MegaRAC M300V Card Implementer s Reference and User s Guide

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1 MegaRAC M300V Card Implementer s Reference and User s Guide MAN-M300V 07/9/07

2 Copyright American Megatrends, Inc. All rights reserved. American Megatrends, Inc Oakbrook Parkway, Building 200, Norcross, GA Revision History This publication contains proprietary information which is protected by copyright. No part of this publication can be reproduced, transcribed, stored in a retrieval system, translated into any language or computer language or transmitted in any form whatsoever without the prior written consent of the publisher, American Megatrends, Inc. American Megatrends, Inc. acknowledges the following trademarks: AMD is a registered trademark of Advanced Micro Devices. Other trademarks and trade names may be used in this document to refer to either the entities claiming the marks and names or their products. American Megatrends, Inc. disclaims any proprietary interest in trademarks and trade names other than its own. 07/09/07 Initial release ii MegaRAC M300V Card Implementer s Reference and User s Guide

3 Table of Contents Revision History... ii Table of Contents... iii Limited Warranty... vi Disclaimer... vi Chapter 1 Introduction... 1 Features... 2 Acronyms and Terminology... 4 Conventions... 6 Reference Documents... 7 Chapter 2 M300V Card Layout... 9 MegaRAC M300V card Layout... 9 Chapter 3 M300V GUI M300V GUI Overview Initial Configuration of the MegaRAC M300V card Setup your Client System s Internet Browser Default User Name and Password MegaRAC GUI Explained Menu Bar General Information Group System Information Server Health Group Sensor Reading Sensor Readings with Thresholds Event Log Sensor Monitoring Options Configuration Group Alert List Alert List : Modify Alert Alert List : Send Test Alert LDAP Settings Mouse Mode Settings Network Settings SMTP Setting SSL Configuration User List Add New User Modify User Delete User Remote Control Group Launch Redirection Remote Console Shortcut Key Combinations Console Redirection Window Console Redirection Window : Video Console Redirection Window : Keyboard Console Redirection Window : Mouse Console Redirection Window : Options Console Redirection Window : Device Console Redirection Window : Help Power Status and Control Maintenance Group Preface iii

4 Firmware Update Languages Logging Out Chapter 4 M300V Interface Signal Specifications Overview Signal Callout Grouped by Functions LED Control Signals Signal Group: LED Control USB Interface Signals Signal Group: USB Push-Button Signals Signal Group: Buttons Video Capture DVI-I Signals Signal Group: Video Capture DVI-I Multi-Bank Fan Control Signals Signal Group: Multi-Bank Fan Control Multiplexed Fan Tach Input Signals Signal Group: Multiplexed Fan Tachometers Fan Tach MUX Bank Selector Signals Signal Group: Multiplexed Fan Tachometer Controls Single Wire Analog Voltage Sensor Signals Signal Group: Single Wire Analog Sensors MCard Serial Port and ICMB Signal Group: mcard Serial Port and ICMB Serial Over LAN Feedback Path Signal Group: SoL Serial Port Dedicated Management Ethernet Signals BMC Host Interface ID Signals Signal Group: Interface Type ID MCard Presence Detection Signal Signal Group: Card Detect System Status Signals Signal Group: Status System Control Signals Signal Group: Control I 2 C or SMBus Signals Signal Group: I 2 C or SMBus LPC Bus Signals Signal Group: LPC Miscellaneous Signals Signal Group: Miscellaneous Firmware Debugger Probe Signals Signal Group: Debug Interface Signal Group: Debug Power OPMA Hardware Resources SEEPROM Address Reservation OPMA Feature Card Power Requirements OPMA Feature Card Signal Tolerance Requirements OPMA Signals Grouped by Function Chapter 5 OPMA Connector Specification and Pin Assignments Overview Pin Assignments for the OPMA Connector Chapter 6 M300V Card Mechanicals iv MegaRAC M300V Card Implementer s Reference and User s Guide

5 MegaRAC M300V DDR2 Polarization Key MegaRAC M300V Card Mechanical Form Factor OPMA LAN and Serial Port Connector Scheme Management LAN and UART Connectors Chapter 7 Serial over LAN Support Serial over LAN Support MCARD_DETECT_L = Logic High MCARD_DETECT_L = Logic Low MCARD_AUX_SoL_CTRL_L = Logic High MCARD_AUX_SoL_CTRL_L = Logic Low Possible UART Configurations MegaRAC M300V Card Not Present MegaRAC M300V Card Present and on SoL Mode (Default) MegaRAC M300V Card Present and in Non-SoL Mode Chapter 8 Motherboard Hardware Support Overview General Signal Termination Fan Tachometer Read Back Fan Tach Monitoring Circuit Block Diagram Fan Tach Monitoring Circuit Example Fan Speed Control Fan Speed Control Circuit Block Diagram Fan Speed Control PWM-to-DC Converter Circuit Example Clear CMOS Circuit CMOS Clearing Circuit Example System Speaker Control Circuit Speaker Control Circuit Example Local Access Lock Out Partial Circuit Example for Local Access Lock Out ACPI State Reporting Signal Encoding for ACPI State Reporting DVI Digital Visual Interface ICMB RS-485 Level Translation Circuit Management UART Signal Level Translation Management UART Signal Multiplexing Support for Dedicated Management LAN MCard Presence Detect and Interface ID Support Motherboard Support for I/O Functions Motherboard Support for MegaRAC M300V SCI Interrupt Signal Motherboard I/O Terminations Chapter 9 BIOS/Firmware Considerations MCard Presence Detect Card Detect Signal States MCard IPMI Command Interface Type Detection Management Subsystem Host Interface Type Encoding IPMI Command Hardware Interface Support IPMI Command BIOS Interface Support MegaRAC M300V Card Presence, Health and BMC Firmware Revision Reporting BIOS POST Screen System Identification Index Preface v

6 Limited Warranty Disclaimer The buyer agrees that if this product proves to be defective, American Megatrends is only obligated to repair or replace this product at American Megatrends discretion according to the terms and conditions of the warranty registration card that accompanies this product. American Megatrends shall not be liable in tort or contract for any loss or damage, direct, incidental or consequential resulting from the use of this product. Please see the Warranty Registration Card shipped with this product for full warranty details. This manual describes the operation of the American Megatrends MegaRAC M300V card. Although efforts have been made to assure the accuracy of the information contained here, American Megatrends expressly disclaims liability for any error in this information and for damages, whether direct, indirect, special, exemplary, consequential or otherwise, that may result from such error, including but not limited to the loss of profits resulting from the use or misuse of the manual or information contained therein (even if American Megatrends has been advised of the possibility of such damages). Any questions or comments regarding this document or its contents should be addressed to American Megatrends at the address shown on the inside of the front cover. American Megatrends provides this publication as is without warranty of any kind, either expressed or implied, including, but not limited to, the implied warranties of merchantability or fitness for a specific purpose. Some states do not allow disclaimer of express or implied warranties or the limitation or exclusion of liability for indirect, special, exemplary, incidental or consequential damages in certain transactions; therefore, this statement may not apply to you. Also, you may have other rights which vary from jurisdiction to jurisdiction. This publication could include technical inaccuracies or typographical errors. Changes are periodically made to the information herein; these changes will be incorporated in new editions of the publication. American Megatrends may make improvements and/or revisions in the product(s) and/or the program(s) described in this publication at any time. Requests for technical information about American Megatrends products should be made to your American Megatrends authorized reseller or marketing representative. vi MegaRAC M300V Card Implementer s Reference and User s Guide

7 Chapter 1 Introduction 16MB Flash Module 16MB Frame Buffer Memory Reset Switch (push to reset, button is located on the left side) 32 MB SOC Memory American Megatrends Inc. MegaRAC MG9091B Controller Chip DDR2 Key OPMA Specification (Ver. 1.2) Notice that the notch is located closer to the leads on the right than the leads on the left. The MegaRAC M300V card is a high-end OPMA service processor based on AMI's MG 9091B (Verbena II) System on Chip (SOC). The MegaRAC M300V card allows for complete server management, with text and graphical redirection, in a 2.50' x 2.75' form factor. The MegaRAC M300V card enables OEMs and motherboard manufacturers to easily integrate KVM server management into their server and board designs. The MegaRAC M300V card is a 2.5" x 2.75" daughter card module, which implements AMI's extensive IPMI and KVM/IP technology in a management card solution compatible with all Intel and AMD -type motherboards with OPMA connector. The module interfaces with various components on the motherboard to manage the server efficiently. The MegaRAC M300V card is based on AMI's MG 9091 (Verbena II) highly integrated System on Chip (SOC). Verbena II SOC provides both Serial over LAN and KVM over LAN capability, as well as a 10/100 Base-T LAN connection for dedicated management LAN. Serial over LAN allows for remote operation of the server via a terminal interface, connected via an RS232 link. KVM over LAN allows for remote server operation that adds graphical redirection to text, using the server s video output and keyboard and mouse inputs. The MegaRAC M300V card features video capture of up to 1280 x 1024, applying AMI's AAVICAII compression engine, which uses intelligent algorithms to significantly reduce network traffic and provide high-performance redirection. The engine interfaces with the server s DVO video interface and USB bus. The MegaRAC M300V card implements media redirection for the CD/DVD/ROM drive and floppy drive at the same time. This feature enables remote installation of the operating system or applications. Chapter One : Introduction 1

8 Features Feature Description Key Features 2.5 by 2.75 Daughter card with OPMA connector MG 9091 System on Chip Memory: 16MB Flash ROM, 32MB SDRAM (PC100) Serial port - UART USB 2.0 for Mass Storage/Keyboard/Mouse (Composite Device) Integrated Watchdog Timer IPMB support (I2C based) Power Consumption: 3.3V - 800mA AMI MG9091 Controller Highly Integrated System on Chip (SoC) 200 MIPS 32-bit ARM CPU with MMU, 16K-I Cache, 16-D Cache CPU SDRAM Controller / Static Memory Controller and Flash Video Processor Up to 1280 X 1024 Capture Engine RGB DVO Input AAVICA-IIA Compression Engine 16Mbyte Frame Buffer SDRAM Ethernet: 10/100 Ethernet MAC USB:1xUSB 2.0 Device Controller and PHY Encryption Engine DES / Triple-DES / AES Encryption / Decryption compliant with NIST Standard AES 128/192/256-bit Keys Peripherals 5x I2C Controllers and 2x UARTs RTC, Timer, Watchdog Timer and Interrupt Controller 4x PWMs and 8x Tach Inputs 22 Dedicated GPIOs, 26 Shared GPIOs 200 KSPS, 8-channel ADC, 10-bit Resolution ADC Integrated LPC Interface 3X KCS Interface Port 80H Snoop Support BT Interface with 512 FIFO Bus master Support 484 Pin BGA 23x23 mm Package KVM/IP (Console Redirection) High performance redirection, up to 35 frames per second Dynamic selection of 1 bit, 4 bit Gray, 7/8/16 bit color Resolution support: 1280 X X X X 480 Low network bandwidth requirement Auto session timeout for security Media Redirection Simultaneous floppy and CD/DVD redirection USB 2.0 based CD/DVD redirection with up to 18x CD speed Support for USB key and USB hard disk Auto session timeout for security Virtual Presence and Front Panel Customizable GUI for the front panel Redirection Provides virtual reality of the remote server management LCD/LED status display Floppy, CD/DVD tray control At-a-glance snapshot of the server screen 2 MegaRAC M300V Card Implementer s Reference and User s Guide

