Intel® Server Board S2600IP and Intel® Workstation Board W2600CR Technical Product Specification Intel order number G34153-004 Revision 1.
Revision History Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Revision History Date February, 2012 June, 2012 1.1 October, 2013 1.2 January, 2014 July, 2014 ii Revision Number 1.0 1.3 1.4 Modifications Initial release. Updated thermal management and environmental summary. Updated onboard power connectors information. Added support for Intel Xeon processor E5-2600 v2 product family. Updated memory support tables.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Disclaimers Disclaimers INFORMATION IN THIS DOCUMENT IS PROVIDED IN CONNECTION WITH INTEL PRODUCTS. NO LICENSE, EXPRESS OR IMPLIED, BY ESTOPPEL OR OTHERWISE, TO ANY INTELLECTUAL PROPERTY RIGHTS IS GRANTED BY THIS DOCUMENT.
Table of Contents Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Table of Contents 1. Introduction ........................................................................................................................ 1 1.1 Chapter Outline ...................................................................................................... 1 1.2 Server Board Use Disclaimer ................................................................................. 1 2. Product Overview .....
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Table of Contents 3.3.22 KVM/Serial Over Lan (SOL) Function ................................................................... 40 3.3.23 On-board SAS/SATA Support and Options .......................................................... 41 3.4 PCI Subsystem .................................................................................................... 42 3.5 Network Interface Controller ................................................
Table of Contents Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 4.5.2 User Model ........................................................................................................... 68 4.5.3 LAN Interface ....................................................................................................... 69 4.6 BMC Firmware Update ......................................................................................... 79 4.6.1 The BMC firmware release Number .............
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Table of Contents 6.4.2 RMM4_NIC Connector ......................................................................................... 98 6.4.3 TPM Connector .................................................................................................... 98 6.4.4 PMBus* Connector ............................................................................................... 99 6.4.5 Chassis Intrusion Header ............................
Table of Contents Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 9.4.7 Grounding .......................................................................................................... 118 9.4.8 Closed loop stability ........................................................................................... 118 9.4.9 Residual Voltage Immunity in Standby mode ..................................................... 118 9.4.10 Common Mode Noise..........................................
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Table of Contents HSC Availability ................................................................................................................ 152 Power Unit Support .......................................................................................................... 152 Redundant Fans only for Intel® Server Chassis ................................................................ 153 Fan Fault LED Support ......................
List of Figures Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS List of Figures Figure 1. Intel® Server Board S2600IP ........................................................................................ 2 Figure 2. Intel® Workstation Board W2600CR ............................................................................. 2 Figure 3. Intel® Server Board S2600IP Major Components ......................................................... 6 Figure 4.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS List of Tables List of Tables Table 1. Product Feature Set ...................................................................................................... 3 Table 2. Mixed Processor Configurations Error Summary ......................................................... 23 Table 3. UDIMM Support Guidelines ......................................................................................... 27 Table 4. RDIMM Support Guidelines .
List of Tables Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Table 39. Multiport SAS/SATA Connector Pin-out ("SCU_1 (4-7)") ........................................... 96 Table 40. Intel® RAID C600 Upgrade Key Connector Pin-out .................................................... 96 Table 41. HSBP_I2C Header Pin-out ........................................................................................ 97 Table 42. HDD LED Header Pin-out.............................................
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS List of Tables Table 80. Intel® Workstation Board W2600CR – Fan Domain Definition ................................. 152 Table 81. Intel® Server Chassis P4304 (UPL) Power Support ................................................. 152 Table 82. POST Progress Code LED Example ....................................................................... 155 Table 83. POST Progress Codes ..............................................................
List of Tables Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS xiv Intel order number G34153-004 Revision 1.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 1. Introduction Introduction This Technical Product Specification (TPS) provides board-specific information detailing the features, functionality, and high-level architecture of the Intel® Server Board S2600IP and Intel® Workstation Board W2600CR. In addition, you can obtain design-level information for a given subsystem by ordering the External Product Specifications (EPS) for the specific subsystem.
