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Emerson ATCA-7368 Installation And Use Manual

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ATCA-7368
Installation and Use
P/N: 6806800M12C
February 2014
Embedded Computing for
Business-Critical Continuity
TM
Table of Contents
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Summary of Contents for Emerson ATCA-7368

  • Page 1 Embedded Computing for Business-Critical Continuity ATCA-7368 Installation and Use P/N: 6806800M12C February 2014...
  • Page 2 Emerson reserves the right to revise this document and to make changes from time to time in the content hereof without obligation of Emerson to notify any person of such revision or changes.

  • Page 3: Table Of Contents

    3.3.2 Backplane Connectors ............56 ATCA-7368 Installation and Use (6806800M12C)
  • Page 4 Memory ................79 ATCA-7368 Installation and Use (6806800M12C)
  • Page 5 System Boot Options Commands ........99 ATCA-7368 Installation and Use (6806800M12C)
  • Page 6 Emerson Specific Commands ........
  • Page 7 Related Documentation ............. . 211 Emerson Network Power - Embedded Computing Documents ......211 Related Specifications .
  • Page 8 Contents Contents Contents ATCA-7368 Installation and Use (6806800M12C)
  • Page 9 System Boot Options Parameter #100 - GET Command Usage ....105 Table 7-15 System Boot Options Parameter #100 - Supported Parameters ....106 ATCA-7368 Installation and Use (6806800M12C)
  • Page 10 Disable Module Site Command Description ........137 ATCA-7368 Installation and Use (6806800M12C)
  • Page 11 Version Change ............187 ATCA-7368 Installation and Use (6806800M12C)
  • Page 12 Sensor Data Records ............199 Table B-1 Emerson Network Power - Embedded Computing Publications ....211 Table B-2 Related Specifications .
  • Page 13 Location of On-board Battery ..........207 ATCA-7368 Installation and Use (6806800M12C)
  • Page 14 List of Figures ATCA-7368 Installation and Use (6806800M12C)

  • Page 15: About This Manual

    Related Documentation on page 211 provides links to further blade-related  documentation. Safety Notes on page 213 lists safety notes applicable to the blade.  Sicherheitshinweise on page 217 provides the German translation of the safety notes  section. ATCA-7368 Installation and Use (6806800M12C)
  • Page 16 (SDRAM) is the name of the new DDR memory standard that is being developed as the successor to DDR2 SDRAM. Design for Manufacturability Design for Test Direct Memory Access DRAM Dynamic Random Access Memory Error Correction Code ATCA-7368 Installation and Use (6806800M12C)
  • Page 17 The IPMB connecting the carrier IPMC to the AMC module Intel® QuickPath A cache-coherent, link-based Interconnect specification for Interconnect (Intel® Intel processors, chipsets, and I/O bridge components. QPI) Intelligent Platform Management Controller IPMI Intelligent Platform Management Interface In-Target Probe ATCA-7368 Installation and Use (6806800M12C)
  • Page 18 Mean Time Between Failures MTTR Mean Time To Repair Not Applicable NEBS Network Equipment Building System Non-maskable Interrupt Non-transparent NVRAM Non-volatile Random Access Memory Original Equipment Manufacturer Out-of-service Operating System Printed Circuit Board PCI-E PCI-Express ATCA-7368 Installation and Use (6806800M12C)
  • Page 19 System Management Interrupt SODIMM Small Outline Dual-in-line Memory Module Serial Presence Detect To be decided Transmission Control Protocol Thermal Design Power Transmit line (of a duplex serial communication interface) UART Universal Asynchronous Receiver-Transmitter User Datagram Protocol ATCA-7368 Installation and Use (6806800M12C)
  • Page 20 Notation for software buttons to click on the screen and parameter description Repeated item for example node 1, node 2, ..., node Omission of information from example/command that is not necessary at the time being ATCA-7368 Installation and Use (6806800M12C)
  • Page 21 Indicates a hazardous situation which, if not avoided, may result in minor or moderate injury Indicates a property damage message No danger encountered. Pay attention to important information ATCA-7368 Installation and Use (6806800M12C)

  • Page 22: Table

    Table "-48V A Volts" on page 149, Table "-48V B Volts" on page 150, Table "Inlet Temp" on page 156, Table "Outlet Temp" on page 159, Table "CPU Temp" on page 163. 6806800M12A March 2011 EA version ATCA-7368 Installation and Use (6806800M12C)

  • Page 23: Introduction

    PICMG 3.0 Revision 3.0 Advanced TCA Base Specification. The ATCA-7368 is a single board computer that offers a powerful processing complex through a single six-core Intel Westmere-EP processor, and support for up to 48GB DDR3 memory.

  • Page 24: Standard Compliances

    Onboard Glue Logic FPGA for IPMC extension and onboard Control register  Standard Compliances The product is designed to meet the following standards. Table 1-1 Standard Compliances Standard Description SN29500/8, Reliability requirements MIL-HDBK-217F, GR-332, TR-NWT-000357 ATCA-7368 Installation and Use (6806800M12C)
  • Page 25 ANSI/IPC-R-700B, ANSI-J-001...003 ISO 8601 Y2K compliance NEBS Standard GR-63-CORE, NEBS level three NEBS Standard GR-1089 CORE Project is designed to support NEBS level three. The compliance tests must be done with the customer target system. ATCA-7368 Installation and Use (6806800M12C)

  • Page 26: Figure 1-1 Declaration Of Conformity

    Introduction Figure 1-1 Declaration of Conformity ATCA-7368 Installation and Use (6806800M12C)

  • Page 27: Mechanical Data

    Single slot ATCA 280mm x 322mm PCBA size 280mm x 322.25mm Assembly size 351mm x 312mm x 30mm, 8U form factor Weight of blade with AMC 3053.5g Weight of blade without AMC and HDD 2862.3g ATCA-7368 Installation and Use (6806800M12C)

  • Page 28: Mechanical Layout

    Introduction Mechanical Layout The following graphics illustrate the mechanical layout of the blade. Figure 1-2 Mechanical Layout (with AMC) ATCA-7368 Installation and Use (6806800M12C)

  • Page 29: Figure 1-3 Mechanical Layout (Without Amc And Hdd)

    Introduction Figure 1-3 Mechanical Layout (without AMC and HDD) ATCA-7368 Installation and Use (6806800M12C)

  • Page 30: Figure 1-4 Mechanical Layout (Without Amc/ With Hdd)

    Introduction Figure 1-4 Mechanical Layout (without AMC/ with HDD) ATCA-7368 Installation and Use (6806800M12C)

  • Page 31: Ordering Information

    As of printing date of this manual, the following board accessories are available. Table 1-4 Blade Accessories - Ordering Information Accessory Description RTM-ATCA-7368 RTM for the ATCA-7368 with 1X slot for optional HDD (ROHS 6/6) ATCA-7368 Installation and Use (6806800M12C)

  • Page 32: Product Identification

    Introduction Product Identification The following graphics shows the location of the serial number label. Figure 1-5 Serial Number Location Serial Number ATCA-7368 Installation and Use (6806800M12C)

  • Page 33: Hardware Preparation And Installation

    To inspect the shipment, perform the following steps. 1. Verify that you have received all items of your shipment: Printed Quick Start Guide and Safety Notes Summary  ATCA-7368 blade  Any optional items ordered  ATCA-7368 Installation and Use (6806800M12C)

  • Page 34: Environmental And Power Requirements

    In order to meet the environmental requirements, the blade has to be tested in the system in which it is to be installed. Before you power up the blade, calculate the power needed according to your combination of blade upgrades and accessories. ATCA-7368 Installation and Use (6806800M12C)

  • Page 35: Environmental Requirements

    20-200 Hz at -3 dB/octave Hz (according to Telcordia GR-63-core and ETSI EN 300 019-2-2) Random 5-20Hz at 1 m Random 20-200Hz at 3 m Shock Half-sine, 11 ms, 30 m/s Blade level packaging Half-sine, 6 ms at 180 m/s ATCA-7368 Installation and Use (6806800M12C)

  • Page 36: Power Requirements

    2-2, you will find typical power requirements with and without accessories installed. For information on the accessories' power requirements, refer to the documentation delivered together with the respective accessory or consult your local Emerson representative for further details. ATCA-7368 Installation and Use (6806800M12C)

  • Page 37: Table 2-2 Power Requirements

    SELV circuit under normal operating conditions, and which is not subject to over voltages from telecommunication networks. Table 2-2 Power Requirements Characteristic Value Max. power consumption of ATCA-7368 145 W ATCA-7368 Installation and Use (6806800M12C)

  • Page 38: Blade Layout

    Hardware Preparation and Installation Blade layout Figure 2-1 illustrates the ATCA-7368 blade layout. Figure 2-1 Blade Layout ATCA-7368 Installation and Use (6806800M12C)

  • Page 39: Installing The Blade Accessories

    When installing DIMM memory modules, the DIMM sockets farthest away on each memory channel from the CPU device need to be populated first. Only qualified DDR3 DIMMs (Dual Ranked RDIMM) are allowed. ATCA-7368 supports low-voltage DDR3 memory. This is available upon request. ATCA-7368 Installation and Use (6806800M12C)
  • Page 40 Damage of Circuits Electrostatic discharge and incorrect module installation and removal can damage circuits or shorten their life. Before touching the module or electronic components, make sure that you are working in an ESD-safe environment. ATCA-7368 Installation and Use (6806800M12C)