9 Feature Description IPMI 2.0 Based Management Manages the IPMI 2.0 based BMC present in the server Runs the virtual BMC stack for BMC-less systems and presents as a full IPMI 2.0 compliant BMC Customizable sensor management Event Log Log full and partial full events Front panel status (LCD/LED) Sensor readings Event log full alerts Web Based User Interface Cross browser/cross platform support Customizable GUI Added security with SSL (HTTPS) Sophisticated User Management Multiple user permission level Many user profiles Web based configuration of the user profiles LDAP Client Support Direct LDAP support from the device Windows Active Directory and Open-LDAP support Client application to extend the LDAP schema easily SMASH and CLP Support IPMI 2.0 boot option support Telnet based SoL Power control of the server Fully compliant with the DMTF specification Side-Band and Dedicated NIC Dedicated NIC support Security SSL (Secured Socket Layer) Encryption (Blowfish) Authentication (MD5 hash) SHA SNMP v3 (DES) Multilanguage Support Full Unicode support Multiple language support for multiple clients simultaneously Web Based Configuration Full configuration using Web UI Personality migration Fail-safe firmware upgrade OEM Tools AMI-PMCP for customizing the sensors MegaRAC Studio for customizing the GUI Platform Development Kit Chapter One : Introduction 3

10 Acronyms and Terminology This section lists the definitions of acronyms and terms used in this specification. In some of the definitions, the IPMI Specification is referred to. Term BIOS BMC BT CLI CMOS COTS DDC DDWG DVI FRU I 2 C ICMB IHV IPMB ISV JTAG KCS KVMoIP LED LPC LUN mcard NIC ODM OEM OOB OPMA Definition Basic Input Output System. This is the boot firmware on a standard PC system (including servers). It also provides some abstraction for system hardware. Baseboard Management Controller. This is the main component of the OPMA subsystem that provides IPMI command processing, alerting, error logging, and so on in compliance with the IPMI specification. IPMI s Block Transfer command interface. Command Line Interface. This is a text-based interface to a BMC. Commercial Metal Oxide Semiconductor. This term refers to a battery-backed storage element found on legacy PC systems. Commercial Off The Shelf. This refers to items that are commonly available commercially, not custom. Display Data Channel. Provides plug-and-play data to whatever device the monitor is plugged into. Digital Display Working Group owns DVI specification. Digital Visual Interface. A set of buses for moving video data within a system. DVI-D digitally encodes the video data and then puts it out onto a bus. DVI-A is simply the same analog video signals seen on a standard VGA connector. DVI-I is the union of DVI-D and DVI-A signals to provide both methods of video information transmission over a single cable and/or connector. Field Replaceable Unit. See the IPMI specification for details. Inter-Integrated Circuit bus. A simple two-wire bus often used to allow system processing elements to read low cost sensor devices. An I 2 C device interfaces to the system via the I 2 C bus. Intelligent Chassis Management Bus. An IPMI-defined bus for connecting management processors that exist in separate physical chassis. See the IPMI specification for details. Independent Hardware Vendor. In this document the IHV is American Megatrends Inc. Intelligent Platform Management Bus. An IPMI-defined bus for connecting management processors that exist in a single physical chassis. See IPMI specification for details. Independent Software Vendor. Used in this specification to refer to the manufacturer of OPMA subsystem board firmware, OS-level drivers and OS-level applications. Joint Test Action Group IPMI s Keyboard Controller Style command interface Keyboard, Video and Mouse over Internet Protocol. Used for implementing remote video consoles on headless (for example, no local keyboard mouse or display) servers. Light Emitting Diode A reference to the low pin count bus specification. This is a common host system interface bus for BMCs. IPMI Logical Unit Number This is the generic name for an OPMA-compliant Management Card. It is a modular, connector based management subsystem which contains the BMC and associated hardware resources. In this document, mcard, OPMA feature card and MegaRAC M300V card are used interchangeably. Network Interface Chip (a/k/a Ethernet controller). Typically includes an Ethernet Media Access Controller and may also include an integrated physical layer (PHY). Original Design Manufacturer. Used in this specification to refer to the developers of motherboards that are used in a completed server system. Original Equipment Manufacturer. Used in this specification to refer to the server system manufacturer. Out Of Band. A platform hardware management communications channel that connects a remote console directly to the BMC. This channel is working even when the managed platform is in a soft off state. Open Platform Management Architecture. This acronym is used in several contexts as follows: OPMA architecture This is the overall description of the way OPMA subsystem cards connect to and interact with the motherboard. It includes not only the OPMA connector and associated electrical specification, but required firmware interfaces as well as other resources located on the motherboard that are required to support the intended usage model. The OPMA architecture is described in this specification. OPMA subsystem An implementation of the OPMA architecture on the motherboard taken together with an OPMA feature card. OPMA feature card This is a feature board that contains the majority of the management subsystem hardware. The term mcard (management card) is often used for this in the interest of brevity. OPMA connector This is the connector into which an OPMA feature card (MegaRAC M300V card) is plugged to provide a given system hardware management feature set. 4 MegaRAC M300V Card Implementer s Reference and User s Guide

11 Term OSPM PLD POST PWM RxD SCI SDR SDRR SEEPRO M SEL SERIRQ SMBus SMIC SoL SPD SSIF TxD USB Zero Impact Definition OPMA interface This refers collectively to all OPMA signals that are routed to and from the OPMA connector. The term interface as used in this document refers to an electrical interface as opposed to software or command interfaces. Operating System directed Power Management Programmable Logic Device Power On Self Test. In this specification, POST refers to code run at boot time by the BIOS on a server. Pulse Width Modulation Receive Data System Control Interrupt. This is a way to notify the ACPI subsystem that a device is requesting service. Sensor Data Record. See the IPMI specification for details. Sensor Data Record Repository Serial Electrically Erasable Programmable Read-Only Memory System Error Log. See the IPMI specification for details. Serialize Interrupt Request. See the LPC specification for details. An I 2 C bus derivative. IPMI s Server Management Interface Chip command interface Serial over LAN. The redirecting of text data to a remote text console using Ethernet as a transport. Redirected text is typically the BMC s CLI or system-generated text such as BIOS boot and setup screens. Serial Presence Detect (used for DRAM auto sizing) IPMI s SMBus System Interface command interface Transmit Data Universal Serial Bus The ability to add an OPMA connector to an existing system for the purposes of upgrading the existing management subsystem without requiring changes in either the existing down solution firmware or in system BIOS. Chapter One : Introduction 5

12 Conventions The following table describes the conventions used in this specification. Term Down solution OPMA Upgrade kit Hardware signal names IPMI command names IPMI command parameters ms μs h b Bit fields [x:y] Definition This refers to a basic, BMC-based, IPMI 1.5-compliant management subsystem that is soldered to the motherboard. When OPMA is used as a noun, it should be taken by the reader to mean the OPMA specification. This refers to a mcard which is used to add enhanced capabilities to a server that employs a down solution. OPMA hardware signal names are presented in capital letters with underscores between words. If the name ends with L then the signal is low true. If the name does not end with L, it is high true. Example: MCARD_CLR_CMOS_L The names of all IPMI commands are presented with no spaces between the words in the name. Only the first letter of each word is capitalized. Example: GetSystemTypeIdentifier The names of all IPMI command parameters are presented with spaces between the words in the name. Only the first letter of each word is capitalized unless the word is an acronym or abbreviation. Example: Interface ID Abbreviation for millisecond(s) (1/1,000 th of a second) Abbreviation for microsecond(s) (1/1,000,000 th of a second) Suffix for a number expressed in hexadecimal. Every four digit set is separated by an underscore for readability. Example: 1234_5678h Note: Decimal is the default radix. Prefix for a number expressed in binary. Every four digits set is separated by an underscore for readability. Example: 1010_1101b Note: Decimal is the default radix. Brackets designate bit fields. For example, [0] means bit zero. [3:0] refers to bits zero through three. 6 MegaRAC M300V Card Implementer s Reference and User s Guide

13 Reference Documents The following table lists the documents referenced in this OPMA specification or are otherwise related to the understanding of this specification. Specification Comment IPMI 1.5 Intelligent Platform Management Interface Specification, Version 1.5, Revision 1.1 IPMI 2.0 Intelligent Platform Management Interface Specification, Version 2.0, Revision 1.0 DVI Digital Visual Interface Specification, Version 1.0 I2C Inter-Integrated Circuit Bus Specification, Version 2.1 JTAG IEEE LPC Low Pin Count Interface Specification, Revision 1.1 USB Universal Serial Bus Specification, Revision 2.0 Chapter One : Introduction 7

14 8 MegaRAC M300V Card Implementer s Reference and User s Guide

15 Chapter 2 M300V Card Layout MegaRAC M300V card Layout 16MB Flash Module 16MB Frame Buffer Memory Reset Switch (push to reset, button is located on the left side) 32 MB SOC Memory American Megatrends Inc. MegaRAC MG9091B Controller Chip DDR2 Key OPMA Specification (Ver. 1.2) Notice that the notch is located closer to the leads on the right than the leads on the left. Chapter Two : M300V Card Layout 9

16 10 MegaRAC M300V Card Implementer s Reference and User s Guide

17 Chapter 3 M300V GUI M300V GUI Overview The M300V card has a user-friendly Graphics User Interface (GUI) called the M300V GUI. It is designed to be easy to use. It has a low learning curve because it uses a standard Internet browser. You can expect to be up and running in less than five minutes. This chapter allows you to become familiar with the M300V GUI s various functions. Each function is described in detail. Note: Your M300V GUI may not match this document. If it does not appear to be the same, you can visit ami.com and download the most current user s guide. Chapter Three : M300V GUI 11

18 Initial Configuration of the MegaRAC M300V card Plug the MegaRAC M300V card into the OPMA connector on your motherboard. You can access the MegaRAC M300V card from another system via the network. AMI refers to this other system as the client system. To do this, you must know the MegaRAC M300V card s IP Address. If you have installed the MegaRAC M300V card on a network that uses DHCP, you can search the network for the MegaRAC M300V card. To locate and find out its IP Address, you can run Intel Device Spy for UPnP Technologies. Download Device Spy for UPnP Technologies from the Intel website: Do a search for the following phrase: Intel Tools for UPnP Technologies The download page changes from time to time, so doing a search will give you the best results. Download the compressed file and uncompress it. The file will have a filename similar to the following: _ zip The ZIP file will contain an EXE file that will have a filename similar to the following: Intel_Tools_4UT_v1768.exe After you run the EXE file, the Device Spy.exe file will become available. Device Spy.exe is the file that contains the Intel Device Spy for UPnP Technologies program. Device Spy: Intel's Universal Control Point (UCP). This tool readily tests "action" invocations and events. Device Spy also traces packets sent to UPnP devices. For more information on how to use Intel Device Spy for UPnP Technologies see the documentation provided with it. Step Action 1 Download the Intel Device Spy for UPnP Technologies program onto your remote client system. Run the Intel Device Spy for UPnP Technologies program. The name MegaRAC -M300V Device will display in the tree under UPnP Devices. 3 Select the MegaRAC -M300V Device to view its properties. 4 Click on the IP address located in the Presentation URL field to connect to your MegaRAC M300V card. 5 When prompted for the user name and password, use root for the User Name and superuser for the Password. Both are all lower-case characters. 6 Left click the OK button. After you successfully log into your MegaRAC M300V card, you are greeted with the Welcome to MegaRAC M300V card screen. Note: When you log in using the root user name and password, you have full administrative powers. It is advised that once you log in, you change the root password. 12 MegaRAC M300V Card Implementer s Reference and User s Guide

19 Setup your Client System s Internet Browser You must first set up Internet Explorer browser on the client system before you can redirect the server s console. Set up Internet Explorer s Security Settings to allow the downloading of Signed ActiveX controls and also allow it to run Signed ActiveX controls. Note: At the time this document was being created, the MegaRAC ActiveX controls were in the process of being signed (by VeriSign ) so that they could be authenticated by Internet browsers. If redirection does not operate properly, you may have to set up Internet Explorer s Security Settings to allow the downloading of Unsigned ActiveX controls and also allow it to run Unsigned ActiveX controls as well. Default User Name and Password When you first try to access your M300V card, you will be prompted to enter a user name and password. The default user name and password are as follows: Field User Name Password Default root superuser Note: Note: The default user name and password are in lower-case characters. When you log in using the root user name and password, you have full administrative powers. It is advised that once you log in, you change the root password. Chapter Three : M300V GUI 13