Product Overview 2. Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Product Overview The Intel® Server Board S2600IP and the Intel® Workstation Board W2600CR are Enterprise I/O Rich platforms for Pedestal and Rack Server and Workstation market. ® Figure 1. Intel Server Board S2600IP ® Figure 2. Intel Workstation Board W2600CR 2 Intel order number G34153-004 Revision 1.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 2.1 Product Overview Product Feature Set Table 1.
Product Overview Board Name Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Intel® Server Board S2600IP Intel® Workstation Board W2600CR 1 Internal Serial B Server Management Onboard Server Engines* LLC Pilot III* Controller ® Support for Intel Remote Management Module 4 solutions ® Intel Light-Guided Diagnostics on field replaceable units ® Support for Intel System Management Software ® Support for Intel Intelligent Power Node Manager (Need PMBus*-compliant powe
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 2.1.1 Product Overview Main Board Connector and Component Layout The following figure shows the layout of the server board. Each connector and major component is identified by a number or letter, and a description is given below the figure.
Product Overview Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Callout L M N O P Q R S T U V W X Y Z Description Slot 8, PCI Express* Gen2 DIMM E1/E2/F1/F2 Status LED ID LED Diagnostic LED NIC 3/4 (S2600IP only) USB 2/3, NIC 2 USB 0/1, NIC 1 VGA Port (S2600IP only) Serial Port A (S2600IP only) Processor 2 Power connector Processor 2 Fan connector DIMM H2/H1/G2/G1 PMBus* connector Main Power connector Callout AO AP AQ AR AS AT AU AV AW AX AY AZ BA BB BC AA Processor 1 Power conne
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Callout A B C D E F G H I J K L M N O P Description Slot 1, PCI Express* Gen3 RMM4 Lite module Slot 2, PCI Express* Gen3 TPM Slot 3, PCI Express* Gen3 Slot 4, PCI Express* Gen3 RMM4 Connector Slot 5, PCI Express* Gen3 Battery Slot 6, PCI Express* Gen3 Slot 7, PCI Express* Gen3 Slot 8, PCI Express* Gen2 DIMM E1/E2/F1/F2 Status LED ID LED Diagnostic LED Revision 1.
Product Overview Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Callout Q R S T U V W X Y Z AA Description SPDIF connector USB 2/3, NIC 2 USB 0/1, NIC 1 USB3.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Callout A B C D Description 7.1 Channel HD Audio Jack Connector USB3.0 Port 0(bottom) and 1(top) NIC Port 1, USB Port 0 (bottom) and 1 (top) NIC Port 2, USB Port 2 (bottom) and 3 (top) Callout E F G Product Overview Description Diagnostics LED’s ID LED Status LED ® Figure 5. Intel Workstation Board W2600CR Rear I/O Layout Revision 1.
Product Overview 2.1.3 Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Server Board Mechanical Drawings Figure 6. Mounting Hole Locations (1 of 2) 10 Intel order number G34153-004 Revision 1.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Product Overview Figure 7. Mounting Hole Locations (2 of 2) Revision 1.
Product Overview Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Figure 8. Major Connector Pin-1 Locations (1 of 3) 12 Intel order number G34153-004 Revision 1.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Product Overview Figure 9. Major Connector Pin-1 Locations (2 of 3) Revision 1.
Product Overview Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Figure 10. Major Connector Pin-1 Locations (3 of 3) 14 Intel order number G34153-004 Revision 1.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Revision 1.
Product Overview Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Figure 11. Primary Side Keep-out Zone 16 Intel order number G34153-004 Revision 1.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Product Overview Figure 12. Primary Side Card-Side Keep-out Zone Revision 1.
Product Overview Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Figure 13. Second Side Keep-out Zone 18 Intel order number G34153-004 Revision 1.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 3. Functional Architecture Functional Architecture The architecture and design of the Intel® Server Board S2600IP and Intel® Workstation Board W2600CR are based on the Intel® C602 chipset. The chipset is designed for systems based on the Intel® Xeon® Sandy Bridge-EP Processor series in an LGA 2011 Socket with Intel® Quick Path Interconnect (Intel® QPI) speed at 8GT/s.