  • Page 41: Pmem And Sata Module

    S/F memory module connector is shown Figure "Blade Layout" on page The PMEM and SATA module are accessory kits and are not part of the default ATCA-7368. The following procedure describes the steps to install/remove the PMEM/SATA module.
  • Page 42 S/F memory module to the blade. 4. Reinstall the blade into the system as described in Installing and Removing the Blade on page The additional resource (either memory or SATA SSD) will be detected automatically during the boot-up sequence. ATCA-7368 Installation and Use (6806800M12C)

  • Page 43: Usb 2.0 Flash Module

    Damage of Circuits Electrostatic discharge and incorrect module installation and removal can damage circuits or shorten their life. Before touching the module or electronic components, make sure that you are working in an ESD-safe environment. ATCA-7368 Installation and Use (6806800M12C)

  • Page 44: Installing And Removing The Blade

    3. Tighten the screw on the left side of the flash module. Installing and Removing the Blade The blade is fully compatible to the AdvancedTCA standard and is designed to be used in AdvancedTCA shelves. ATCA-7368 Installation and Use (6806800M12C)

  • Page 45: Installing The Blade

    Incorrect blade installation and removal can result in blade malfunctioning. When plugging the blade in or removing it, do not press on the faceplate but use the handles. 2.6.1 Installing the Blade To install the blade into an AdvancedTCA shelf, proceed as follows. ATCA-7368 Installation and Use (6806800M12C)
  • Page 46 Continue to gently push the blade until the blade connectors engage. 4. Squeeze the lever and the latch together and hook the lower and the upper handle into the shelf rail recesses. ATCA-7368 Installation and Use (6806800M12C)
  • Page 47 6. Wait until the blue LED is switched off, then tighten the faceplate screws which secure the blade to the shelf. The switched off blue LED indicates that the blade’s payload has been powered up and that the blade is active. 7. Connect cables to the faceplate, if applicable. ATCA-7368 Installation and Use (6806800M12C)

  • Page 48: Removing The Blade

    2. Wait until the blue LED is illuminated permanently, then unlatch the upper handle and rotate both handles fully outward. If the LED continues to blink, a possible reason may be that the upper layer software rejected the blade extraction request. ATCA-7368 Installation and Use (6806800M12C)
  • Page 49 Wait until the blue LED is permanently illuminated, before removing the blade. 3. Remove the faceplate cables, if applicable. 4. Unfasten the screws of the faceplate until the blade is detached from the shelf. 5. Remove the blade from the shelf. ATCA-7368 Installation and Use (6806800M12C)
  • Page 50 Hardware Preparation and Installation ATCA-7368 Installation and Use (6806800M12C)

  • Page 51: Controls, Indicators, And Connectors

    The following figure shows the connectors, keys, and LEDs available at the Faceplate. The blade design provides the possibility to cover unused Faceplate elements like LEDs or push buttons behind a custom overlay foil. The following figure gives an overview of the ATCA-7368 faceplate features.

  • Page 52: Faceplate Leds

    Controls, Indicators, and Connectors Two Ethernet ports  Recessed reset button  Figure 3-2 Faceplate LEDs ATCA-7368 Installation and Use (6806800M12C)

  • Page 53: Faceplate Leds

    Off: No link Activity (lower)  – Yellow: Activity – Off: No activity U1, U2, U3 Red, U1, U2: Green, Red: during BIOS boot  Amber Green: Base interface activity  User defined LED  ATCA-7368 Installation and Use (6806800M12C)

  • Page 54: Connectors

    Blue: Blade is ready to be extracted Base-IF and faceplate Ethernet activity can be seen through FPGA LEDs B1/U1, B2/U2 and U3. 3.2.2 Connectors 3.2.2.1 Faceplate Connectors Table 3-2 RJ45 female Serial Line Connector Pinout Signal ATCA-7368 Installation and Use (6806800M12C)

  • Page 55: Table 3-3 Usb Connector Pinout

    Controls, Indicators, and Connectors Table 3-3 USB Connector Pinout Signal VP5_USB USB_x_D- USB_x_D+ Table 3-4 10/100/1000Base-T Fast Ethernet Connector Pinout Signal ETH_TX+ ETH_TX- ETH_RX+ ETH_RX- ATCA-7368 Installation and Use (6806800M12C)

  • Page 56: Onboard Connectors

    Table 3-5 Zone 1 Connector P1 Pin Assignment Contact Number Destination Description 1 - 4 Reserved Reserved IPMC ISC PC0 Hardware Address Bit 0 IPMC ISC PC1 Hardware Address Bit 1 IPMC ISC PC2 Hardware Address Bit 2 ATCA-7368 Installation and Use (6806800M12C)

  • Page 57: Table 3-6 Zone 2 Connector P23 Pin Assignment

    Table 3-6 Zone 2 Connector P23 Pin Assignment Row # Interface Col AB Col CD Col EF Col GH F2[2]_ F2[2]_ F2[2]_ F2[2]_ F2[3]_ F2[3]_ F2[3]_ F2[3]_ Fabric Channel 2 F2[0]_ F2[0]_ F2[0]_ F2[0]_ F2[1]_ F2[1]_ F2[1]_ F2[1]_ ATCA-7368 Installation and Use (6806800M12C)

  • Page 58: Zone 3

    3.3.3 Zone 3 The ATCA specification defines Zone 3 for user input/output signals. On ATCA-7368, ATCA Zone 3 Type A connector (direct connect to RTM) is used. The same connectors are used for Zone 2 and Zone 3. Zone 3 connectors are assigned to reference designators P30 through P32.

  • Page 59: Bios

    It is possible to select boot flash as device to boot from. This is done via an IPMI command. For further details refer to section Supported IPMI Commands on page The BIOS used on the blade is based on the AMI UEFI BIOS with several Emerson extensions integrated. Its main features are: Initialize CPU, chipset and memory ...

  • Page 60: Accessing The Blade Using The Serial Console Redirection

    The terminal can be connected to display VGA text information. Terminal keyboard input is redirected and treated as a normal PC keyboard input. The serial console redirection feature can be configured via a setup utility. ATCA-7368 Installation and Use (6806800M12C)

  • Page 61: Requirements

    DSUB connector which can be connected to a remote terminal. The following communication parameters are used, by default: Baud rate: 38400  Flow control: None  VT-100  8 data bits  No parity  1 stop bit  ATCA-7368 Installation and Use (6806800M12C)

  • Page 62: Connecting To The Blade

    3. Connect NULL-modem cable to COM port of the blade. Start up blade. Changing Configuration Settings When the system is turned on or rebooted, the presence and functionality of the system components is tested by POST (Power-On Self-Test). ATCA-7368 Installation and Use (6806800M12C)

  • Page 63: Boot Options

    All other navigation possibilities are shown at the bottom of the menu. Additionally, an item-specific help is displayed on the right side of the menu window. Boot Options This section describes which boot devices are supported by the BIOS and how to select the boot device. ATCA-7368 Installation and Use (6806800M12C)

  • Page 64: Supported Boot Devices

    There are two possibilities to determine the device from which BIOS attempts to boot: By setup to select a permanent order of boot devices  By boot selection menu to select any device for the next boot-up procedure only  ATCA-7368 Installation and Use (6806800M12C)

  • Page 65: By Boot Selection Menu

    Driver is intellectual property of INTEL Corp. If possible a BIOS setup item will be available to enable/disable the UEFI Network Device Driver. In Boot menu displayed Network boot device names will be changed to be User friendly if required. ATCA-7368 Installation and Use (6806800M12C)

  • Page 66: Redirection Of I/O

    Redirection of the I/O to COM ports (Console Redirection) Redirection of I/O to a COM port makes it possible to control the ATCA-7368 BIOS in an embedded environment where no VGA adapter is present and no keyboard is attached. The...

  • Page 67: Led Behavior During Post

    U1 and U2 are set to the default value: base Ethernet interface link and activity LEDs. Short before leaving BIOS and staring an operating system, LED U3 is set to green. RTM SAS Controller The BIOS extension firmware supports RAID 0 and RAID 1. ATCA-7368 Installation and Use (6806800M12C)

  • Page 68: Board Information Display

    Onboard USB FlashDisk Enabled/Disabled Enabled Front Panel USB Enabled/Disabled Enabled ARTM USB Enabled/Disabled Enabled 4.11 Supported Operating Systems WRS PNE LE 4.x Linux, Red Hat Enterprise Linux 5.x will be supported. DOS will be used for debugging. ATCA-7368 Installation and Use (6806800M12C)

  • Page 69: Persistent Memory Module

    The Emerson SFMEM-MODULE (P/N #122265) persistent memory module can be attached to ATCA-7368. If attached the BIOS will automatically initialize the PCI bridge on the SFMEM- MODULE during normal PCI initialization BIOS phase. There will be no BIOS Setup items related to SFMEM-MODULE.