20 MegaRAC GUI Explained Menu Bar After you successfully log into your MegaRAC M300V, you are greeted with the MegaRAC GUI. There is a menu bar located at the top of the MegaRAC GUI. It lists the following groups: General Information Group Server Health Group Configuration Group Remote Control Group Maintenance Group Languages Group General Information Group System Information This group of pages allows you to view system information. This page displays information about the firmware and device availability. Field Firmware Revision IPMI Version Build Time Description Major and minor revision of the firmware. The IPMI command specification version. The build time of the firmware. 14 MegaRAC M300V Card Implementer s Reference and User s Guide

21 Server Health Group This page allows you to view the sensor readings and system event logs. Button Sensor Readings Sensor Readings with Thresholds Event Log Description This button allows you to view the readings from the various sensors. This button allows you to view the readings from the various sensors, with thresholds included in the table. This button allows you to view the events written to the event log. Sensor Reading This page displays all sensor readings from the system. Item Sensor Selection drop down menu Sensor Readings List Refresh button Show Thresholds button Description This drop down menu allows you to select the type of sensor readings that you want to display in the list. All Sensors Temperature Sensors Voltage Sensors Fan Sensors This field displays the individual sensor s name, reading and the current status of the sensor. Use this button to refresh the sensor readings view. Clicking Show Thresholds button expands the sensor reading table and also show the various threshold settings for every sensor. Name Status Reading Low NR Low CT Low NC High NC High CT High NR Sensor Readings with Thresholds This page displays all sensor readings and thresholds from the system. Item Sensor Selection drop down menu Sensor Readings List Refresh button Hide Thresholds button Description This drop down menu allows you to select the type of sensor readings that you want to display in the list. All Sensors Temperature Sensors Voltage Sensors Fan Sensors This field displays the individual sensor s name, reading and the current status of the sensor. Use this button to refresh the sensor readings view. Clicking Hide Thresholds button reduces the sensor reading table and hides the various threshold settings for every sensor. Chapter Three : M300V GUI 15

22 Event Log On this page there is a table of the events from the system's event log. Item Select an event log category Event Log Clear Event Log button Description Select one of the following event categories: Sensor-Specific Events BIOS Generated Events System Management Software Events You can obtain the following information for each event: Event ID Time Stamp Sensor Name Sensor Type Description Left click the Event Log menu item to view and clear the event logs. Sensor Monitoring Options This page allows you to select sensor monitoring options. Sensors can be monitored external baseboard management controller (BMC) connected to the PMB bus or you can directly monitor sensors on the I2C bus. Item Monitoring Options External BMC Slave Address PMCP monitoring file (sp.bin) Sensor definitions file (sdr.dat) Upload new file (if one already exists) Browse button Save button Description You can select how you want to monitor the sensors. Direct Monitoring of sensors on the I2C bus (needs PMCP files) Monitoring via External BMC (needs IPMB connection) If being monitored by an external BMC, you will need to provide the slave address so that the MegaRAC M300V card will be able to read data from the onboard BMC on the motherboard/ server board. 0x20 is the address most commonly used. Select the Soft Processor (SP) File with the BIN file extension. Select the SDR File with the BIN file extension. Select this option if the SDR and Soft Processor (SP) File are already loaded on the card and you want to have it replaced with the new file. Use this button to look for the SDR and Soft Processor (SP) File. Use this button to save your settings. 16 MegaRAC M300V Card Implementer s Reference and User s Guide

23 Configuration Group This group of pages allows you to access various configuration settings. Button Alerts button LDAP button Mouse mode button Network button SMTP button SSL Certificate button Users button Description This button takes you to the Alert List page where you can add, edit or remove alert destinations. This button takes you to the LDAP Settings page where you can change settings to authenticate and access the LDAP server. This button takes you to the Mouse Mode Settings page where you can view the current setting and/or change the mode of your pointing device to/from either Relative or Absolute. This button takes you to the Network Settings page where you can view the MAC address or change network settings, including the dynamic and static IP assignment. This button takes you to the SMTP Settings page where you can configure the SMTP mail server. This button takes you to the SSL Configuration page where you can view default certificate and private key or upload a new SSL Certificate. This button takes you to the User List page where you can add, edit or remove users. Alert List On this page you can configure alert destinations. To delete an alert, select it and press Delete. To create a new alert, select a Destination Address that has not been configured yet from the Alert Table entry and click Modify button. Item Alert # Alert Level Destination Address Modify button Send Test Alert button Description Number of alert configuration entry. There are 15 alert configuration entries in the system. This is associated with the severity of the event that causes the alert. SNMP destination IP address for the configured alert entry. Use this button to add a new alert configuration entry or modify an existing one. Use this button to test the selected alert configuration entry. Chapter Three : M300V GUI 17

24 Alert List : Modify Alert Please enter the information for the new alert below and press Save. Item Alert Type drop down menu Event Severity drop down menu Destination IP Address field Subject field Message field Save button Cancel button Description You can select the way an alert is sent when it is triggered by an event. SNMP Trap You select the severity of the event that you want to trigger an alert. Disable All Informational Warning Critical Non-recoverable Type the SNMP destination IP address into this field. If you have selected as the Alert Type, this field will be grayed out. Type the Address into this field. If you have selected SNMP Trap as the Alert Type, this field will be grayed out. Type a Subject into this field. If you have selected SNMP Trap as the Alert Type, this field will be grayed out. Type a Message into this field. If you have selected SNMP Trap as the Alert Type, this field will be grayed out. Use this button to save your settings. Use this button to cancel this action. Alert List : Send Test Alert To send a test alert, select it and select the Send Test Alert button. 18 MegaRAC M300V Card Implementer s Reference and User s Guide

25 LDAP Settings This page allows you to access the Lightweight Directory Access Protocol (LDAP) Server and authentication information and LDAP Settings information. LDAP is an Internet protocol that MegaRAC card can use to authenticate users. If you have an LDAP server configured on your network, you can use it as an easy way to add, manage and authenticate MegaRAC card users. It does this by passing login requests to your LDAP Server. This means that there is no need to define an additional authentication mechanism when using the MegaRAC card. Since your existing LDAP Server keeps authentication centralized, you will always know who is accessing network resources and can easily define user/group-based policies to control access. Use the following fields to authenticate and access the LDAP server. Item Enable LDAP Authentication box Port field IP Address field Bind Password field Bind DN field Searchbase field Description Check this box to enable LDAP authentication through an LDAP server. Enter the port address of your LDAP server. A common port used by LDAP is port 389. Type in the IP address of your LDAP server. The Bind Password specifies the password for the MegaRAC card to use when binding to your LDAP server. Type the Bind DN name in the Bind Distinguished Name field. The Bind DN is required if anonymous binds are not allowed on your LDAP server. An LDAP directory requires an RFC 2247 compliant distinguished name or search base, to perform an LDAP search. Type in your search base name here. Chapter Three : M300V GUI 19

26 Mouse Mode Settings Here you can configure the mouse mode. Item Set mode to Absolute option Set mode to Relative option Apply button Description Select this option to select mouse mode to Absolute, depending upon your system. This mode enables you to see two mouse cursors where one is redirected host mouse cursor and other is actual local mouse cursor. It is recommended to use this mode when host server is running in Windows platform. Select this option to select mouse mode to Relative, depending upon your system. In this mode, the user can see only one mouse cursor for example redirected host mouse cursor. This mode will lock the local mouse cursor inside the redirected window and the user has to press Alt+M to unlock and stop mouse redirection. Here Alt+M is basically used to start/stop mouse redirection. It is recommended to use this mouse mode when host server is running in Linux and other OS platforms. Use this button to make the settings active. 20 MegaRAC M300V Card Implementer s Reference and User s Guide

27 Network Settings This page allows you to view and modify the network settings on this page. Select whether to obtain an IP address automatically or manually configure one. Item MAC Address field Obtain an IP address automatically (use DHCP) option Use the following IP address option IP Address field Subnet Mask field Default Gateway field Save button Description This field displays the MAC address of the MegaRAC M300V card. This option allows the MegaRAC M300V s IP to be configured by a DHCP server (dynamically). This option allows you to configure the MegaRAC M300V s IP address with a static IP. The IP Address, Subnet Mask and Gateway fields will become editable when this option is selected. This field allows you to set the MegaRAC M300V s IP address. This field allows you to set the Subnet Mask The MegaRAC M300V resides on. This field allows you to set the MegaRAC M300V s Gateway access address. Use this button to save your settings. Chapter Three : M300V GUI 21

28 SMTP Setting This button takes you to the SMTP Settings page where you can configure the SMTP mail server. Item Mail Server IP field Save button Description This field allows you to configure the IP Address of the SMTP mail server. Use this button to save your settings. SSL Configuration Here you can upload an SSL Certificate and SSL Private Key to use when accessing your MegaRAC M300V. Item Default Certificate Default Private Key New SSL Certificate Upload field Browse button Upload button Description This field displays the Default Certificate. This field displays the Default Private Key. This field allows you to upload an SSL Certificate and SSL Private Key. Use the Browse button to search for your SSL Certificate or Private Key. Both types of files have a PEM file extension. Use this button to upload the files to the card. Note: The MegaRAC M300V does not support pass-phrase encrypted certificates. Once you upload the certificates, left click the OK button to reset your MegaRAC M300V. You can now access your MegaRAC M300V securely using the following format in your IP Address field from your Internet browser: MegaRAC M300V s IP address here> For example, if your MegaRAC M300V s IP address is , enter the following: Notice the <s> after <http>. Note: You must accept the certificate before you are able to access your MegaRAC M300V again. 22 MegaRAC M300V Card Implementer s Reference and User s Guide

29 User List This page allows you to view the current list of user slots for the server. If you would like to delete or modify a user, select their name in the list and select Delete User or Modify User. To add a new user, select an un-configured slot and select Add User. Item UserID column User Name column Network Privilege column Add User button Modify User button Delete User button Description This column displays the ID number used in association with the User Name. This column displays a list of all users who are able to access this MegaRAC M300V. Note: The default administrator is root. It is prudent for you to change the root password. This column displays the network rights associated with the account. Use this button to add a new user. You must select an open field first. Use this button to modify an existing user. You must select a user first. Use this button to delete an existing user. You must select a user first. Chapter Three : M300V GUI 23

30 Add New User This page allows you to enter the requested information for the new user. You can add a new user by entering the information for the new user and by selecting the Add button. Press Cancel to return to the user list. Note: Only user accounts with administrative rights are allowed to add, edit and remove users. Nonadministrator users can only change their own password. If a new user is given administrative privileges, permissions are automatically granted for all interfaces. Item User Name field Password field Confirm Password field Network Privileges drop down menu Serial Privileges drop down menu Add button Cancel button Description Enter a user name in the Username field. Your user name must be at least four characters long and no more than 32 characters long. User names are case-sensitive and must start with an alphabetical character. Enter a password in the Password field. Your password must be at least eight characters long. Note: The password must be a minimum of eight characters and a maximum of 32 characters. Use a mixture of alphanumeric and special characters for better security. The password is casesensitive. Confirm your password by entering your password again in the Confirm Password field. Assign network permissions and access rights. Administrator Operator No Access Assign access rights through the serial port and permissions. Administrator Operator No Access Use this button to add the new user. Use this button to cancel this action. 24 MegaRAC M300V Card Implementer s Reference and User s Guide

