status, PLL Reference & Interface Selection Action D7 D6 D6 D4 D3 D2 D1 D0 Read IFSEL MAN SEL_REFA BP_REF CLK2B CLK2A CLK1B CLK1A Write IFSEL* MAN SEL_REFM BP_REF NU NU NU NU Reset 0 0 0 0 NA NA NA NA Name Description IFSEL Interface selection. This bit is always writable from the IPMC side but on the LPC side, the CPU can only read it.
A.4.1.2 Offset 01h Base + 01h TelClock1: PLL Control & Status Action D7 D6 D6 D4 D3 D2 D1 D0 Read LOCK FAIL1 FAIL0 0 TIE_CLR# MODE RESET OOR Write NU NU NU NU TIE_CLR# MODE RESET OOR Reset NA NA NA NA 1 1 0 0 Name Description LOCK PLL lock status. 1: PLL locked 0: PLL not locked (PLL in holdover or free running) FAIL1 REF1 (CLK1B or CLK2B according to BP_REF) failed with current OOR setting. Same as FAIL0 but for REF1.
A.4.1.3 Offset 02h Base + 02h TelClock2: AMCs Clock Enables & Frequency Selection Action D7 D6 D6 D4 D3 D2 D1 D0 Read B2TCF B2TAF B2TCEN B2TAEN B1TCF B1TAF B1TCEN B1TAEN Write B2TCF B2TAF B2TCEN B2TAEN B1TCF B1TAF B1TCEN B1TAEN Reset 0 0 0* 0* 0 0 0* 0* Name Description B2* Reserved for AMC-B2 (for board that have two AMCs). B1TCF AMC-B1 TCLK Frequency 1: use 8kHz frame pulse from PLL 0: use 19.
A.4.1.5 Offset 04h Base + 04h TelClock4: Backplane CLK3A/B configuration (optional) Action D7 D6 D6 D4 D3 D2 D1 D0 Read 0 0 0 0 CLK3AMC CLK3FRQ CLK3BE CLK3AE Write NU NU NU NU CLK3AMC CLK3FRQ CLK3BE CLK3AE Reset NA NA NA NA 0 0 0 0 Name Description CLK3AMC Reserved for selection of the AMC that provides the clock for backplane CLK3A/B. Applicable tot boards with two AMCs. 0: use AMC-B1 1: use AMC-B2 CLK3FRQ Backplane CLK3A frequency.
A.4.1.6 Offset 05h Base + 05h TelClock5: Clock Events & Alarm (IPMC only) Action D7 D6 D6 D4 D3 D2 D1 D0 Read LOCKE FAIL1E FAIL0E SELREFE 0 0 0 0 Write Clear Clear Clear Clear NU NU NU NU Reset X* X* X* X* NA NA NA NA Name Description LACKE Same as FAIL0 but for the lock status of the PLL. This bit captures the “unlock” state. This would typically be used to generate an alarm. FAIL1E Same as FAIL0 but for reference 1.
B. Connector Pinouts B.1 Connectors and Headers Summary Connector Description J2 PostCodes J5 AMC J8 Ethernet Port 0 J9 Ethernet Port 1 J10 USB (2x Stacked) J12 Serial Port, COM1 J20 Synchronisation Clocks, Update Channel J22 USB Flash Drive J23 Base Interface & Fabric Intercface J30 RTM P10 Power & IPMB B.2 Post Codes (J2) Signal Pin VCC3 1 POST:DATA 2 POST:CLOCK 3 GND 4 B-1 AT8050 www.kontron.
B.
Pin Signal Pin Signal Pin Signal Pin Signal B40 GND B82 GND B125 GND B168 TDO (N.C.) B41 ENABLE# B83 PS0#(GND) B126 RxD14- B169 TDI (N.C.) B42 12V B84 12V B127 RxD14+ B170 GND B85 GND B128 GND B.4 Ethernet(J8 & J9) Signal Pin Pin Signal BI_DA+ 1 5 BI_DC- BI_DA- 2 6 BI_DB- BI_DB+ 3 7 BI_DD+ BI_DC+ 4 8 BI_DD- B.5 USB Port (J10) Signal Pin VCC 1 DATA- 2 DATA+ 3 GND 4 B.
B.7 Synchronisation Clocks, Update Channel (J20) Pin ROW A ROW B ROW C ROW D ROW E ROW F 1 CLK1A+ CLK1A- CLK1B+ CLK1B- CLK2A+ CLK2A- 2 Tx4(UP)+ Tx4(UP)- Rx4(UP)+ Rx4(UP)- CLK3A+ CLK3A- 3 Tx2(UP)+ Tx2(UP)- Rx2(UP)+ Rx2(UP)- Tx3(UP)+ Tx3(UP)- 4 Tx0(UP)+ Tx0(UP)- Rx0(UP)+ Rx0(UP)- Tx1(UP)+ Tx1(UP)- 5 Tx2[15]+(N.C.) Tx2[15]-(N.C.) Rx2[15]+(N.C.) Rx2[15]-(N.C.) Tx3[15]+(N.C.) Tx3[15]-(N.C.) 6 Tx0[15]+(N.C.) Tx0[15]-(N.C.) Rx0[15]+(N.C.) Rx0[15]-(N.C.) Tx1[15]+(N.