  • Page 70: Bios Status Codes

    0xE8 - 0xEF Memory initialization errors 0xB0 - 0xBF Additional Memory Initialization Status Codes 0xE8 - 0xEE Additional Memory Error Status Codes 4.15.2 Standard Status Codes Table 4-5 SEC Status Codes Status Code Description Not used ATCA-7368 Installation and Use (6806800M12C)
  • Page 71 PEI Core is started 0x15 Pre-memory North Bridge initialization is started 0x19 Pre-memory South Bridge initialization is started 0x2F Memory initialization (other) 0x31 Memory Installed 0x32 CPU post-memory initialization is started 0x33 CPU post-memory initialization. Cache initialization ATCA-7368 Installation and Use (6806800M12C)
  • Page 72 Run Build In Self Test 0xBA Initialize memory map 0xBB Setup RAS configuration 0xBF Memory initialization complete PEI Error Codes 0x53 Memory initialization error. No usable memory detected 0x55 Memory not installed 0x56 Invalid CPU type or Speed ATCA-7368 Installation and Use (6806800M12C)
  • Page 73 0xF5-0xF7 Reserved for future AMI progress codes Recovery Error 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 ATCA-7368 Installation and Use (6806800M12C)
  • Page 74 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 Detect 0x9D USB Enable 0xA0 IDE initialization is started ATCA-7368 Installation and Use (6806800M12C)
  • Page 75 Configuration Reset (reset of NVRAM settings) DXE Error Codes 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. Out of Resources ATCA-7368 Installation and Use (6806800M12C)
  • Page 76 No Console Input Devices are found 0xD8 Invalid password 0xD9 Error loading Boot Option (LoadImage returned error) 0xDA Boot Option is failed (StartImage returned error) 0xDB Flash update is failed 0xDC Reset protocol is not available ATCA-7368 Installation and Use (6806800M12C)

  • Page 77: Functional Description

    Chapter 5 Functional Description Overview This chapter describes the specifications and functions of the ATCA-7368 blade. Block Diagram Figure 5-1 shows the block diagram of ATCA-7368 blade. Figure 5-1 Block Diagram ATCA-7368 Installation and Use (6806800M12C)

  • Page 78: Processor

    (SSE3) and Streaming SIMD Extensions 4 (SSE4). The processor supports several Advanced Technologies: Execute Disable Bit, Intel 64 Technology, Enhanced Intel SpeedStep Technology, Intel Virtualization Technology, and Simultaneous Multi Threading (SMT). The following figure shows the Westmere-EP processor block diagram: Figure 5-2 Nehalem/Westmere Processor block diagram ATCA-7368 Installation and Use (6806800M12C)

  • Page 79: Memory

    ATCA-7368 provides a single Westmere-EP CPU with Integrated Memory Controller (IMC). IMC supports three independent 72-bit (64-bit Data + 8-bit ECC) wide DDR3 memory channels. ATCA-7368 supports two VLP DIMM sockets for each memory channel resulting in a total of six DDR3 DIMM sockets.

  • Page 80: Chipset

    Two 8259 interrupt controllers and I/O APIC controllers  Integrated I/O APIC  Power management support  Two 8237 DMA controller  8254-based Counter Timer/timers  High-precision Event timers (HPET)  RTC with 256-byte battery-backed SRAM  ATCA-7368 Installation and Use (6806800M12C)
  • Page 81 Two stage Watchdog timer  PCI 2.3 interface 32-bit/ 33 MHz  General purpose I/O pins  The following figure shows the I/O functions provided by ICH10R and those used on ATCA- 7368: Figure 5-3 ICH10R Diagram ATCA-7368 Installation and Use (6806800M12C)

  • Page 82: Persistent Memory Module (Pmem)

    Functional Description Persistent Memory Module (PMEM) The ATCA-7368 provides a connector to assemble the Emerson 7221-SFMEM (P/N #122265) module, a 48x37 low profile module integrating a PLX9030 PCI target-only Bridge and 64 Mb of Flash and 16 Mb of SRAM. The module connector is a 80-pin low density, low profile Molex Connector and features four configuration signals connected to the Glue Logic FPGA.

  • Page 83: Storage

    Intel 82599 10G/1G Serdes Faceplate Interface J402 Intel 82576 10,100,1 G Copper Storage ATCA-7368 supports the following types of storage: Onboard HDD/SSD with standard 2.5 inch form factor  Onboard SATA Cube  Persistent RAM module  Onboard USB Flash (eUSB) ...

  • Page 84: Serial Redirection

    If a SOL session is established, only the output is available on the faceplate. Input is not possible during this time via the faceplate. Alternatively to the CPU serial console, the IPMC serial console is also available on the faceplate serial connector. It can be selected via specific IPMI OEM command. ATCA-7368 Installation and Use (6806800M12C)

  • Page 85: Serial Over Lan

    Two ports are routed to the faceplate, one port is used onboard to connect a USB 2.0 SSD User Flash Module and one port is routed to the RTM. The ports available at the faceplate are routed to a dual stacked connector. The ports are USB 2.0 compliant. ATCA-7368 Installation and Use (6806800M12C)

  • Page 86: Smbus Connections

    Functional Description 5.15 SMBus Connections The following figure shows the overall SMBus connections on ATCA-7368: Figure 5-5 Overall SMBus Connections The LM75 is a thermal sensor. 5.16 Real Time Clock An external 32.768 kHz crystal sources the internal real time clock inside ICH10R with a frequency tolerance of 20 PPM.

  • Page 87: Single Width Mid-Size Amc

    Functional Description 5.17 Single Width Mid-size AMC ATCA-7368 supports one slot of single width mid-size AMC to extend the application range of the blade by adding appropriate cards. This can be straight forward storage and network interface solutions or local storage hosted on an AMC. However it is also necessary to address...
  • Page 88 Functional Description ATCA-7368 Installation and Use (6806800M12C)

  • Page 89: Serial Over Lan

    Installing the ipmitool You can download the open source tool ipmitool from http://ipmitool.sourceforge.net (at the time of publishing this manual the current version is 1.8.10). Documentation for this tool is also freely available on this site. ATCA-7368 Installation and Use (6806800M12C)

  • Page 90: Configuring Sol Parameters

    You can use standard IPMI commands or the ipmitool to modify the parameters. 6.3.1 Using Standard IPMI Commands This example shows how to set up the SOL configuration parameter with standard IPMI commands. Ipmicmd is used on the local IPMC and the IP is configured. ATCA-7368 Installation and Use (6806800M12C)

  • Page 91: Using Ipmitool

    SOL session for base 1 (channel 5) and base 2 (channel 6): root@localhost:~# ipmitool lan print 5 Set in Progress : Set Complete Auth Type Support Auth Type Enable : Callback : : User : Operator : : Admin ATCA-7368 Installation and Use (6806800M12C)
  • Page 92 : User : Operator : : Admin : OEM IP Address Source : Unspecified IP Address : 172.17.1.220 Subnet Mask : 255.255.0.0 MAC Address : 00:00:00:00:00:00 Default Gateway IP : 172.17.0.1 Default Gateway MAC : 00:00:00:00:00:00 ATCA-7368 Installation and Use (6806800M12C)

  • Page 93: Establishing A Sol Session

    2. Compile and install the ipmitool on your target which is destined for opening the SOL session on the ATCA-7368. For details refer to Installing the ipmitool on page 3. Apply an IP address to the ATCA-7368 SOL interface. For details refer to Configuring SOL Parameters on page 4.
  • Page 94 Serial Over LAN 6. Start ATCA-7368 SOL session on your target with the ipmitool and the configured IP address for the ATCA-7368 SOL interface. ipmitool -C 1 -I lanplus -H 172.16.0.221 -U soluser -P solpasswd -k gkey sol activate For details on the command parameters, refer to the ipmitool documentation available on http://ipmitool.sourceforge.net.

  • Page 95: Supported Ipmi Commands

    Chapter 7 Supported IPMI Commands Overview This chapter describes the IPMI Commands supported on ATCA-7368. Standard IPMI Commands The IPMC is fully compliant to the Intelligent Platform Management Interface v.1.5. This section provides information about the supported IPMI commands. 7.2.1 Global IPMI Commands The IPMC supports the following global IPMI commands.