31 Modify User You can use this page to update the information for the user selected from the User List. After you have modified the information, click Modify. Click Cancel to return to the User List, while discarding all changes. Item User Name field Change Password box Password field Confirm Password field Network Privileges drop down menu Serial Privileges drop down menu Modify button Cancel button Description This field contains the user name being modified. This field cannot be modified. Place a check in this box to change the password. Enter the new password in the Password field. Your password must be at least eight characters long. Note: The password must be a minimum of eight characters and a maximum of 32 characters. Use a mixture of alphanumeric and special characters for better security. The password is casesensitive. Confirm your password by entering your password again in the Confirm Password field. Modify network permissions and access rights. Administrator Operator User Callback No Access Modify access rights through the serial port and permissions. Administrator Operator No Access Use this button to update the user account. Use this button to cancel this action. Delete User If you would like to delete a user, highlight the user name from the User List and click on the Delete User button. Chapter Three : M300V GUI 25

32 Remote Control Group This section allows you to initiate Console Redirection and to view the Power Control options. Button Console Redirection button Power Control button Description Use this button to launch the redirection console via Java or ActiveX (Internet Explorer only) viewers. Use this button to view the power state and perform power control functions on the server. Launch Redirection This page allows you to launch console redirection and to manage the remote server. Select the desired viewer that you wish to use to start redirection. Click on the appropriate button to launch the remote console. Two console viewers are available for redirection support. 1. ActiveX Console (Only on a windows platform with Internet Explorer) 2. Java Console (Recommended on all platforms) Remote Console Shortcut Key Combinations The most powerful feature of your MegaRAC M300V is the ability to redirect the server s console. To redirect the server s console is the ability to manage your server as if it were physically in front of you, when it is not. The following table is a list of basic keystrokes and their functions: Keystroke <ATL> + <S> <ATL> + <T> <ATL> + <R> <ATL> + <F> <ATL> + <M> <ATL> + <A> <ATL> + <B> <ATL> + <L> <ATL> + <N> <ATL> + <D> <ATL> + <E> Description Start Console Redirection Stop Console Redirection Restart Console Redirection Toggle Full Screen Mode Synchronize Mouse Hold/Unhold Right <ATL> Key Hold/Unhold Left <ATL> Key Hold/Unhold Right <CTRL> Key Hold/Unhold Left <CTRL> Key Generate <CTRL>, <ATL>, + <DEL> Start CD-ROM Drive Redirection Note: Occasionally, when invoking the <ALT> + <E> keys, the screen does not refresh and will appear to be blank. You can hit any key on your keyboard or move the mouse to refresh the screen. 26 MegaRAC M300V Card Implementer s Reference and User s Guide

33 Console Redirection Window Console Redirection Window : Video This dropdown menu contains the following dropdown menu items: Menu Item Start Redirection Stop Redirection Restart Compression Full Screen Exit Description This menu item can be used to begin Console Redirection. This menu item can be used to halt Console Redirection. This menu item can be used to stop Console Redirection and then start Console Redirection again. This menu item can be used to configure the compression used. You can select from the following options: None (Default Setting) Type-I Type-II Both This menu item can be used to view the Console Redirection in Full Screen mode. Note: Set your client system s screen resolution to 1024 x 768 so that you can view the server in true full screen. This menu item can be used to exit and close the redirection window. Console Redirection Window : Keyboard This dropdown menu contains the following dropdown menu items: Menu Item Hold Right Ctrl Key Hold Right Alt Key Hold Left Ctrl Key Hold Left Alt Key Left Windows Key Right Windows Key Alt+Ctrl+Del Description This menu item can be used to act as the right-side <CTRL> key when in Console Redirection. This menu item can be used to act as the right-side <ALT> key when in Console Redirection. This menu item can be used to act as the left-side <CTRL> key when in Console Redirection. This menu item can be used to act as the left-side <ALT> key when in Console Redirection. This menu item can be used to act as the left-side <WIN> key when in Console Redirection. You can also decide how the key should be pressed: Hold Down Press and Release This menu item can be used to act as the right-side <WIN> key when in Console Redirection. You can also decide how the key should be pressed: Hold Down Press and Release This menu item can be used to act as if you depressed the <CTRL>, <ALT> and <DEL> keys down simultaneously on the server that you are redirecting. Chapter Three : M300V GUI 27

34 Console Redirection Window : Mouse This dropdown menu contains the following dropdown menu item: Menu Item Sync Cursor Description This menu item can be used to synchronize or unsynchronize the mouse cursor. Console Redirection Window : Options This dropdown menu contains the following dropdown menu items: Menu Item Bandwidth Quality Video Settings KB/Mouse Encryption Description The Bandwidth Usage option allows you to adjust the bandwidth. You can select one of the following: 256 Kbps 512 Kbps 1 Mbps 10 Mbps 100 Mbps (Default Setting) This option allows you to configure the video quality. Depending on the bandwidth selected, you can adjust the speed/quality level. The level can be from 1 through 5, 1 being the maximum speed for given bandwidth and 5 being the maximum quality for given bandwidth. The relation between speed and quality is that more speed tries to reduce the data over network and thus reducing quality and vice versa. The Video Performance Parameters allows you to enhance the frame rate of your remote console session. Red Gain slider This slider allows you to increase or decrease the amount of red. Green Gain slider This slider allows you to increase or decrease the amount of green. Blue Gain slider This slider allows you to increase or decrease the amount of blue. Horizontal This allows you to modify the horizontal position of the screen. Vertical Position This allows you to modify the vertical position of the screen. Set Default Gains button This button allows you to reset the color gains to the default levels. Auto Calibrate button This button allows the card to automatically set the color gains and noise thresholds. This option allows you to encrypt keyboard inputs and mouse movements sent between the connections. 28 MegaRAC M300V Card Implementer s Reference and User s Guide

35 Console Redirection Window : Device This dropdown menu contains the following dropdown menu items: Menu Item CDROM Floppy Description This menu item can be used to start or stop the redirection of the CD-ROM drive. You can redirect from an image of a CD or from a physical CD-ROM drive. This menu item can be used to start or stop the redirection of the floppy drive. You can redirect from an image of a disk or from a physical floppy drive. Note: Floppy Redirection is not an available feature on all versions of the MegaRAC M300V cards. Console Redirection Window : Help This dropdown menu contains the following dropdown menu item: Menu Item About AVCView Description Displays the copyright and version information. Power Status and Control This page allows you to view and control the power of your server. Select one of the options listed in the following table to execute on your server. You will be asked to confirm your choice. Upon confirmation, the command will be executed and you will be informed of the status. Item Reset Server option Power Off Server - Immediate option Power Off Server - Orderly Shutdown option Power On Server option Power Cycle Server option Perform Action button Description Select this option to reset the server. Select this option to power down the server immediately. Select this option to power down the server gracefully. Select this option to power up the server. Select this option to power cycle the server. Select this button to execute the option selected. Chapter Three : M300V GUI 29

36 Maintenance Group Firmware Update This group of pages allows you to do maintenance tasks on the device. Warning DO NOT CLOSE THE WINDOW USING THE CLOSE BUTTON (X) ON THE TITLE BAR WHEN THE MEGARAC IS IN UPDATE MODE. USE THE CANCEL BUTTON ONLY! Note: Note: The firmware upgrade process is a crucial operation. Make sure that the chances of a power or connectivity loss are minimal when performing this operation. Once you enter into Update Mode and choose to cancel the firmware flash operation, the MegaRAC card must be reset. This means that you must close the Internet browser and log back onto the MegaRAC card before you can perform any other types of operations. You can update the device's firmware here. Select the Enter Update Mode button to put the device in a special mode that allows firmware update. You can now follow the instructions presented in the subsequent pages to successfully update the card s firmware. The device will reset if update is canceled. Item Enter Update Mode button Description Select the Enter Update Mode button to put the device in a special mode that allows firmware update. Follow the instructions listed on the update wizard. The device will reset if update is canceled. Languages You can change the language from the Languages page. Note: As of the initial release of this document, only English is supported. Logging Out To log out, simply click on the Disconnect link. 30 MegaRAC M300V Card Implementer s Reference and User s Guide

37 Chapter 4 M300V Interface Signal Specifications Overview This section provides detail on the signals specified for the OPMA connector. These signals are collectively referred to as the OPMA interface in this document even though they are for the MegaRAC M300V card. Signal Callout Grouped by Functions LED Control Signals Signal Group: LED Control This section provides a description of the major buses and signal subgroups. Under each signal group, individual signals are referred to by a short descriptive name followed by the capitalized hardware signal name inside parentheses. For signals that are closely related, shortcuts have been taken when displaying the associated hardware signal names. For example, if there are four signals named SIG0, SIG1, SIG2 and SIG3, these are abbreviated as SIG0 SIG3. The LED control signals enable the MegaRAC M300V card-controlled LEDs to provide a visual indication of the hardware health and status. OPMA defines only two dedicated LED control signals at the connector. If the system level manageability solution requires a more detailed visual indication of faults with other LEDs or LCD indicators, they may be achieved through I 2 C or SMBus-based indicators. Any other system specific GPIOs should be implemented on the motherboard using I 2 C or SMBus-based GPIO expanders (for example, 8575 devices). OPMA does not require the implementation of additional GPIOs. However, such GPIOs are likely to be implemented for a variety of purposes including GPIO based sensors and fault diagnostic LEDs. BMC firmware that is specific to a given motherboard must handle these system specific GPIOs. Signal Group Signal Name Signal Function I/O Signal Termination on MB* LED Control FAULT_LED_L Fault LED control O 4.7k PU to +3.3V CHASSIS_ID_L Chassis identification LED control O 4.7k PU to +3.3V Fault LED control (FAULT_LED_L) Connected to a BMC GPIO for fault status indicator LED control. Direct BMC connection allows control of this LED even under a hung I 2 C or SMBus scenario. Chassis ID LED control (CHASSIS_ID_L) Connected to a BMC GPIO for chassis ID LED control Direct BMC connection simplifies blink rate control by the MegaRAC M300V card firmware. Chapter Four : M300V Interface Signal Specifications 31

38 USB Interface Signals Signal Group: USB The OPMA interface USB signals enable the MegaRAC M300V card to emulate a USB keyboard and mouse, which are used for KVMoIP. This USB interface is also used by a MegaRAC M300V card to emulate USB mass storage devices (for example, virtual CD, virtual floppy disk and so on) to the system. Signal Group Signal Name Signal Function I/O Signal Termination on MB* USB USB_P USB Differential Pair I/O N/A USB_N USB interface (USB_P, USB_N) One USB bus Note: The OPMA interface only supports one USB channel. A USB hub device is implemented in the MegaRAC M300V card to support two USB devices, one USB1.1 for Keyboard and Mouse and One USB2.0 High speed device for CDROM/FLOPPY. Push-Button Signals Signal Group: Buttons The push-button signals are dedicated I/O control signals that are connected directly to the MegaRAC M300V card. This allows the MegaRAC M300V card to remotely/virtually control these signals. These signals are implemented as dedicated I/O control instead of I 2 C or SMBusbased control signals because the supported functions are deemed mission critical. Signal Group Signal Name Signal Function I/O Signal Termination on MB* Buttons MCARD_PWRBTN_L MegaRAC M300V card remote system O 4.7k PU to +3.3V power button MCARD_RSTBTN_L MegaRAC M300V card remote system O 4.7k PU to +3.3V reset button MCARD_NMIBTN_L MegaRAC M300V card remote system NMI button O 4.7k PU to +3.3V MegaRAC M300V card host s system Power button control (MCARD_PWRBTN_L) This output allows a remote console to control the MegaRAC M300V card host s system Power button signal. This is used to power up or power down a server system remotely. It can also be used to force the server into a low power ACPI state or to wake it up from a low-power ACPI state. MegaRAC M300V card host s system Reset button control (MCARD_RSTBTN_L) This output allows a remote console to control the MegaRAC M300V card host s system reset button signal. This is used to recover a hung remote system. MegaRAC M300V card NMI button control (MCARD_NMIBTN_L) This output allows a remote console to control the MegaRAC M300V card host s system NMI (core dump) signal. The core dump information can be used to debug system software issues. 32 MegaRAC M300V Card Implementer s Reference and User s Guide