B.9 Base Interface & Fabric Intercface (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.
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B.11 Power (P10) Signal Pin Pin Signal N.P. 1 2 N.P. N.P. 3 4 N.P. HA0 5 6 HA1 HA2 7 8 HA3 HA4 9 10 HA5 HA6 11 12 HA7/P SCL_A 13 14 SDA_A SCL_B 15 16 SDA_B MT1_TIP(N.C.) 17 18 MT2_TIP(N.C.) RING_A(N.C.) 19 20 RING_B(N.C.) MT1_RING(N.C.) 21 22 MT2_RING(N.C.) RRTN_A(N.C.) 23 24 RRTN_B(N.C.) SHELF_GND 25 26 LOGIC_GND ENABLE_B 27 28 VRTN_A VRTN_B 29 30 EARLY_A EARLY_B 31 32 ENABLE_A -48V_A 33 34 -48V_B B-7 AT8050 www.kontron.
C. BIOS Setup Error Codes C.1 Bootblock Initialization Code Checkpoints The Bootblock initialization code sets up the chipset, memory and other components before system memory is available. The following table describes the type of checkpoints that may occur during the bootblock initialization portion of the BIOS: Checkpoint Description Before D1 Early chipset initialization is done. Early super I/O initialization is done including RTC and keyboard controller. NMI is disabled.
C.2 POST Code Checkpoints The POST code checkpoints are the largest set of checkpoints during the BIOS pre-boot process. The following table describes the type of checkpoints that may occur during the POST portion of the BIOS: Checkpoint Description 03 Disable NMI, Parity, video for EGA, and DMA controllers. Initialize BIOS, POST, Runtime data area. Also initialize BIOS modules on POST entry and GPNV area. Initialized CMOS as mentioned in the Kernel Variable "wCMOSFlags.
Checkpoint Description 3A Initialize RTC date/time. 3B Test for total memory installed in the system. Also, Check for DEL or ESC keys to limit memory test. Display total memory in the system. 3C Mid POST initialization of chipset registers. 40 Detect different devices (Parallel ports, serial ports, and coprocessor in CPU, … etc.) successfully installed in the system and update the BDA, EBDA…etc.
C.3 DIM Code Checkpoints The Device Initialization Manager (DIM) gets control at various times during BIOS POST to initialize different system busses. The following table describes the main checkpoints where the DIM module is accessed: Checkpoint Description 2A Initialize different buses and perform the following functions: Reset, Detect, and Disable (function 0); Static Device Initialization (function 1); Boot Output Device Initialization (function 2).
0 = Generic DIM (Device Initialization Manager). 1 = On-board System devices. 2 = ISA devices. 3 = EISA devices. 4 = ISA PnP devices. 5 = PCI devices. C.4 Memory Initialization ERROR Code Checkpoint Description E8 Memory Error - No memory installed. EA Memory Error - DDR3 Initialisation EB Memory Error - Memory test ED Memory Error - RDIMMs and UDIMMs are mixed EE Memory Error - Invalid Memory Population EF Memory Error - Memory structure problem C-5 AT8050 www.kontron.
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 AT8050 - 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.
3The technician will instruct you on the return procedure if the problem cannot be solved over the telephone. 4Make sure you receive an RMA # from our Technical Support before returning any merchandise. • E-mail 1Send us an e-mail at: RMA@ca.kontron.com in North America and at: orderprocessing@kontronmodular.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 ACPI Advanced Configuration & Power Interface AdvancedMC (Same as AMC). Advanced Mezzanine Card. 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 CTS Clear To Send DDR3 DDR3 SDRAM or Double-Data-Rate three (3) Synchronous Dynamic Random Access Memory. DHCP Dynamic Host Configuration Protocol DIMM Dual In-line Memory Module DMA Direct Memory Access DMI Desktop Management Interface DTC Data Transfer Controller DTR Data Terminal Ready DTS Digital Thermal Sensor in IA32 processors. DVD Digital Video Disk ECC Error Checking and Correction EMI ElectroMagnetic Interference ETH Same as Ethernet.
Acronyms Descriptions IPM Intelligent Platform Management IPMB Intelligent Platform Management Bus IPMB-0 Intelligent Platform Management Bus Channel 0, the logical aggregation of IPMB-A and IPMB-B.
Acronyms Descriptions SAS Serial Attached SCSI SATA Serial ATA SEL System Event Log SFP Small Form-factor Pluggable ShMC Shelf Management Controller SMB (Same as SMBus/SMBUS). System Management Bus. SMBIOS System Management BIOS SMBUS (Same as SMB/SMBus). System Management Bus. SMBus (Same as SMB/SMBUS). System Management Bus. SOL Serial Over LAN SPI Serial Peripheral Interface SpeedStep (Same as EIST). Enhanced Intel SpeedStep Technology. SSE2 Streaming SIMD Extension 2.