  • Page 96: System Interface Commands

    Set User Payload Access 0x06/0x07 0x4C Get User Payload Access 0x06/0x07 0x4D Set Channel Security Keys 0x06/0x07 0x5C 7.2.3 Watchdog Commands The watchdog commands are supported by blades providing a system interface and a watchdog type 2 sensor. ATCA-7368 Installation and Use (6806800M12C)

  • Page 97: Sel Device Commands

    NetFn (Request/Response) Get SEL Info 0x0A/0x0B 0x40 Reserve SEL 0x0A/0x0B 0x42 Get SEL Entry 0x0A/0x0B 0x43 Add SEL Entry 0x0A/0x0B 0x44 Clear SEL 0x0A/0x0B 0x47 Get SEL Time 0x0A/0x0B 0x48 Set SEL Time 0x0A/0x0B 0x49 ATCA-7368 Installation and Use (6806800M12C)

  • Page 98: Fru Inventory Commands

    Get Device SDR command. Get Sensor Threshold 0x04/0x05 0x27 Set Sensor Event Enable 0x04/0x05 0x28 Get Sensor Event Enable 0x04/0x05 0x29 Get Sensor Event Status 0x04/0x05 0x2B ATCA-7368 Installation and Use (6806800M12C)

  • Page 99: Chassis Device Commands

    Get/Set System Boot Option for the parameter 100, the Set Selector and the Block Selector have a specific meaning. Details are given in System Boot Options Parameter #100 on page 102 for details. ATCA-7368 Installation and Use (6806800M12C)

  • Page 100: Table 7-8 Configurable System Boot Option Parameters

    BIOS boot parameters as defined in Table 7-15 on page 7.2.7.1.1 System Boot Options Parameter #96 This boot parameter is an Emerson-specific OEM boot parameter. Its definition is given in the following table. Table 7-9 System Boot Options Parameter #96...

  • Page 101: Table 7-10 System Boot Options Parameter #97

    Supported IPMI Commands 7.2.7.1.2 System Boot Options Parameter #97 This boot parameter is an Emerson-specific OEM parameter. Its definition is given in the following table. Table 7-10 System Boot Options Parameter #97 Data Byte Description POST Type Data 1 - Set Selector. This is the processor ID for which the boot option is to be set.

  • Page 102: Table 7-11 System Boot Options Parameter #98

    The default area can only be read (by both the IPMI user and the boot firmware.). Its purpose is to store factory-programmed default boot options which can be used to restore the standard settings. If you want the boot firmware to read out ATCA-7368 Installation and Use (6806800M12C)

  • Page 103: Table 7-12 System Boot Options - Parameter #100 - Data Format

    When reading from the storage area and you find any of these two values, your software should assume that no user-specific boot options have previously been written to the storage area. ATCA-7368 Installation and Use (6806800M12C)

  • Page 104: Table 7-13 System Boot Options Parameter #100 - Set Command Usage

    Depending on the total length of the boot option data, your software may need to write several blocks of 16 bytes in a row, each individually addressed using the block selector. ATCA-7368 Installation and Use (6806800M12C)

  • Page 105: Table 7-14 System Boot Options Parameter #100 - Get Command Usage

    0xC9: Block selector is outside of the allowed range. Reserved. Set to "1". Bit 7: If set to "1", the addressed storage area is locked. Bits 6 ..0: value "100", indicating this OEM boot option command. ATCA-7368 Installation and Use (6806800M12C)

  • Page 106: Table 7-15 System Boot Options Parameter #100 - Supported Parameters

    This is supported by HPI, for details refer to the System Management Interface Based on HPI-B User’s Guide related to your system environment. The following table lists boot parameters which can be configured for the ATCA-7368 blade, using the system boot option parameter #100.
  • Page 107 10:20:30:40 ATCA-7368 Installation and Use (6806800M12C)
  • Page 108 1:2:3:5:7:10:15:20 nothing:reset:pwdw:pwcy reset bios_watchdog on:off 3:4:5:6 reset reset log_status_code off:both:errcode:prgcode both frontnet_boot on:off basenet_boot on:off fabricnet_boot on:off artm_net_boot on:off artm_sas_boot on:off ssc_support on:off wait_rtm_time numeric(0~255) wait_rtm_policy force:auto auto setup_timeout numeric(0~65535) number_lock on:off pci_err_log on:off ATCA-7368 Installation and Use (6806800M12C)

  • Page 109: Table 7-16 Boot_Order Devices

    (use this when a SAS array is connected to the RTM) frontnet Front Panel Network basenet0 Base0 Network basenet1 Base1 Network usb1 USB frontpanel 1 usb2 USB frontpanel 2 usbonboard USB onboard HDD usbartm USB artm usbkey USB key ATCA-7368 Installation and Use (6806800M12C)

  • Page 110: Lan Device Commands

    LAN Device Commands Table 7-17 Supported LAN Device Commands Command NetFn (Request/Response) Set LAN Configuration Parameters 0x0C/0x0D 0x01 Get LAN Configuration Parameters 0x0C/0x0D 0x02 Set SOL Configuration Parameters 0x0C/0x0D 0x21 Get SOL Configuration Parameters 0x0C/0x0D 0x22 ATCA-7368 Installation and Use (6806800M12C)

  • Page 111: Picmg 3.0 Commands

    Supported IPMI Commands PICMG 3.0 Commands The Emerson IPMC is a fully compliant AdvancedTCA intelligent Platform Management Controller.It supports all required and mandatory AdvancedTCA commands as defined in the PICMG 3.0 and AMC.0 R2.0 specifications. Table 7-18 Supported PICMG 3.0 Commands...
  • Page 112 0x37 Initiate manual rollback 0x2C/0x2D 0x38 The firmware upgrade commands supported by the blade are implemented according to the PICMG HPM.1 Revision 1.0 specification. The boot block can be updated with PICMG HPM.1 specific commands. ATCA-7368 Installation and Use (6806800M12C)

  • Page 113: Emerson Specific Commands

    Supported IPMI Commands Emerson Specific Commands The Emerson IPMC supports several commands which are not defined in the IPMI or PICMG 3.0 specification but are introduced by Emerson: serial output commands. Before sending any of these commands, the shelf management software must check ...

  • Page 114: Set Feature Configuration (0X1E)

    Table 7-20 Set Feature Configuration Command Byte Data Field Request Data LSB of Emerson IANA Enterprise Number. A value of CDh shall be used. 2nd byte of Emerson IANA Enterprise Number. A value of 65h shall be used. MSB of Emerson IANA Enterprise Number. A value of 00h shall be used.

  • Page 115: Get Feature Configuration (0X1F)

    Table 7-22 Get Feature Configuration Command Byte Data Field Request Data LSB of Emerson IANA Enterprise Number. A value of CDh shall be used. 2nd byte of Emerson IANA Enterprise Number. A value of 65h shall be used. MSB of Emerson IANA Enterprise Number. A value of 00h shall be used.

  • Page 116: Serial Output Commands

    LSB of Emerson IANA Enterprise number. A value of 0xCD has to be used. Second byte of Emerson IANA Enterprise number. A value of 0x65 has to be used. MSB of Emerson IANA Enterprise number. A value of 0x00 has to be used.

  • Page 117: Get Serial Output Command

    Byte Data Field Completion code LSB of Emerson IANA Enterprise number. Second byte of Emerson IANA Enterprise number. MSB of Emerson IANA Enterprise number. 7.4.2.2 Get Serial Output Command The Get Serial Output Command provides a way to determine which serial output source goes to a particular serial port connector.

  • Page 118: Table 7-27 Request Data Of Get Serial Output Command

    LSB of Emerson IANA Enterprise number. A value of 0xCD has to be used. Second byte of Emerson IANA Enterprise number. A value of 0x65 has to be used. MSB of Emerson IANA Enterprise number. A value of 0x00 has to be used.

  • Page 119: Pigeon Point Specific Commands

    Table 7-48 on page 135 0x2E/0x2F 0x16 Get Module State Table 7-49 on page 135 0x2E/0x2F 0x27 Enable Module Site Table 7-50 on page 137 0x2E/0x2F 0x28 Disable Module Site Table 7-51 on page 137 0x2E/0x2F 0x29 ATCA-7368 Installation and Use (6806800M12C)

  • Page 120: Get Status Command

    LSB Byte first: byte 1 = 0A, byte 2 = 40, byte 3 = 00 Response Data Completion Code PPS IANA Private Enterprise ID 0x00400A = 16394 (Pigeon Point Systems) LSB Byte first: byte 2 = 0A, byte 3 = 40, byte 4 = 00 ATCA-7368 Installation and Use (6806800M12C)
  • Page 121 Bits [0:3] Metallic Bus 1 Events These bits indicate pending Metallic Bus 1 requests arrived from the shelf manager: 0: Metallic Bus 1 Query 1: Metallic Bus 1 Release 2: Metallic Bus 1 Force 3: Metallic Bus 1 Free ATCA-7368 Installation and Use (6806800M12C)
  • Page 122 Bits [0:3] Clock Bus 3 Events These bits indicate pending Clock Bus 3 requests arrived from the shelf manager: 0: Clock Bus 3 Query 1: Clock Bus 3 Release 2: Clock Bus 3 Force 3: Clock Bus 3 Free ATCA-7368 Installation and Use (6806800M12C)

  • Page 123: Get Serial Interface Properties Command

    Bits [6:4] Reserved Bits [3:0] Baud Rate ID The baud rate ID defines the interface baud rate as follows: 0: 9600 bps 1: 19200 bps 2: 38400 bps 3: 57600 bps (unsupported) 4: 115200 bps (unsupported) ATCA-7368 Installation and Use (6806800M12C)

  • Page 124: Set Serial Interface Properties Command

    3: 57600 bps (unsupported) 4: 115200 bps (unsupported) Response Data Completion Code PPS IANA Private Enterprise ID 0x00400A = 16394 (Pigeon Point Systems) LSB Byte first: byte 2 = 0A, byte 3 = 40, byte 4 = 00 ATCA-7368 Installation and Use (6806800M12C)