39 Video Capture DVI-I Signals The server s graphics chip sends the DVI-I (Digital Visual Interface) signals to the MegaRAC M300V card, which uses these signals to capture the graphics console. The captured video data is compressed and transmitted over an Ethernet link to a remote console. The console operator can then view all graphical screens of the remote machine. OPMA provides a total of 18 signals for this purpose. Signals in this group are defined by the Digital Display Working Group (DDWG) ( The DDWG specification describes a TMDS (Transition Minimized Differential Signaling) receiver chip for retrieving the serialized data from the TMDS channels. Signal Group: Video Capture DVI-I Signal Group Signal Name Signal Function I/O Signal Termination on MB* Video Capture DVI-I DVI_TX0_H TMDS differential pair; channel 0 I/O N/A DVI_TX0_L DVI_TX1_H TMDS differential pair; channel 1 I/O N/A DVI_TX1_L DVI_TX2_H TMDS differential pair; channel 2 I/O N/A DVI_TX2_L DVI_CLK_H TMDS differential pair; clock I/O N/A DVI_CLK_L DVI_DDC_DATA Data signal for DDC interface I/O 4.7k PU to +3.3V DVI_DDC_CLK Clock signal for DDC interface I/O 4.7k PU to +3.3V ANALOG_DDC_DATA Not Used By M300V I/O 4.7k PU to +3.3V ANALOG_DDC_CLK I/O 4.7k PU to +3.3V ANALOG_RED I N/A ANALOG_GREEN I N/A ANALOG_BLUE I N/A ANALOG_HSYNC I/O N/A ANALOG_VSYNC I/O N/A TMDS differential data pairs (DVI_TXD0_H DVI_TXD2_H, DVI_TXD0_L DVI_TXD2_L) These six signals form three communications channels that carry digitized video data to an M300V mcard for graphics capture purposes. Channel 0 carries the blue data, channel 1 carries the green data and channel 2 carries the red data. TMDS differential clock pair (DVI_TX_CLK_H, DVI_TX_CLK_L) These two signals form a differential clock for digitized video data transfer. DVI interface DDC clock and data (DVI_DDC_DATA, DVI_DDC_CLK) These two signals form the Display Data Channel for the DVI interface. The MegaRAC M300V card can communicate its capabilities to a host system s DVI-based video chip using this communications bus. For example, support of this feature can disallow a video subsystem from driving unsupported video resolutions, and so on, to the MegaRAC M300V card video capture circuit. Chapter Four : M300V Interface Signal Specifications 33

40 Multi-Bank Fan Control Signals OPMA partitions the server system fans into three control banks. Each bank can be independently controlled to operate at three levels of speed through PWM control. Variable speed fans allow the MegaRAC M300V card BMC to run the fans at the slowest (and therefore quietest) possible speed while maintaining associated subsystems at acceptable temperature levels. Signal Group: Multi-Bank Fan Control Signal Group Signal Name Signal Function I/O Signal Termination on MB* Multi-Bank Fan Control MCARD_FAN_PWM_CPU mcard PWM CPU fan control O 3.3V signal level MCARD_FAN_PWM_SYS mcard PWM system fan control O 3.3V signal level MCARD_FAN_PWM_PS mcard PWM power supply fan control O 3.3V signal level System fan PWM control (MCARD_FAN_PWM_SYS) PWM output to control the speed of all system fans CPU fan PWM control (MCARD_FAN_PWM_CPU) PWM output to control the speed of all CPU fans Power supply fan PWM control (MCARD_FAN_PWM_PS) PWM output to control the speed of all power supply fans Multiplexed Fan Tach Input Signals The fan tachometer inputs are provided for the MegaRAC M300V card to read in the RPM of each set of fans connected to it. OPMA incorporates fan tach signal multiplexing. OPMA-compliant motherboards must contain a 16:4 digital fan tach MUX. OEMs/ODMs can use this feature to implement systems with up to 16 monitored fans. This multiplexer is controlled by the MegaRAC M300V card. The MegaRAC M300V cards whose BMCs have less than four fan tach inputs must add an additional 4:2 multiplexer (if the BMC has two fan tach inputs) or 4:1 multiplexer (if the BMC has only one fan tach input) as required. Signal Group: Multiplexed Fan Tachometers Signal Group Signal Name Signal Function I/O Signal Termination on MB* Multiplexed Fan Tachometers MCARD_FAN_TACH0 Multiplexed fan tach input 0 I 4.7k PU to +3.3V MCARD_FAN_TACH1 Multiplexed fan tach input 1 I 4.7k PU to +3.3V MCARD_FAN_TACH2 Multiplexed fan tach input 2 I 4.7k PU to +3.3V MCARD_FAN_TACH3 Multiplexed fan tach input 3 I 4.7k PU to +3.3V Multiplexed fan tach inputs (MCARD_FAN_TACH0 MCARD_FAN_TACH3) Four tachometer inputs from motherboard-based fan tachometer MUX. 34 MegaRAC M300V Card Implementer s Reference and User s Guide

41 Fan Tach MUX Bank Selector Signals These signals select one of four fan tachometer banks to be switched in for read back by the MegaRAC M300V card. Signal Group: Multiplexed Fan Tachometer Controls Signal Group Signal Name Signal Function I/O Signal Termination on MB* Fan tachometer MUX Controls MCARD_FAN_SEL0_L Multiplexed fan tach MUX control 0 O 4.7k PU to +3.3V MCARD_FAN_SEL1_L Multiplexed fan tach MUX control 1 O 4.7k PU to +3.3V MCARD_FAN_SEL2_L Multiplexed fan tach MUX control 2 O 4.7k PU to +3.3V MCARD_FAN_SEL3_L Multiplexed fan tach MUX control 3 O 4.7k PU to +3.3V Fan tach multiplexer control (MCARD_FAN_SEL0_L MCARD_FAN_SEL3_L) Four tachometer MUX control active Low signals Controls which tachometer bank is switched in from the motherboard-mounted digital multiplexer. Firmware must not enable more than one of these signals simultaneously. Single Wire Analog Voltage Sensor Signals The analog voltage sensors are primary voltage rails brought in for the MegaRAC M300V card A/D converters or analog comparators. The MegaRAC M300V card monitors these rails for appropriate voltage levels. While some of the existing BMCs used on mcards provide A/D converters, others provide analog comparators for voltage monitoring. The motherboard vendor must properly condition the voltage rails connected to these inputs. All voltages that are linked to these signals must be divided down or amplified up appropriately to meet the below specifications: ACOMP_ADC# Input Voltage Range = +1.8V AVDD (max), positive AVDD = +3.3V ± 2% Signal Group: Single Wire Analog Sensors Signal Group Signal Name Signal Function I/O Signal Termination on MB* Single Wire Analog Sensors ACOMP_ADC0 Analog voltage input 0 I N/A ACOMP_ADC1 Analog voltage input 1 I N/A ACOMP_ADC2 Analog voltage input 2 I N/A ACOMP_ADC3 Analog voltage input 3 I N/A ACOMP_ADC4 Analog voltage input 4 I N/A ACOMP_ADC5 Analog voltage input 5 I N/A Analog voltage sensors (ACOMP_ADC0 ACOMP_ADC5) Six analog voltage sensor inputs Chapter Four : M300V Interface Signal Specifications 35

42 MCard Serial Port and ICMB These signals are provided to support UART style interfaces. The signals through the connector are digital logic levels only. Any circuitry required for translation to specific levels (for example, RS-232 and RS-485) is provided on the motherboard. Two channels of this type are defined. Signal Group Signal Name Signal Function I/O Signal Termination on MB* mcard Serial Port MCARD_DTR0_L Data Terminal Ready for Serial Port 0 O N/A MCARD_DCD0_L Data Carrier Detect for Serial Port 0 I N/A MCARD_DSR0_L Data Set Ready for Serial Port 0 I N/A MCARD_RI0_L Ring Indicator for Serial Port 0 I N/A MCARD_RXD0 Receive Data for Serial Port 0 I N/A MCARD_TXD0 Transmit Data for Serial Port 0 O N/A MCARD_CTS0_L Clear to Send for Serial Port 0 I N/A MCARD_RTS0_L Request to Send for Serial Port 0 O N/A ICMB MCARD_RXD1 Receive Data for ICMB I N/A MCARD_TXD1 Transmit Data for ICMB O N/A MCARD_TXD1_EN Transmit Data Enable for ICMB O N/A Signal Group: mcard Serial Port and ICMB Serial Over LAN Feedback Path Signal Group: SoL Serial Port Channel 0 is a full UART that allow connection to either DTE (Data Terminal Equipment connect to another computer) or to DCE (Data Communications Equipment connects to a MODEM). Dedicated for use by BMC UART-generated traffic that will be routed to a back panel RS- 232 connector Hardware flow control supported Channel 3 includes TxD and RxD only along with TxD data enable control signal Dedicated for use by ICMB traffic XON and XOFF (software flow control) only Traffic generated by the system UART may need to be redirected over the LAN for consumption by a remote text console. This is referred to as serial over LAN (SoL). OPMA provides the signals in this section to capture the local system s host UART stream for formation into packets by the BMC and later transmission to the remote console. See Chapter 6 for more details on expected usage. Signal Group Signal Name Signal Function I/O Signal Termination on MB* Serial Port for Serial Over LAN MCARD_RXD_SoL Receive Data for Serial over LAN I N/A MCARD_TXD_SoL Transmit Data for Serial over LAN O N/A MCARD_AUX_SoL_CTRL_L Serial Port handshake signal MUX control O 4.7k PU to +3.3V One transmit/receive channel pair includes TxD and RxD only Dedicated purpose is to feed back system UART data to mcard for SoL support. 36 MegaRAC M300V Card Implementer s Reference and User s Guide

43 Dedicated Management Ethernet Signals These signals provide the interface for the MegaRAC M300V card dedicated management LAN. These signals go across the OPMA connector and connect the MegaRAC M300V card NIC to a management LAN RJ-45 connector. Signal Group: Management Ethernet Signal Group Signal Name Signal Function I/O Signal Termination on MB* Management Ethernet MCARD_TX_H Transmit Differential Pair O N/A MCARD_TX_L MCARD_RX_H Receive Differential Pair I N/A MCARD_RX_L POE_PWR NOT USED By M300V I N/A POE_PWR POE_GND NOT USED by M300V O N/A POE_GND LAN_BUSY_LED_L Busy LED O N/A LAN_LINK_LED_L Link LED O N/A BMC Host Interface ID Signals Ten signals that implement the dedicated management Ethernet. These signals are provided for the system level software, BIOS and so on, to identify the type of IPMI communications interface supported by the installed mcard solution. The IPMI Specification currently describes four possible host interfaces KCS, BT, SMIC and SSIF. M300V Implements 3 KCS only Interface. KCS0 Port 0xCA2,0xCA3 KCS1 Port 0xCA4,0xCA5 KCS2 Port 0xCA6,0xCA7 Signal Group: Interface Type ID Signal Group Signal Name Signal Function I/O Signal Termination on MB* Interface Type ID INTERFACE_ID0 INTERFACE_ID1 INTERFACE_ID2 Binary encoded interface type identification number O 4.7k PU to +3.3V mcard IPMI communications interface ID (INTERFACE_ID0 INTERFACE_ID2) Three mcard interface ID signals Speeds boot process by allowing the BIOS to quickly identify the IPMI interface type of the MegaRAC M300V card for initial handshaking operations with BIOS during POST. Chapter Four : M300V Interface Signal Specifications 37