  • Page 125: Get Debug Level Command

    Bit [1] Low-level Error Logging Enable If set to "1", the IPMC outputs low-level error/diagnostic messages onto the serial debug interface. Bit [0] Error Logging Enable If set to "1", the IPMC outputs error/diagnostic messages onto the serial debug interface. ATCA-7368 Installation and Use (6806800M12C)

  • Page 126: Set Debug Level Command

    Response Data Completion Code PPS IANA Private Enterprise ID 0x00400A = 16394 (Pigeon Point Systems) LSB byte first: byte 2 = 0A, byte 3 = 40, byte 4 = 00 ATCA-7368 Installation and Use (6806800M12C)

  • Page 127: Get Hardware Address Command

    LSB Byte first: byte 1 = 0A, byte 2 = 40, byte 3 = 00 Hardware Address If set to 00, the ability to override the hardware address is disabled. NOTE: A hardware address change only takes effect after an IPMC reset. Response Data Completion Code ATCA-7368 Installation and Use (6806800M12C)

  • Page 128: Get Handle Switch Command

    LSB Byte first: byte 2 = 0A, byte 3 = 40, byte 4 = 00 Handle Switch Status 0x00: The handle switch is open. 0x01: The handle switch is closed. 0x02: The handle switch state is read from hardware. ATCA-7368 Installation and Use (6806800M12C)

  • Page 129: Set Handle Switch Command

    Byte Data Field Request Data PPS IANA Private Enterprise ID 0x00400A = 16394 (Pigeon Point Systems) LSB Byte first: byte 1 = 0A, byte 2 = 40, byte 3 = 00 Response Data Completion Code ATCA-7368 Installation and Use (6806800M12C)

  • Page 130: Set Payload Communication Time-Out Command

    0.1 to 25.5 seconds. Response Data Completion Code PPS IANA Private Enterprise ID 0x00400A = 16394 (Pigeon Point Systems) LSB Byte first: byte 2 = 0A, byte 3 = 40, byte 4 = 00 ATCA-7368 Installation and Use (6806800M12C)

  • Page 131: Enable Payload Control Command

    LSB Byte first: byte 1 = 0A, byte 2 = 40, byte 3 = 00 Response Data Completion Code PPS IANA Private Enterprise ID 0x00400A = 16394 (Pigeon Point Systems) LSB Byte first: byte 2 = 0A, byte 3 = 40, byte 4 = 00 ATCA-7368 Installation and Use (6806800M12C)

  • Page 132: Reset Ipmc Command

    Byte Data Field Request Data PPS IANA Private Enterprise ID 0x00400A = 16394 (Pigeon Point Systems) LSB Byte first: byte 1 = 0A, byte 2 = 40, byte 3 = 00 Response Data Completion Code ATCA-7368 Installation and Use (6806800M12C)

  • Page 133: Graceful Reset Command

    LSB Byte first: byte 1 = 0A, byte 2 = 40, byte 3 = 00 Response Data Completion Code PPS IANA Private Enterprise ID 0x00400A = 16394 (Pigeon Point Systems) LSB Byte first: byte 2 = 0A, byte 3 = 40, byte 4 = 00 ATCA-7368 Installation and Use (6806800M12C)

  • Page 134: Get Payload Shutdown Time-Out Command

    Completion Code PPS IANA Private Enterprise ID 0x00400A = 16394 (Pigeon Point Systems) LSB Byte first: byte 2 = 0A, byte 3 = 40, byte 4 = 00 Time-Out measured in hundreds of milliseconds, LSB first ATCA-7368 Installation and Use (6806800M12C)

  • Page 135: Set Payload Shutdown Time-Out Command

    LSB Byte first: byte 1 = 0A, byte 2 = 40, byte 3 = 00 Module Site ID Response Data Completion Code PPS IANA Private Enterprise ID 0x00400A = 16394 (Pigeon Point Systems) LSB Byte first: byte 2 = 0A, byte 3 = 40, byte 4 = 00 ATCA-7368 Installation and Use (6806800M12C)
  • Page 136 0: Payload power is bad. 1: Payload power is good. Bit [6] 0: IPMB-L buffer is not attached. 1: IPMB-L buffer is attached. Bit [7] 0: IPMB-L buffer is not ready. 1: IPMB-L buffer is ready. ATCA-7368 Installation and Use (6806800M12C)

  • Page 137: Enable Module Site Command

    LSB Byte first: byte 1 = 0A, byte 2 = 40, byte 3 = 00 Module Site ID Response Data Completion Code PPS IANA Private Enterprise ID 0x00400A = 16394 (Pigeon Point Systems) LSB Byte first: byte 2 = 0A, byte 3 = 40, byte 4 = 00 ATCA-7368 Installation and Use (6806800M12C)

  • Page 138: Reset Carrier Sdr Repository Command

    LSB Byte first: byte 1 = 0A, byte 2 = 40, byte 3 = 00 Response Data Completion Code PPS IANA Private Enterprise ID 0x00400A = 16394 (Pigeon Point Systems) LSB Byte first: byte 2 = 0A, byte 3 = 40, byte 4 = 00 ATCA-7368 Installation and Use (6806800M12C)

  • Page 139: Fru Information And Sdr Summary

    Product name of the specific blade variant Product info area Product manufacturer 'EMERSON' Product name Product name of the specific blade variant Product serial number Defined by manufacture Product part number Product name of the specific blade variant ATCA-7368 Installation and Use (6806800M12C)

  • Page 140: E-Keying

    The following table lists the e-keying information provided by the blade. The respective information is contained in the point-to-point connectivity record area. The fiber channel interfaces (link type extension 2) described in the point-to-point connectivity record area are physically not supported by the blade. ATCA-7368 Installation and Use (6806800M12C)

  • Page 141: Table 8-2 Contents Of The Blade Point-To-Point Connectivity Record Area

    1 (Fabric Interface) 0 -SET 1 - NOT SET 2 - NOT 0x02 SET 3 - NOT SET Power Configuration The following table lists the power configuration of ATCA-7368 blade. Table 8-3 Power Configuration Item Value Description Dynamic power reconfiguration...

  • Page 142: Table

    Table 8-9 on page 150 -48V Amps Current 0x3 0x05 Table 8-10 on page 151 Holdup Cap Volts Voltage 0x2 0x06 Table 8-11 on page 153 Input Power Other Unitsbased 0x07 Table 8-12 on page 154 Sensor ATCA-7368 Installation and Use (6806800M12C)

  • Page 143: Table

    0xf1 BMC Watchdog Watchdog 2 0x23 0x1C Table 8-33 on page 185 IPMC POST Management Subsystem 0x1D Table 8-34 on page 186 Health 0x28 Version Change Version Change 0x2B 0x1E Table 8-35 on page 187 ATCA-7368 Installation and Use (6806800M12C)

  • Page 144: Table

    Entity Presence 0x25 0x25 Table 8-42 on page 195 Boot Bank 0x26 Table 8-43 on page 196 0xD2 Reset Source 0x27 Table 8-44 on page 197 0xD2 CPU Status Processor 0x07 0x28 Table 8-45 on page 198 ATCA-7368 Installation and Use (6806800M12C)

  • Page 145: Figure 8-1 Location Of Temperature Sensors

    FRU Information and SDR Summary The following figure shows the locations of all temperature sensors available on-board. Figure 8-1 Location of Temperature Sensors ATCA-7368 Installation and Use (6806800M12C)
  • Page 146 0x00 Base Unit 0x00 (unspecified) Rearm mode 0x01 Auto Hysteresis Support 0x00 No Hysteresis or unspecified Threshold Access 0x00 No Thresholds Support Event Message Control 0x01 Entire Sensor only Reading Definition See PICMG 3.0 Specification, ATCA-7368 Installation and Use (6806800M12C)
  • Page 147 Threshold Mask (Byte 20) 0x00 Base Unit 0x00 (unspecified) Rearm mode 0x01 Auto Hysteresis Support 0x00 No Hysteresis or unspecified Threshold Access 0x00 No Thresholds Support Event Message Control 0x01 Entire Sensor only Reading Definition ATCA-7368 Installation and Use (6806800M12C)
  • Page 148 Threshold Mask (Byte 20) 0x00 Base Unit 0x00 (unspecified) Rearm mode 0x01 Auto Hysteresis Support 0x00 No Hysteresis or unspecified Threshold Access 0x00 No Thresholds Support Event Message Control 0x01 Entire Sensor only Reading Definition ATCA-7368 Installation and Use (6806800M12C)
  • Page 149 Rearm mode 0x01 Auto Hysteresis Support 0x01 Readable Threshold Access 0x02 Readable and settable Support Event Message Control 0x00 Per Threshold/Discrete State Nominal Reading 0x94 Upper non-recoverable 0xE2 73.45 threshold Upper critical threshold 0xDF 72.475 ATCA-7368 Installation and Use (6806800M12C)
  • Page 150 Threshold Assertion Event Mask 0x14 (Byte 15) Assertion Event Mask 0x6A (Byte 16) Deassertion Event Mask 0x14 (Byte 17) Deassertion Event Mask 0x6A (Byte 18) Threshold Mask (Byte 19) 0x36 Threshold Mask (Byte 20) 0x36 ATCA-7368 Installation and Use (6806800M12C)
  • Page 151 Reading Definition Analog reading byte Analog sensor reading Table 8-10 -48V Amps Feature Raw Value Description Sensor Name -48V Current Sensor LUN 0x00 Sensor Number 0x05 Entity ID 0x0A Power Supply Sensor Type 0x03 Current ATCA-7368 Installation and Use (6806800M12C)
  • Page 152 6.77 threshold Upper critical threshold 0x45 6.49 Upper non-critical 0x41 6.11 threshold Lower non-recoverable 0x00 (unspecified) threshold Lower critical threshold 0x00 (unspecified) Lower non-critical 0x00 (unspecified) threshold Reading Definition Analog reading byte Analog sensor reading ATCA-7368 Installation and Use (6806800M12C)

  • Page 153: Table 8-11 Holdup Cap Volts

    0x04 Volts Rearm mode 0x01 Auto Hysteresis Support 0x01 Readable Threshold Access 0x02 Readable and settable Support Event Message Control 0x00 Per Threshold/Discrete State Nominal Reading 0xE4 Upper non-recoverable 0xFF threshold Upper critical threshold 0xFA ATCA-7368 Installation and Use (6806800M12C)
  • Page 154 0x80 (Byte 15) Assertion Event Mask 0x0A (Byte 16) Deassertion Event Mask 0x80 (Byte 17) Deassertion Event Mask 0x7A (Byte 18) Threshold Mask (Byte 19) 0x38 Threshold Mask (Byte 20) 0x38 Base Unit 0x04 Watts ATCA-7368 Installation and Use (6806800M12C)
  • Page 155 Analog sensor reading Table 8-13 PWR Status Feature Raw Value Description Sensor Name PWR Status Sensor LUN 0x00 Sensor Number 0x08 Entity ID 0x0A Power Supply Sensor Type 0xD7 OEM Reserved Event/Reading Type 0x6F Discrete (sensor-specific) ATCA-7368 Installation and Use (6806800M12C)
  • Page 156 Entire Sensor only Reading Definition Table 8-14 Inlet Temp Feature Raw Value Description Sensor Name Inlet Temp Sensor LUN 0x00 Sensor Number 0x09 Entity ID 0xA0 PICMG Front Board Sensor Type 0x01 Temperature Event/Reading Type 0x01 Threshold ATCA-7368 Installation and Use (6806800M12C)
  • Page 157 Per Threshold/Discrete State Nominal Reading ATCA7368_0GB : 0x1F ATCA7368_0GB : 31 ATCA7368_0GB_LS : ATCA7368_0GB_LS : 31 0x1F ATCA7368_0GB_CE : 30 ATCA7368_0GB_CE : ATCA7368_0GB_L_CE : 0x1E ATCA7368_0GB_L_CE : ATCA7368_0GB_LS_CE 0x1E ATCA7368_0GB_LS_CE : ATCA7368_0GB_LSL_CE 0x1E ATCA7368_0GB_LSL_CE : 0x1E ATCA-7368 Installation and Use (6806800M12C)
  • Page 158 ATCA7368_0GB : 44 threshold ATCA7368_0GB_LS : ATCA7368_0GB_LS : 44 0x2C ATCA7368_0GB_CE : 35 ATCA7368_0GB_CE : ATCA7368_0GB_L_CE : 0x23 ATCA7368_0GB_L_CE : ATCA7368_0GB_LS_CE : 0x23 ATCA7368_0GB_LS_CE : ATCA7368_0GB_LSL_CE : 0x23 ATCA7368_0GB_LSL_CE : 0x23 Lower non-recoverable 0x00 (unspecified) threshold ATCA-7368 Installation and Use (6806800M12C)
  • Page 159 Deassertion Event Mask 0x80 (Byte 17) Deassertion Event Mask 0x7A (Byte 18) Threshold Mask (Byte 19) 0x38 Threshold Mask (Byte 20) 0x38 Base Unit 0x01 deg. C Rearm mode 0x01 Auto Hysteresis Support 0x02 Readable and settable ATCA-7368 Installation and Use (6806800M12C)
  • Page 160 Upper non-recoverable ATCA7368_0GB : 0x50 ATCA7368_0GB : 80 threshold ATCA7368_0GB_LS : ATCA7368_0GB_LS : 80 0x50 ATCA7368_0GB_CE : 70 ATCA7368_0GB_CE : ATCA7368_0GB_L_CE : 0x46 ATCA7368_0GB_L_CE : ATCA7368_0GB_LS_CE : 0x46 ATCA7368_0GB_LS_CE : ATCA7368_0GB_LSL_CE : 0x46 ATCA7368_0GB_LSL_CE : 0x46 ATCA-7368 Installation and Use (6806800M12C)
  • Page 161 ATCA7368_0GB_L_CE : ATCA7368_0GB_LS_CE : 0x32 ATCA7368_0GB_LS_CE : ATCA7368_0GB_LSL_CE : 0x32 ATCA7368_0GB_LSL_CE : 0x32 Lower non-recoverable 0x00 (unspecified) threshold Lower critical threshold 0x00 (unspecified) Lower non-critical 0x00 (unspecified) threshold Reading Definition Analog reading byte Analog sensor reading ATCA-7368 Installation and Use (6806800M12C)
  • Page 162 Rearm mode 0x01 Auto Hysteresis Support 0x02 Readable and settable Threshold Access 0x02 Readable and settable Support Event Message Control 0x00 Per Threshold/Discrete State Nominal Reading 0x25 Upper non-recoverable 0x55 threshold Upper critical threshold 0x4B ATCA-7368 Installation and Use (6806800M12C)
  • Page 163 (Byte 15) Assertion Event Mask 0x0A (Byte 16) Deassertion Event Mask 0x80 (Byte 17) Deassertion Event Mask 0x0A (Byte 18) Threshold Mask (Byte 19) 0x38 Threshold Mask (Byte 20) 0x38 Base Unit 0x01 deg. C ATCA-7368 Installation and Use (6806800M12C)
  • Page 164 ATCA7368_0GB : 0x65 ATCA7368_0GB : 101 threshold ATCA7368_0GB_LS : ATCA7368_0GB-LS : 101 0x65 ATCA7368_0GB_CE : 94 ATCA7368_0GB_CE : ATCA7368_0GB_L_CE : 94 0x5E ATCA7368_0GB_LS_CE :94 ATCA7368_0GB_L_CE : ATCA7368_0GB_LSL_CE :94 0x5E ATCA7368_0GB_LS_CE : 0x5E ATCA7368_0GB_LSL_CE : 0x5E ATCA-7368 Installation and Use (6806800M12C)
  • Page 165 ATCA7368_0GB_L_CE : ATCA7368_0GB_LSL_CE : 74 0x4A ATCA7368_0GB_LS_CE : 0x4A ATCA7368_0GB_LSL_CE : 0x4A Lower non-recoverable 0x00 (unspecified) threshold Lower critical threshold 0x00 (unspecified) Lower non-critical 0x00 (unspecified) threshold Reading Definition Analog reading byte Analog sensor reading ATCA-7368 Installation and Use (6806800M12C)
  • Page 166 Rearm mode 0x01 Auto Hysteresis Support 0x02 Readable and settable Threshold Access 0x02 Readable and settable Support Event Message Control 0x00 Per Threshold/Discrete State Nominal Reading 0x28 Upper non-recoverable 0x5F threshold Upper critical threshold 0x55 ATCA-7368 Installation and Use (6806800M12C)
  • Page 167 (Byte 15) Assertion Event Mask 0x0A (Byte 16) Deassertion Event Mask 0x80 (Byte 17) Deassertion Event Mask 0x0A (Byte 18) Threshold Mask (Byte 19) 0x38 Threshold Mask (Byte 20) 0x38 Base Unit 0x01 deg. C ATCA-7368 Installation and Use (6806800M12C)
  • Page 168 Analog sensor reading Table 8-20 DDR 3 Temp Feature Raw Value Description Sensor Name DDR 3 Temp Sensor LUN 0x00 Sensor Number 0x0F Entity ID 0xA0 PICMG Front Board Sensor Type 0x01 Temperature Event/Reading Type 0x01 Threshold ATCA-7368 Installation and Use (6806800M12C)
  • Page 169 Upper non-recoverable 0x5F threshold Upper critical threshold 0x55 Upper non-critical 0x4B threshold Lower non-recoverable 0x00 (unspecified) threshold Lower critical threshold 0x00 (unspecified) Lower non-critical 0x00 (unspecified) threshold Reading Definition Analog reading byte Analog sensor reading ATCA-7368 Installation and Use (6806800M12C)
  • Page 170 Rearm mode 0x01 Auto Hysteresis Support 0x02 Readable and settable Threshold Access 0x02 Readable and settable Support Event Message Control 0x00 Per Threshold/Discrete State Nominal Reading 0x28 Upper non-recoverable 0x5F threshold Upper critical threshold 0x55 ATCA-7368 Installation and Use (6806800M12C)
  • Page 171 (Byte 15) Assertion Event Mask 0x0A (Byte 16) Deassertion Event Mask 0x80 (Byte 17) Deassertion Event Mask 0x0A (Byte 18) Threshold Mask (Byte 19) 0x38 Threshold Mask (Byte 20) 0x38 Base Unit 0x01 deg. C ATCA-7368 Installation and Use (6806800M12C)
  • Page 172 Analog sensor reading Table 8-23 DDR 6 Temp Feature Raw Value Description Sensor Name DDR 6 Temp Sensor LUN 0x00 Sensor Number 0x12 Entity ID 0xA0 PICMG Front Board Sensor Type 0x01 Temperature Event/Reading Type 0x01 Threshold ATCA-7368 Installation and Use (6806800M12C)
  • Page 173 Upper non-recoverable 0x5F threshold Upper critical threshold 0x55 Upper non-critical 0x4B threshold Lower non-recoverable 0x00 (unspecified) threshold Lower critical threshold 0x00 (unspecified) Lower non-critical 0x00 (unspecified) threshold Reading Definition Analog reading byte Analog sensor reading ATCA-7368 Installation and Use (6806800M12C)
  • Page 174 0x01 Auto Hysteresis Support 0x02 Readable and settable Threshold Access 0x02 Readable and settable Support Event Message Control 0x00 Per Threshold/Discrete State Nominal Reading 0xCE Upper non-recoverable 0xF0 13.9 threshold Upper critical threshold 0xE5 13.3 ATCA-7368 Installation and Use (6806800M12C)