44 MCard Presence Detection Signal Signal Group: Card Detect This signal allows the BIOS to determine if the MegaRAC M300V card is present in the OPMA connector. The BIOS should not attempt to read the INTERFACE_ID signals until after it has detected the presence of the MegaRAC M300V card. Signal Group Signal Name Signal Function I/O Signal Termination on MB* Card Detect MCARD_DETECT_L Indicates presence/ absence of mcard O 4.7k PU to +3.3V System Status Signals Signal Group: Status mcard presence detection (MCARD_DETECT_L) Speeds boot process by allowing the BIOS to quickly detect the presence of the MegaRAC M300V card in the OPMA connector. These signals provide specific system status to the MegaRAC M300V card. Signal Group Signal Name Signal Function I/O Signal Termination on MB* Status ALL_PWROK Indicates all the voltage rails are good I 4.7k PU to +3.3V SYS_INTRUDER_L Indicates intrusion on the system I 10k PU to +3.3V SYS_THERMTRIP_L System thermal trip alert signal I 4.7k PU to +3.3V SYS_LINE_AC_L Line AC present signal I 4.7k PU to +3.3V SYS_PWRBTN_L Indicates status of system power button I 3.3V thru switch SYS_RSTBTN_L Indicates status of system reset button I 3.3V thru switch SYS_NMIBTN_L Indicates status of system NMI button I 3.3V thru switch SYS_SMI_L Motherboard SMI status I 4.7k PU to +3.3V SYS_PCI_RST_L Motherboard reset status I 4.7k PU to +3.3V SYS_ACPI_STATE0 Binary encoded indication of the current I 4.7k PU to +3.3V SYS_ACPI_STATE1 system ACPI sleep state I 4.7k PU to +3.3V SYS_ACPI_STATE2 (S0, S1, S2, S3, S4/ S5) I 4.7k PU to +3.3V SYS_SMBUS_IO_EXP_INTR_L Interrupt from SMBus-based I/O expander I 4.7k PU to +3.3V System Power OK indication (PWROK): This signal indicates that system power sequencing was successful and that all voltage rails have stabilized. Critical system thermal trip point detection (MCARD_THERMTRIP_L): Single consolidated ThermTrip signal from all of the CPUs. ThermTrip indicates that the processor has overheated to the point of potential hardware damage and has shut down as a result. Connected directly to a M300V BMC GPIO (not through the I 2 C or SMBus-based GPIO expander). Chassis intrusion detection (MCARD_INTRUDER_L): Single consolidated intrusion sensor from multiple bays or locations within the system. Line AC Power indicator (SYS_LINE_AC_L): Provides an indication of standby power status to the MegaRAC M300V card. An active signal indicates that the standby power is good. A rising edge on this signal indicates that 38 MegaRAC M300V Card Implementer s Reference and User s Guide

45 system AC power has been cut off. The system power supply typically continues to supply standby power for a small amount of time (system specific) after AC power is removed. The BMC is operational during this small window and should use the assertion of this signal to do any emergency clean up that may be required. For example, if the BMC is in the middle of writing to NV storage, it should abort this process in an orderly manner so that data corruption does not occur. System Power button (SYS_PWRBTN_L): The MegaRAC M300V card monitors this input to detect when the system power button is pushed. This signal can be used to remotely detect a local Power button assertion. System Reset button (SYS_RSTBTN_L): The MegaRAC M300V card monitors this input to detect when the system reset button is pushed. This signal can be used to remotely detect a local reset button assertion. System NMI button (SYS_NMIBTN_L): The MegaRAC M300V card monitors this input to detect when the system NMI button is pushed. This signal can be used to remotely detect a local NMI button assertion. System SMI (SYS_SMI_L): The MegaRAC M300V card monitors this input for detecting SMI activity on the motherboard. Usage of this signal is platform specific. Note: The MegaRAC M300V cards do not generate SMI to the system using this signal; it is for monitoring purposes only. System PCI reset (SYS_PCI_RST_L): The MegaRAC M300V card monitors this input to detect a PCI reset event. One potential use is to detect system resets that are initiated using Ctrl-Alt-Del. If the system does not contain a PCI bus, this signal should be used to monitor the reset status of the implemented system bus. System ACPI state indication (SYS_ACPI_STATE0 SYS_ACPI_STATE2) Three signals Binary encoded ACPI state indicator for the MegaRAC M300V card. Motherboard hardware encodes the system ACPI state and presents it to the MegaRAC M300V card through these inputs. SMBus I/O Expander Interrupt (SYS_SMBUS_IO_EXP_INTR_L): The primary purpose of this signal is to provide the ability to interrupt the BMC based on signal inputs into I 2 C or SMBus-based GPIO expanders. SMBus-based I/O expander devices (for example, PCA 9555) may also be available that generate interrupts on a state change on any of its inputs. Chapter Four : M300V Interface Signal Specifications 39

46 System Control Signals Signal Group: Control These signals are used by the MegaRAC M300V card to control some specific, system-level parameters. Signal Group Signal Name Signal Function I/O Signal Termination on MB* Control MCARD_CLR_CMOS_L mcard system CMOS clear control O 4.7k PU to +3.3V MCARD_LOCAL_LOCK_L mcard local lock out control O 4.7k PU to +3.3V MCARD_SYS_SPKR_DATA mcard system speaker control O N/A MCARD_SCI_INT_L mcard SCI to the system chipset O 4.7k PU to +3.3V Local access lock out (MCARD_LOCAL_LOCK_L): Assertion of this signal by the MegaRAC M300V card enables a local mode access lock out mechanism. Clear CMOS control (MCARD_CLR_CMOS_L): The MegaRAC M300V card uses this signal to clear the host system CMOS RAM. Clearing the CMOS is often necessary after actions such as updating BIOS. Asserting this signal for at least 250 ms and then deasserting it causes the system CMOS to be cleared. Speaker data (MCARD_SYS_SPKR_L): The BMC may pulse this signal to send tones to the system speaker/transducer that is typically soldered to the motherboard. This allows the BMC a simple audile alarm capability. Special motherboard support is required to integrate the BMC speaker control with that normally provided by the system chipset. System Control Interrupt (MCARD_SCI_INT_L): The MegaRAC M300V card uses this signal to assert an SCI to the system to indicate to the system that the MegaRAC M300V card has identified an event which requires attention from the host system. The system will send some system specific IPMI commands in response to receipt of this signal. 40 MegaRAC M300V Card Implementer s Reference and User s Guide

47 I 2 C or SMBus Signals Signal Group: I 2 C or SMBus OPMA supports a total of five I 2 C or SMBus buses to allow the MegaRAC M300V card to communicate with multiple I 2 C and SMBus devices in the system. The numbers of I 2 C or SMBus interfaces supported by specific BMCs vary, but it is the responsibility of all mcards to ensure that all of the I 2 C or SMBus pins on the OPMA connector are in some way connected to the BMC s I 2 C or SMBus controller(s). Signal Group Signal Name Signal Function I/O Signal Termination on MB* I 2 C or SMBus MCARD_I2C_IPMB_SCL I 2 C clock for the IPMB bus I/O 4.7k PU to +3.3V X 5 MCARD_I2C_IPMB_SDA I 2 C data for the IPMB bus I/O 4.7k PU to +3.3V MCARD_I2C_ I 2 C clock for the NIC sideband bus I/O 4.7k PU to +3.3V SIDEBAND_NIC_SCL MCARD_I2C_ I 2 C data for the NIC sideband bus I/O 4.7k PU to +3.3V SIDEBAND_NIC_SDA MCARD_I2C_ Alert signal from the NIC for I 2 C traffic I/O 4.7k PU to +3.3V SIDEBAND_NIC_ALERT MCARD_I2C_PRIVATE0_SCL I 2 C clock for mcard private 0 I 2 C bus I/O 4.7k PU to +3.3V MCARD_I2C_PRIVATE0_ I 2 C data for mcard private 0 I 2 C bus I/O 4.7k PU to +3.3V SDA MCARD_I2C_PRIVATE1_SCL I 2 C clock for mcard private 1 I 2 C bus I/O 4.7k PU to +3.3V MCARD_I2C_PRIVATE1_ I 2 C data for mcard private 1 I 2 C bus I/O 4.7k PU to +3.3V SDA MCARD_I2C_SHARED_SCL mcard shared host device I 2 C clock I/O 4.7k PU to +3.3V MCARD_I2C_SHARED_SDA mcard shared host device I 2 C data I/O 4.7k PU to +3.3V mcard IPMB (MCARD_I2C_IPMB_SCL, MCARD_I2C_IPMB_SDA) One bus (two signals) for Intelligent Platform Management Bus mcard sideband NIC channel (MCARD_I2C_SIDEBAND_NIC_SCL, MCARD_I2C_SIDEBAND_NIC_SDA) One bus (two signals) through which the system NIC may send IPMI management traffic to support a shared NIC configuration. The additional MCARD_I2C_SIDEBAND_NIC_ALERT signal is required for NIC devices that are not capable of multi-mastering. This signal is primarily used for alerting the MegaRAC M300V card that packets are available. mcard shared host I 2 C bus or SMBus (MCARD_I2C_SHARED_SCL, MCARD_I2C_SHARED_SDA) One bus (two signals) for communicating with devices that are on an I 2 C bus or SMBus that another master is also connected to. The typical example is sharing an I 2 C bus with the host chipset s SMBus controller so that both the system and the BMC have direct access to SMBus-based devices such as DRAM SPD (Serial Presence Detect). If used in this configuration, the SMBus master devices (the host and the MegaRAC M300V card) must conform to the multi-mastering protocol. mcard private I 2 C or SMBus buses (MCARD_I2C_PRIVATE0_SCL, MCARD_I2C_PRIVATE1_SCL, MCARD_I2C_PRIVATE0_SDA and MCARD_I2C_PRIVATE1_SDA) Two buses (four signals) for mcard private I 2 C or SMBus buses. The bulk of the I 2 C or SMBus sensor devices that are monitored by the BMC should be placed on these buses. Chapter Four : M300V Interface Signal Specifications 41

48 LPC Bus Signals Signal Group: LPC The LPC bus is the main system CPU interface to the MegaRAC M300V card. The MegaRAC M300V card compatible BMCs accept IPMI commands from the host system either through the LPC bus (KCS, BT, SMIC) or through the I 2 C or SMBus (SSIF). Signal Group Signal Name Signal Function I/O Signal Termination on MB* LPC LAD0 LPC address-data bus I/O 10k PU to +3.3V LAD1 LAD2 LAD3 LFRAME_L LPC frame signal I N/A LRST_L LPC reset for mcard LPC interface I N/A LDRQ_L LPC DMA request signal O 10k PU to +3.3V SERIRQ Serialized IRQ signal I/O N/A LCLKRUN_L Clock run (same as PCI CLKRUN#) O 10k PU to +3.3V LCLK LPC clock signal I N/A Miscellaneous Signals Signal Group: Miscellaneous All LPC signals as defined in the LPC specification No relationship is implied between miscellaneous signals in this group. Signal Group Signal Name Signal Function I/O Signal Termination on MB* Misc CLK_32768 Not Used By M300V I N/A 42 MegaRAC M300V Card Implementer s Reference and User s Guide

49 Firmware Debugger Probe Signals Signal Group: Debug Interface These signals are used to allow the connection of a debug probe for mcard firmware development and for debugging. Signal Group Signal Name Signal Function I/O Signal Termination on MB* Debug Interface Signal Group: Debug Power DEBUG_IF0 NOT Used By M300V I/O N/A DEBUG_IF1 DEBUG_IF2 DEBUG_IF3 DEBUG_IF4 DEBUG_IF5 DEBUG_IF6 DEBUG_IF7 Signal Group Signal Name Signal Function I/O Signal Termination on MB* Debug Power DEBUG_PWR0 NOT Used By M300V I N/A DEBUG_PWR1 Chapter Four : M300V Interface Signal Specifications 43