  • Page 175 Threshold Assertion Event Mask 0x14 (Byte 15) Assertion Event Mask 0x6A (Byte 16) Deassertion Event Mask 0x14 (Byte 17) Deassertion Event Mask 0x6A (Byte 18) Threshold Mask (Byte 19) 0x36 Threshold Mask (Byte 20) 0x36 ATCA-7368 Installation and Use (6806800M12C)
  • Page 176 Analog reading byte Analog sensor reading Table 8-26 3.3V Mgmt Feature Raw Value Description Sensor Name 3.3V Mgmt Sensor LUN 0x00 Sensor Number 0x15 Entity ID 0x14 power module / DC-to-DC converter Sensor Type 0x02 Voltage ATCA-7368 Installation and Use (6806800M12C)
  • Page 177 0xAC Upper non-recoverable 0xBE threshold Upper critical threshold 0xB6 Upper non-critical 0x00 (unspecified) threshold Lower non-recoverable 0x99 threshold Lower critical threshold 0xA1 Lower non-critical 0x00 (unspecified) threshold Reading Definition Analog reading byte Analog sensor reading ATCA-7368 Installation and Use (6806800M12C)
  • Page 178 Rearm mode 0x01 Auto Hysteresis Support 0x02 Readable and settable Threshold Access 0x02 Readable and settable Support Event Message Control 0x00 Per Threshold/Discrete State Nominal Reading 0xB8 Upper non-recoverable 0xCD threshold Upper critical threshold 0xC3 ATCA-7368 Installation and Use (6806800M12C)
  • Page 179 Threshold Assertion Event Mask 0x14 (Byte 15) Assertion Event Mask 0x6A (Byte 16) Deassertion Event Mask 0x14 (Byte 17) Deassertion Event Mask 0x6A (Byte 18) Threshold Mask (Byte 19) 0x36 Threshold Mask (Byte 20) 0x36 ATCA-7368 Installation and Use (6806800M12C)
  • Page 180 Reading Definition Analog reading byte Analog sensor reading Table 8-29 1.2V Feature Raw Value Description Sensor Name 1.2V Sensor LUN 0x00 Sensor Number 0x18 Entity ID 0x14 power module / DC-to-DC converter Sensor Type 0x02 Voltage ATCA-7368 Installation and Use (6806800M12C)
  • Page 181 0x7B Upper non-recoverable 0x88 threshold Upper critical threshold 0x82 Upper non-critical 0x00 (unspecified) threshold Lower non-recoverable 0x6E threshold Lower critical threshold 0x74 Lower non-critical 0x00 (unspecified) threshold Reading Definition Analog reading byte Analog sensor reading ATCA-7368 Installation and Use (6806800M12C)
  • Page 182 0x01 Auto Hysteresis Support 0x02 Readable and settable Threshold Access 0x02 Readable and settable Support Event Message Control 0x00 Per Threshold/Discrete State Nominal Reading 0x71 Upper non-recoverable 0x98 1.49 threshold Upper critical threshold 0x90 1.41 ATCA-7368 Installation and Use (6806800M12C)
  • Page 183 0x02 Voltage Event/Reading Type 0x01 Threshold Assertion Event Mask 0x14 (Byte 15) Assertion Event Mask 0x6A (Byte 16) Deassertion Event Mask 0x14 (Byte 17) Deassertion Event Mask 0x6A (Byte 18) Threshold Mask (Byte 19) 0x36 ATCA-7368 Installation and Use (6806800M12C)
  • Page 184 0x00 (unspecified) threshold Reading Definition Analog reading byte Analog sensor reading Table 8-32 IPMB0 Link Feature Raw Value Description Sensor Name IPMB0 Link Sensor LUN 0x00 Sensor Number 0x1B Entity ID 0xA0 PICMG Front Board ATCA-7368 Installation and Use (6806800M12C)
  • Page 185 No Thresholds Support Event Message Control 0x01 Entire Sensor only Reading Definition Table 8-33 BMC Watchdog Feature Description Raw Value Sensor Name BMC Watchdog Sensor LUN 0x00 Sensor Number 0x1C Entity ID 0xA0 PICMG Front Board ATCA-7368 Installation and Use (6806800M12C)
  • Page 186 No Hysteresis or unspecified Threshold Access 0x00 No Thresholds Support Event Message Control 0x01 Entire Sensor only Reading Definition Table 8-34 IPMC POST Feature Raw Value Description Sensor Name IPMC POST Sensor LUN 0x00 Sensor Number 0x1D ATCA-7368 Installation and Use (6806800M12C)
  • Page 187 0x00 No Hysteresis or unspecified Threshold Access 0x00 No Thresholds Support Event Message Control 0x01 Entire Sensor only Reading Definition Table 8-35 Version Change Feature Raw Value Description Sensor Name Ver Change Sensor LUN 0x00 ATCA-7368 Installation and Use (6806800M12C)
  • Page 188 0x00 No Hysteresis or unspecified Threshold Access 0x00 No Thresholds Support Event Message Control 0x01 Entire Sensor only Reading Definition Table 8-36 FW Progress Feature Raw Value Description Sensor Name FW Progress Sensor LUN 0x00 ATCA-7368 Installation and Use (6806800M12C)
  • Page 189 0x00 No Hysteresis or unspecified Threshold Access 0x00 No Thresholds Support Event Message Control 0x01 Entire Sensor only Reading Definition Table 8-37 OS Boot Feature Raw Value Description Sensor Name OS Boot Sensor LUN 0x00 ATCA-7368 Installation and Use (6806800M12C)
  • Page 190 Rearm mode 0x01 Auto Hysteresis Support 0x00 No Hysteresis or unspecified Threshold Access 0x00 No Thresholds Support Event Message Control 0x01 Entire Sensor only Reading Definition See IPMI 1.5 Specification, chapter "Sensor Type Codes and Data" ATCA-7368 Installation and Use (6806800M12C)
  • Page 191 0x00 Base Unit 0x00 (unspecified) Rearm mode 0x01 Auto Hysteresis Support 0x00 No Hysteresis or unspecified Threshold Access 0x00 No Thresholds Support Event Message Control 0x01 Entire Sensor only Reading Definition See IPMI 1.5 Specification, ATCA-7368 Installation and Use (6806800M12C)
  • Page 192 Threshold Mask (Byte 20) 0x00 Base Unit 0x00 (unspecified) Rearm mode 0x01 Auto Hysteresis Support 0x00 No Hysteresis or unspecified Threshold Access 0x00 No Thresholds Support Event Message Control 0x01 Entire Sensor only Reading Definition ATCA-7368 Installation and Use (6806800M12C)
  • Page 193 Threshold Mask (Byte 20) 0x00 Base Unit 0x00 (unspecified) Rearm mode 0x01 Auto Hysteresis Support 0x00 No Hysteresis or unspecified Threshold Access 0x00 No Thresholds Support Event Message Control 0x01 Entire Sensor only Reading Definition ATCA-7368 Installation and Use (6806800M12C)
  • Page 194 Threshold Mask (Byte 20) 0x00 Base Unit 0x00 (unspecified) Rearm mode 0x01 Auto Hysteresis Support 0x00 No Hysteresis or unspecified Threshold Access 0x00 No Thresholds Support Event Message Control 0x01 Entire Sensor only Reading Definition ATCA-7368 Installation and Use (6806800M12C)
  • Page 195 Threshold Mask (Byte 20) 0x00 Base Unit 0x00 (unspecified) Rearm mode 0x01 Auto Hysteresis Support 0x00 No Hysteresis or unspecified Threshold Access 0x00 No Thresholds Support Event Message Control 0x01 Entire Sensor only Reading Definition ATCA-7368 Installation and Use (6806800M12C)
  • Page 196 Threshold Mask (Byte 20) 0x00 Base Unit 0x00 (unspecified) Rearm mode 0x01 Auto Hysteresis Support 0x00 No Hysteresis or unspecified Threshold Access 0x00 No Thresholds Support Event Message Control 0x01 Entire Sensor only Reading Definition ATCA-7368 Installation and Use (6806800M12C)
  • Page 197 Threshold Mask (Byte 20) 0x00 Base Unit 0x00 (unspecified) Rearm mode 0x01 Auto Hysteresis Support 0x00 No Hysteresis or unspecified Threshold Access 0x00 No Thresholds Support Event Message Control 0x01 Entire Sensor only Reading Definition ATCA-7368 Installation and Use (6806800M12C)
  • Page 198 Threshold Mask (Byte 20) 0x00 Base Unit 0x00 (unspecified) Rearm mode 0x01 Auto Hysteresis Support 0x00 No Hysteresis or unspecified Threshold Access 0x00 No Thresholds Support Event Message Control 0x01 Entire Sensor only Reading Definition ATCA-7368 Installation and Use (6806800M12C)