50 OPMA Hardware Resources The following sections describe the OPMA reserved hardware resources. The addressing scheme for the devices described here is an 8-bit addressing scheme. SEEPROM Address Reservation Unless restricted, mcards could locate their SEL (System Event Log) and SDRR (Sensor Data Record Repository) SEEPROMs on any OPMA I 2 C or SMBus and at any of the eight possible SEEPROM device addresses (0 7). In order to simplify BMC firmware, OPMA reserves two SEEPROM I 2 C or SMBus addresses for the SEL and the SDRR. If such devices are to be used, mcard designers must locate SDR and SEL SEEPROM devices at SEEPROM I 2 C or SMBus addresses A0h and A2h. In addition, these devices must be located on the OPMA-defined MCARD_I2C_PRIVATE0 only. The MegaRAC M300V cards using this scheme must select SEEPROM devices that can be addressed at A0h and A2h locations. The A0h address is reserved for the SEL device and the A2h address is reserved for the SDRR device. If a single SEEPROM device is selected for both the SEL and SDRR, it can be located at address A0h. In such cases, address A2h is still reserved and not utilized. OPMA-compliant motherboards may locate SEEPROM devices that are outside of the OPMA specification at any I 2 C or SMBus addresses on the MCARD_I2C_PRIVATE0 besides the OPMA-reserved addresses of A0h and A2h. There are no SEEPROM device restrictions for any of the four other OPMA-defined I 2 C or SMBus buses. 44 MegaRAC M300V Card Implementer s Reference and User s Guide

51 OPMA Feature Card Power Requirements The MegaRAC M300V card subsystem is designed to operate in all ACPI states of a server platform. For this reason dual voltage planes are supplied through the MegaRAC M300V card connector. The following data provides power requirements for the MegaRAC M300V card subsystem: Signal Group Signal Name Signal Function I/O Signal Termination on MB* mcard Power and Ground VDD_3.3_DUAL 3.3V supplied in all sleep modes I N/A VDD_3.3_DUAL VDD_3.3_DUAL VDD_3.3_DUAL VDD_5_DUAL NOT Used By M300V I VDD_5_DUAL VDD_3.3_DUAL is a +3.3VDC voltage rail that is supplied in ACPI power states S0, S1, S2, S3, S4 and S5 In ACPI power states S0 and S1 the platform must be capable of supplying to the MegaRAC M300V card subsystem: 3.3 volts, 1.5 amps In ACPI power states S2, S3, S4 and S5 the platform must be capable of supplying to the MegaRAC M300V card subsystem: 3.3 volts, 1 amps Chapter Four : M300V Interface Signal Specifications 45

52 OPMA Feature Card Signal Tolerance Requirements All mcard input signal buffers must be 5-V tolerant. All mcard output signal drivers must be at least 3.3-V capable. OPMA Signals Grouped by Function The following table lists the signals that comprise the OPMA interface. Signal Group Signal Name Signal Function I/O Signal Termination on MB* LED Control FAULT_LED_L Fault LED control O 4.7k PU to +3.3V CHASSIS_ID_L Chassis identification LED control O 4.7k PU to +3.3V USB USB_P USB Differential Pair I/O N/A USB_N Buttons MCARD_PWRBTN_L mcard remote system power button O 4.7k PU to +3.3V MCARD_RSTBTN_L mcard remote system reset button O 4.7k PU to +3.3V MCARD_NMIBTN_L mcard remote system NMI button O 4.7k PU to +3.3V Video Capture DVI-I Multi-Bank Fan Control Multiplexed Fan Tachometers Fan tachometer MUX Controls Single Wire Analog Sensors mcard Serial Port DVI_TX0_H TMDS differential pair; channel 0 I/O N/A DVI_TX0_L DVI_TX1_H TMDS differential pair; channel 1 I/O N/A DVI_TX1_L DVI_TX2_H TMDS differential pair; channel 2 I/O N/A DVI_TX2_L DVI_CLK_H TMDS differential pair; clock I/O N/A DVI_CLK_L DVI_DDC_DATA Data signal for DDC interface I/O 4.7k PU to +3.3V DVI_DDC_CLK Clock signal for DDC interface I/O 4.7k PU to +3.3V ANALOG_DDC_DATA NOT USED BY M300V I/O 4.7k PU to +3.3V ANALOG_DDC_CLK I/O 4.7k PU to +3.3V ANALOG_RED I N/A ANALOG_GREEN I N/A ANALOG_BLUE I N/A ANALOG_HSYNC I/O N/A ANALOG_VSYNC I/O N/A MCARD_FAN_PWM_CPU mcard PWM CPU fan control O 3.3V signal level MCARD_FAN_PWM_SYS mcard PWM system fan control O 3.3V signal level MCARD_FAN_PWM_PS mcard PWM power supply fan control O 3.3V signal level MCARD_FAN_TACH0 Multiplexed fan tach input 0 I 4.7k PU to +3.3V MCARD_FAN_TACH1 Multiplexed fan tach input 1 I 4.7k PU to +3.3V MCARD_FAN_TACH2 Multiplexed fan tach input 2 I 4.7k PU to +3.3V MCARD_FAN_TACH3 Multiplexed fan tach input 3 I 4.7k PU to +3.3V MCARD_FAN_SEL0_L Multiplexed fan tach MUX control 0 O 4.7k PU to +3.3V MCARD_FAN_SEL1_L Multiplexed fan tach MUX control 1 O 4.7k PU to +3.3V MCARD_FAN_SEL2_L Multiplexed fan tach MUX control 2 O 4.7k PU to +3.3V MCARD_FAN_SEL3_L Multiplexed fan tach MUX control 3 O 4.7k PU to +3.3V ACOMP_ADC0 Analog voltage input 0 I N/A ACOMP_ADC1 Analog voltage input 1 I N/A ACOMP_ADC2 Analog voltage input 2 I N/A ACOMP_ADC3 Analog voltage input 3 I N/A ACOMP_ADC4 Analog voltage input 4 I N/A ACOMP_ADC5 Analog voltage input 5 I N/A MCARD_DTR0_L Data Terminal Ready for Serial Port 0 O N/A MCARD_DCD0_L Data Carrier Detect for Serial Port 0 I N/A MCARD_DSR0_L Data Set Ready for Serial Port 0 I N/A MCARD_RI0_L Ring Indicator for Serial Port 0 I N/A MCARD_RXD0 Receive Data for Serial Port 0 I N/A 46 MegaRAC M300V Card Implementer s Reference and User s Guide

53 Signal Group Signal Name Signal Function I/O Signal Termination on MB* MCARD_TXD0 Transmit Data for Serial Port 0 O N/A MCARD_CTS0_L Clear to Send for Serial Port 0 I N/A MCARD_RTS0_L Request to Send for Serial Port 0 O N/A ICMB MCARD_RXD1 Receive Data for ICMB I N/A MCARD_TXD1 Transmit Data for ICMB O N/A MCARD_TXD1_EN Transmit Data Enable for ICMB O N/A Serial Port for Serial Over LAN Management Ethernet MCARD_RXD_SoL Receive Data for Serial over LAN I N/A MCARD_TXD_SoL Transmit Data for Serial over LAN O N/A MCARD_AUX_SoL_CTRL_L Serial Port handshake signal MUX control O 4.7k PU to +3.3V MCARD_TX_H Transmit Differential Pair O N/A MCARD_TX_L MCARD_RX_H Receive Differential Pair I N/A MCARD_RX_L POE_PWR NOT USED BY M300V I N/A POE_PWR POE_GND O N/A POE_GND LAN_BUSY_LED_L Busy LED O N/A LAN_LINK_LED_L Link LED O N/A Interface Type INTERFACE_ID0 Binary encoded interface type O 4.7k PU to +3.3V ID INTERFACE_ID1 INTERFACE_ID2 identification number Card Detect MCARD_DETECT_L Indicates presence/ absence of mcard O 4.7k PU to +3.3V Status ALL_PWROK Indicates all the voltage rails are good I 4.7k PU to +3.3V SYS_INTRUDER_L Indicates intrusion on the system I 10k PU to +3.3V SYS_THERMTRIP_L System thermal trip alert signal I 4.7k PU to +3.3V SYS_LINE_AC_L Line AC present signal I 4.7k PU to +3.3V SYS_PWRBTN_L Indicates status of system power button I 3.3V thru switch SYS_RSTBTN_L Indicates status of system reset button I 3.3V thru switch SYS_NMIBTN_L Indicates status of system NMI button I 3.3V thru switch SYS_SMI_L Motherboard SMI status I 4.7k PU to +3.3V SYS_PCI_RST_L Motherboard reset status I 4.7k PU to +3.3V SYS_ACPI_STATE0 Binary encoded indication of the current I 4.7k PU to +3.3V SYS_ACPI_STATE1 system ACPI sleep state I 4.7k PU to +3.3V SYS_ACPI_STATE2 (S0, S1, S2, S3, S4/ S5) I 4.7k PU to +3.3V SYS_SMBUS_IO_EXP_INTR_L Interrupt from SMBus-based I/O expander I 4.7k PU to +3.3V Control MCARD_CLR_CMOS_L mcard system CMOS clear control O 4.7k PU to +3.3V MCARD_LOCAL_LOCK_L mcard local lock out control O 4.7k PU to +3.3V MCARD_SYS_SPKR_DATA mcard system speaker control O N/A MCARD_SCI_INT_L mcard SCI to the system chipset O 4.7k PU to +3.3V I 2 C or SMBus X 5 MCARD_I2C_IPMB_SCL I 2 C clock for the IPMB bus I/O 4.7k PU to +3.3V MCARD_I2C_IPMB_SDA I 2 C data for the IPMB bus I/O 4.7k PU to +3.3V MCARD_I2C_ I 2 C clock for the NIC sideband bus I/O 4.7k PU to +3.3V SIDEBAND_NIC_SCL MCARD_I2C_ I 2 C data for the NIC sideband bus I/O 4.7k PU to +3.3V SIDEBAND_NIC_SDA MCARD_I2C_ Alert signal from the NIC for I 2 C traffic I/O 4.7k PU to +3.3V SIDEBAND_NIC_ALERT MCARD_I2C_PRIVATE0_SCL I 2 C clock for mcard private 0 I 2 C bus I/O 4.7k PU to +3.3V MCARD_I2C_PRIVATE0_ I 2 C data for mcard private 0 I 2 C bus I/O 4.7k PU to +3.3V SDA MCARD_I2C_PRIVATE1_SCL I 2 C clock for mcard private 1 I 2 C bus I/O 4.7k PU to +3.3V MCARD_I2C_PRIVATE1_ I 2 C data for mcard private 1 I 2 C bus I/O 4.7k PU to +3.3V SDA MCARD_I2C_SHARED_SCL mcard shared host device I 2 C clock I/O 4.7k PU to +3.3V MCARD_I2C_SHARED_SDA mcard shared host device I 2 C data I/O 4.7k PU to +3.3V Chapter Four : M300V Interface Signal Specifications 47

54 Signal Group Signal Name Signal Function I/O Signal Termination on MB* LPC LAD0 LPC address-data bus I/O 10k PU to +3.3V LAD1 LAD2 LAD3 LFRAME_L LPC frame signal I N/A LRST_L LPC reset for mcard LPC interface I N/A LDRQ_L LPC DMA request signal O 10k PU to +3.3V SERIRQ Serialized IRQ signal I/O N/A LCLKRUN_L Clock run (same as PCI CLKRUN#) O 10k PU to +3.3V LCLK LPC clock signal I N/A Misc CLK_32768 NOT USED BY M300V I N/A Debug DEBUG_IF0 NOT USED BY M300V I/O N/A Interface DEBUG_IF1 DEBUG_IF2 DEBUG_IF3 DEBUG_IF4 DEBUG_IF5 DEBUG_IF6 DEBUG_IF7 Debug Power DEBUG_PWR0 NOT USED BY M300V I N/A mcard Power and Ground Note: DEBUG_PWR1 VDD_3.3_DUAL 3.3V supplied in all sleep modes I N/A VDD_3.3_DUAL VDD_3.3_DUAL VDD_3.3_DUAL VDD_5_DUAL NOT Used By M300V I VDD_5_DUAL * Signal level terminations on the motherboard. PU Refers to pull-up. The pull-up resistor values indicated in the signal termination column are suggested values. Motherboard designers must take their circuit and the type of I/O on the motherboard (for example, push-pull, open-drain, and so on) into consideration while designing the values for the pull-ups. 48 MegaRAC M300V Card Implementer s Reference and User s Guide

55 Chapter 5 OPMA Connector Specification and Pin Assignments Overview OPMA leverages the 200-pin SO-DIMM connector commonly used by DDR2 infrastructure for mobile computers. This connector is reasonably small and contains 200 pins which support currently defined and projected expansion signals. These connectors are available in both vertical and right angle versions and will be readily available for the next two to three years at relatively low cost. The number of OPMA connector insertions/removal cycles in the field is expected to be low and on par with the expected number of insertions/removal cycles performed for DRAM sticks. Thus, no connector reliability or longevity issues are expected when leveraging this DRAM infrastructure for OPMA. Pin Assignments for the OPMA Connector Side A Side B To Pin From From Pin To 1 GND RSVD 2 3 RSVD GND 4 5 GND RSVD 6 7 RSVD GND 8 9 GND DVI_TX0_H 10 <> TMDS0+ LPC_DRQ => 11 LDRQ_L DVI_TX0_L 12 <> TMDS0- LPC_LFRAME => 13 LFRAME_L GND 14 LPC_LAD0 <> 15 LAD0 DVI_TX1_H 16 <> TMDS1+ LPC_CLKRUN <= 17 LCKRUN_L DVI_TX1_L 18 <> TMDS1- LPC_LAD1 => 19 LAD1 GND 20 LPC_LAD2 => 21 LAD2 DVI_TX2_H 22 <> TMDS2+ LPC_LAD3 => 23 LAD3 DVI_TX2_L 24 <> TMDS2- LPC_SERIRQ <> 25 SERIRQ GND 26 LPC_RST => 27 LRST_L DVI_TX_CLK_H 28 <> TMDSCLK+ LPC_CLK => 29 LCLK DVI_TX_CLK_L 30 <> TMDSCLK- 31 GND GND RSVD DVI_DDC_DATA 34 <> EDID_SDA 35 RSVD DVI_DDC_CLK 36 <> EDID_SCL 37 GND RSVD 38 MCARD_I2C_PRIVATE0_SCL <> 39 MCARD_I2C_PRIVATE0_SCL ANALOG_DDC_DATA 40 MCARD_I2C_PRIVATE0_SDA <> 41 MCARD_I2C_PRIVATE0_SDA ANALOG_DDC_CLK GND RSVD 44 IPMB_SCL <> 45 MCARD_I2C_IPMB_SCL ANALOG_RED 46 IPMB_SDA <> 47 MCARD_I2C_IPMB_SDA ANALOG_GREEN GND ANALOG_BLUE 50 SIDEBAND_NIC_SCL <> 51 MCARD_I2C_SIDEBAND_NIC_SCL ANALOG_HSYNC 52 SIDEBAND_NIC_SDA <> 53 MCARD_I2C_SIDEBAND_NIC_SDA ANALOG_VSYNC 54 SIDEBAND_NIC_ALERT => 55 MCARD_I2C_SIDEBAND_NIC_ALERT GND GND RSVD 58 MCARD_I2C_PRIVATE1_SCL <> 59 MCARD_I2C_PRIVATE1_SCL RSVD 60 MCARD_I2C_PRIVATE1_SDA <> 61 MCARD_I2C_PRIVATE1_SDA GND 62 Chapter Five : OPMA Connector Specification and Pin Assignments 49

56 Side A Side B To Pin From From Pin To 63 GND MCARD_FAN_PWM_CPU 64 => FAN_PWM_CPU SHARED_SCL <> 65 MCARD_I2C_SHARED_SCL MCARD_FAN_PWM_SYS 66 => FAN_PWM_SYS SHARED_SDA <> 67 MCARD_I2C_SHARED_SDA MCARD_FAN_PWM_PS 68 => FAN_PWM_PS 69 GND GND DEBUG_IF0 MCARD_FAN_TACH_0 72 <= TACH0 73 DEBUG_IF1 MCARD_FAN_TACH_1 74 <= TACH1 75 DEBUG_IF2 MCARD_FAN_TACH_2 76 <= TACH2 77 DEBUG_IF3 MCARD_FAN_TACH_3 78 <= TACH3 79 GND GND 80 DTR0# <= 81 MCARD_DTR0_L MCARD_FAN_SEL0 82 => FAN_SEL0 DCD0# => 83 MCARD_DCD0_L MCARD_FAN_SEL1 84 => FAN_SEL1 DSRO# => 85 MCARD_DSRO_L MCARD_FAN_SEL2 86 => FAN_SEL2 RI0# => 87 MCARD_RI0_L MCARD_FAN_SEL3 88 => FAN_SEL3 EMP_RXD_IN => 89 MCARD_RXD0 GND 90 EMP_TXD_OUT <= 91 MCARD_TXD0 MCARD_RXD_SOL 92 <= SOL_RXD_IN CTS0# => 93 MCARD_CTS0_L MCARD_TXD_SOL 94 => SOL_TXD_OUT RTS0# <= 95 MCARD_RTS0_L GND GND FAULT_LED_L 98 => FAULT_LED# 99 DEBUG_PWR0 CHASSIS_ID_L 100 => CHASSIS_ID# 101 DEBUG_PWR1 GND GND USB_P 104 <> USB_D+ MCARD_ID0 <= 105 MCARD_ID0 USB_N 106 <> USB_D- MCARD_ID1 <= 107 MCARD_ID1 GND 108 MCARD_ID2 <= 109 MCARD_ID2 MCARD_PWRBTN_L 110 => PWRBTN# 111 GND MCARD_RSTBTN_L 112 => RSTBTN# 113 DEBUG_IF4 MCARD_NMIBTN_L 114 => NMIBTN# 115 DEBUG_IF5 GND DEBUG_IF6 MCARD_AUX_SOL_CTRL_L 118 MCARD_AUX_SOL_CTRL# 119 DEBUG_IF7 RSVD GND GND 122 LOCAL_LOCK# <= 123 MCARD_LOCAL_LOCK_L MCARD_RXD1 124 <= MCARD_ICMB_RXD SYS_SPKR_DATA <= 125 MCARD_SYS_SPKR_DATA MCARD_TXD1 126 => MCARD_ICMB_TXD CLR_CMOS# <= 127 MCARD_CLR_CMOS_L MCARD_TXD1_ENABLE 128 => MCARD_TXD1_ENABLE 129 GND GND CLK_32768 ALL_PWROK 132 <= ALL_PWROK 133 GND SYS_THERMTRIP_L 134 <= SYS_THERMTRIP# MCARD_DETECT# <= 135 MCARD_DETECT_L SYS_INTRUDER_L 136 <= SYS_INTRUDER# 137 GND SYS_LINE_AC_L 138 <= SYS_LINE_AC# CONN_1.8V 139 ACOMP_ADC0 SYS_PWRBTN_L 140 <= SYS_PWRBTN# 141 ACOMP_ADC1 SYS_RSTBTN_L 142 <= SYS_RSTBTN# CONN_3.3V 143 ACOMP_ADC2 SYS_NMIBTN_L 144 <= SYS_NMIBTN# CONN_3.3V_STB 145 ACOMP_ADC3 SYS_SMI_L 146 <= SYS_SMI# CONN_5V 147 ACOMP_ADC4 SYS_PCI_RST 148 <= SYS_PCI_RST CONN_12V 149 ACOMP_ADC5 SYS_ACPI_STATE0 150 <= SYS_ACPI_STATE0 151 GND SYS_ACPI_STATE1 152 <= SYS_ACPI_STATE1 SCI_INT# <= 153 MCARD_SCI_INT_L SYS_ACPI_STATE2 154 <= SYS_ACPI_STATE2 155 RSVD SYS_IO_EXP_INT_L 156 <= SYS_IO_EXP_INT# 157 GND GND RSVD RSVD RSVD RSVD MegaRAC M300V Card Implementer s Reference and User s Guide

57 Side A Side B To Pin From From Pin To 163 RSVD RSVD RSVD RSVD GND GND GND MCARD_TX_H 170 => A_MII_LAN_TX+ +3.3V_STB 171 VDD_3.3_DUAL MCARD_TX_L 172 => A_MII_LAN_TX- +3.3V_STB 173 VDD_3.3_DUAL GND V_STB 175 VDD_3.3_DUAL MCARD_RX_H 176 <= A_MII_LAN_RX+ +3.3V_STB 177 VDD_3.3_DUAL MCARD_RX_L 178 <= A_MII_LAN_RX- 179 GND POE_GND 180 CHASSIS 181 GND POE_PWR VDD_5_DUAL POE_PWR VDD_5_DUAL POE_GND 186 CHASSIS 187 RSVD LAN_BUSY_LED_L 188 => A_MII_BUSY_LED# 189 RSVD LAN_LINK_LED_L 190 => A_MII_LINK_LED# 191 RSVD GND RSVD RSVD RSVD GND GND RSVD 198 A_MII_TERM <> 199 RSVD GND 200 Chapter Five : OPMA Connector Specification and Pin Assignments 51

58 52 MegaRAC M300V Card Implementer s Reference and User s Guide

59 Chapter 6 M300V Card Mechanicals MegaRAC M300V DDR2 Polarization Key 16MB Flash Module 16MB Frame Buffer Memory Reset Switch (push to reset, button is located on the left side) 32 MB SOC Memory American Megatrends Inc. MegaRAC MG9091B Controller Chip DDR2 Key OPMA Specification (Ver. 1.2) Notice that the notch is located closer to the leads on the right than the leads on the left. The key specified in OPMA specification defined a double wide slotted key which allowed card installation into either DDR1 or DDR2 SODIMM OPMA sockets on the motherboard. OPMA specification version 1.2 and later versions require the card key specification to mechanically conform to SODIMM-DDR2 only. AMD has determined that the original double wide keying scheme could cause misalignment between socket pins and gold fingers. This has been seen only under worst case manufacturing tolerances between the SODIMM socket and the OPMA card, namely where the card was manufactured to the low-end of the allowed tolerance and the socket used provided the maximum allowable width. The DDR2 socket has achieved broad availability and commodity pricing, which was not the case when the first OPMA specification was introduced. Chapter Six : M300V Card Mechanicals 53

60 MegaRAC M300V Card Mechanical Form Factor 54 MegaRAC M300V Card Implementer s Reference and User s Guide

61 OPMA LAN and Serial Port Connector Scheme The OPMA connector can be mounted anywhere on the motherboard, limited only by motherboard-specific factors. It can be mounted horizontally (for example, blades and 1U 2U chasses) or vertically (4U chassis). The MegaRAC M300V card UART (management serial port) signals are routed through the OPMA connector to the manufacturer s choice of management serial port connectors on the chassis (typically either an RJ-11/45 or 9-pin D shell connector). OPMA assumes that the management serial port is shared with the system serial port. This arrangement is required so that both the CLI and the system text consoles (BIOS setup, and so on) can share the same serial legacy concentrator infrastructure that is commonly found in the field today. The dedicated management LAN Ethernet signals from the OPMA connector are routed through the motherboard to a chassis-mounted RJ-45 connector. Except in the upgrade kit mode, if an M300V card is plugged into the OPMA connector, this RJ-45 connector carries all of the management traffic. The transformer matrix is located on the MegaRAC M300V card itself, while the EMI ferrite and the RJ-45 is part of the motherboard. RJ-45 connectors with integrated magnetics should not be used on the motherboard for the MegaRAC M300V card s out-of-band management traffic. Management LAN and UART Connectors Chapter Six : M300V Card Mechanicals 55

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