  • Page 199: Table 9-1 Sensor Data Records

    Chapter 9 Sensor Data Records Overview This chapter provides the detailed description of Sensor Data Records contained on ATCA-7368 board. Sensor Data Records The sensors available on the blades are listed in the Table 9-1. For sensor threshold definition, use the "ipmitool" available at http://sourceforge.net/projects/ipmitool/files/ipmitool/...
  • Page 200 Chapter 9 Table 9-1 Sensor Data Records (continued) Sensor Event/Reading Event Assertion Number Sensor Name Sensor Type Type Event Data Byte 1 Event Data Byte 2 Event Data Byte 3 Threshold/Description Deassertion Rearm 0x01 HS AMC Hot Swap Sensor-specific [7:4] = See IPMC Spec [7:4] = Cause of state [7:0] =FRU Device For the Field: Current...
  • Page 201 Change detected 0xD7 [3:0] = 0h discrete [6] = VOUT_low 0 = Synchor 0x6F [5] = Hotswap 1 =Emerson Pwr Entry Module: [4] = Holdup All other bits are [2] = Alarm reserved [1] = Enable_B [0] Enable_A Emerson Pwr Entry...
  • Page 202 Chapter 9 Table 9-1 Sensor Data Records (continued) Sensor Event/Reading Event Assertion Number Sensor Name Sensor Type Type Event Data Byte 1 Event Data Byte 2 Event Data Byte 3 Threshold/Description Deassertion Rearm 0x10 DDR 4 temp Temperature Threshold See IPMI Spec reading threshold unr uc unc...
  • Page 203 Chapter 9 Table 9-1 Sensor Data Records (continued) Sensor Event/Reading Event Assertion Number Sensor Name Sensor Type Type Event Data Byte 1 Event Data Byte 2 Event Data Byte 3 Threshold/Description Deassertion Rearm 0x1C BMC Watchdog Watchdog 2 Sensor-specific [7:4] = (See IPMC Spec) See IPMI Spec 0xFF 0x0: Timer expired...
  • Page 204 Chapter 9 Table 9-1 Sensor Data Records (continued) Sensor Event/Reading Event Assertion Number Sensor Name Sensor Type Type Event Data Byte 1 Event Data Byte 2 Event Data Byte 3 Threshold/Description Deassertion Rearm OS Boot 0x1F Sensor-specific 0x20 OS Boot 0x0: A: boot completed Auto discrete...
  • Page 205 Table 9-1 Sensor Data Records (continued) Sensor Event/Reading Event Assertion Number Sensor Name Sensor Type Type Event Data Byte 1 Event Data Byte 2 Event Data Byte 3 Threshold/Description Deassertion Rearm IPMC Status Sensor-specific 0x24 OEM 0xD5 No Event for this sensor. Auto discrete Reading Value = 0;...
  • Page 206 Table 9-1 Sensor Data Records (continued) Sensor Event/Reading Event Assertion Number Sensor Name Sensor Type Type Event Data Byte 1 Event Data Byte 2 Event Data Byte 3 Threshold/Description Deassertion Rearm Sensor-specific [7:2] = Reserved Asrt Auto 0x27 Reset Source 0xA0 bit0: RST_N: Payload Payload Reset detected.

  • Page 207: Figure A-1 Location Of On-Board Battery

    Replacing the Battery Some blade variants contain an on-board battery. Its location is shown in the following figure. A battery-less variant based on SUPERCAP is available on demand. Figure A-1 Location of On-board Battery On-board Battery ATCA-7368 Installation and Use (6806800M12C)
  • Page 208 Replacing the Battery The battery provides data retention of seven years summing up all periods of actual data use. Emerson therefore assumes that there is usually no need to replace the battery except, for example, in case of long-term spare part handling.
  • Page 209 Removing the battery with a screw driver may damage the PCB or the battery holder. To prevent this damage, do not use a screw driver to remove the battery from its holder. 2. Install the new battery following the "positive" and "negative" signs. ATCA-7368 Installation and Use (6806800M12C)
  • Page 210 Replacing the Battery ATCA-7368 Installation and Use (6806800M12C)

  • Page 211: Table B-1 Emerson Network Power - Embedded Computing Publications

    The publications listed below are referenced in this manual. You can obtain electronic copies of Emerson Network Power - Embedded Computing publications by contacting your local Emerson sales office. For documentation of final released (GA) products, you can also visit the website for the latest copies of our product documentation: Go to http://www.emersonnetworkpower.com/EmbeddedComputing.

  • Page 212: Table B-2 Related Specifications

    PCI-SIG PCI Local Bus Specification Revision 2.2 PCI-X Addendum to the PCI Local Bus Specification 1.0 PICMG PICMG 3.0 Revision 2.0 Advanced TCA Base Specification PICMG 3.1 Revision 1.0 Specification Ethernet/Fiber Channel for AdvancedTCA Systems ATCA-7368 Installation and Use (6806800M12C)

  • Page 213: Safety Notes

    The blade has been tested in a standard Emerson system and found to comply with the limits for a Class A digital device in this system, pursuant to part 15 of the FCC Rules, EN 55022 Class A respectively.
  • Page 214 High humidity and condensation on the blade surface causes short circuits. Do not operate the blade outside the specified environmental limits. Make sure the blade is completely dry and there is no moisture on any surface before applying power. ATCA-7368 Installation and Use (6806800M12C)
  • Page 215 'reserved' has to be checked and changed before blade installation. Blade Damage Setting/resetting the switches during operation can cause blade damage. Therefore, check and change switch settings before you install the blade. ATCA-7368 Installation and Use (6806800M12C)
  • Page 216 Therefore, always use the same type of Lithium battery as is installed and make sure the battery is installed as described in this manual. Environment Always dispose of used blades, system components and RTMs according to your country’s legislation and manufacturer’s instructions. ATCA-7368 Installation and Use (6806800M12C)

  • Page 217: Sicherheitshinweise

    Produkt mit vielfältigen Einsatzmöglichkeiten handelt, können wir die Vollständigkeit der im Handbuch enthaltenen Informationen nicht garantieren. Falls Sie weitere Informationen benötigen sollten, wenden Sie sich bitte an die für Sie zuständige Geschäftsstelle von Emerson. Das System erfüllt die für die Industrie geforderten Sicherheitsvorschriften und darf ausschließlich für Anwendungen in der Telekommunikationsindustrie und im Zusammenhang...
  • Page 218 Sicherheitshinweise Das Blade wurde in einem Emerson Standardsystem getestet. Es erfüllt die für digitale Geräte der Klasse A gültigen Grenzwerte in einem solchen System gemäß den FCC-Richtlinien Abschnitt 15 bzw. EN 55022 Klasse A. Diese Grenzwerte sollen einen angemessenen Schutz vor Störstrahlung beim Betrieb des Blades in Gewerbe- sowie Industriegebieten...
  • Page 219 Eingangsleitungen A und B verursachen. In diesem Fall ist Leitung A immer noch unter Spannung, auch wenn sie vom Versorgungskreislauf getrennt ist (und umgekehrt). Prüfen Sie deshalb immer, ob die Leitung spannungsfrei ist, bevor Sie Ihre Arbeit fortsetzen, um Schäden oder Verletzungen zu vermeiden. ATCA-7368 Installation and Use (6806800M12C)
  • Page 220 Verwenden Sie deshalb nur den Batterietyp, der auch bereits eingesetzt wurde und befolgen Sie die Installationsanleitung. Umweltschutz Entsorgen Sie alte Batterien und/oder Blades/Systemkomponenten/RTMs stets gemäß der in Ihrem Land gültigen Gesetzgebung und den Empfehlungen des Herstellers. ATCA-7368 Installation and Use (6806800M12C)
  • Page 222 Precision Cooling Surge & Signal Protection Emerson, Business-Critical Continuity, Emerson Network Power and the Emerson Network Power logo are trademarks and service marks of Emerson Electric Co. All other product or service names are the property of their respective owners.

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