Functional Architecture Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS ® Figure 15. Intel Workstation Board W2600CR Functional Block Diagram 3.1 Processor Support The server board includes two Socket-R (LGA2011) processor sockets and can support one or two of the following processors – Intel® Xeon® processor E5-2600 and Intel® Xeon® processor E5-2600 v2 product family with a Thermal Design Power (TDP) up to 150W.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Functional Architecture processor heat sink to the server board. The illustration below identifies each sub-assembly component. Figure 16. Processor Socket Assembly Figure 17. Processor Socket ILM The square ILM has an 80x80mm heat sink mounting hole pattern and is used on the Intel® Server Board S2600IP and Intel® Workstation Board W2600CR.
Functional Architecture 3.1.2 Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Processor Population Rules Note: Although the server board does support dual-processor configurations consisting of different processors that meet the defined criteria below, Intel does not perform validation testing of this configuration. For optimal system performance in dual-processor configurations, Intel recommends that identical processors be installed.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Functional Architecture Major: If the “Post Error Pause” setup option is enabled, the system goes directly to the Error Manager to display the error, and logs the POST Error Code to SEL. Operator intervention is required to continue booting the system.
Functional Architecture Error Processor frequency (speed) not identical Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Severity Fatal System Action The BIOS detects the processor frequency difference, and responds as follows: Adjusts all processor frequencies to the highest common frequency. No error is generated – this is not an error condition. Continues to boot the system successfully.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Functional Architecture and Integrated IO Module (IIO), have been combined into a single processor package and feature per socket; two Intel® QuickPath Interconnect point-to-point links capable of up to 8.0 GT/s, up to 40 lanes of Gen 3 PCI Express* links capable of 8.0 GT/s, and 4 lanes of DMI2/PCI Express* Gen 2 interface with a peak transfer rate of 5.0 GT/s.
Functional Architecture Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS latency. The Intel® QuickPath Interconnect has an efficient architecture allowing more interconnect performance to be achieved in real systems. It has a snoop protocol optimized for low latency and high scalability, as well as packet and lane structures enabling quick completions of transactions. Reliability, availability, and serviceability features (RAS) are built into the architecture.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Functional Architecture Per channel memory test and initialization engine can initialize DRAM to all logical zeros with valid ECC (with or without data scrambler) or a predefined test pattern Isochronous access support for Quality of Service (QoS) Minimum memory configuration: independent channel support with 1 DIMM populated Integrated dual SMBus* master controllers Command launch modes of 1n/2n RAS Support: o Rank Lev
Functional Architecture Ranks Per DIMM and Data Width Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Memory Capacity Per DIMM1 1.35V Speed (MT/s) and Voltage Validated by Slot per Channel (SPC) and DIMM Per Channel (DPC)2 2 Slots per Channel 1DPC 2DPC 1.5V 1.35V 1.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Functional Architecture Supported and Validated Supported but not Validate Supported with Limited Validation Table 5. LRDIMM Support Guidelines Ranks Per DIMM and Data Width1 QRx4 (DDP) 5 QRx8 5 (P) Memory Capacity Per DIMM2 Speed (MT/s) and Voltage Validated by Slot per Channel (SPC) and DIMM Per Channel (DPC)3,4 2 Slots per Channel 1DPC 2DPC 1.35V 1.5V 1.35V ® ® Intel Xeon processor E5-2600 product family 1.
Functional Architecture Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS A processor may be installed without populating the associated memory slots provided a second processor is installed with associated memory. In this case, the memory is shared by the processors. However, the platform suffers performance degradation and latency due to the remote memory. Processor sockets are self-contained and autonomous.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Functional Architecture The following are generic DIMM population requirements that generally apply to both the Intel® Server Board S2600IP and Intel® Workstation Board W2600CR. DIMM slots on any memory channel must be filled following the “farthest fill first” rule. A maximum of 8 ranks can be installed on any one channel, counting all ranks in each DIMM on the channel.
Functional Architecture Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS The BIOS displays the “Effective Memory” of the system in the BIOS setup. The term Effective Memory refers to the total size of all DDR3 DIMMs that are active (not disabled) and not used as redundant units. The BIOS provides the total memory of the system in the main page of the BIOS setup. This total is the same as the amount described by the first bullet above.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 3.2.2.4.4 Functional Architecture Lockstep Channel Mode In Lockstep Channel Mode, each memory access is a 128-bit data access that spans Channel 0 and Channel 1, and Channel 2 and Channel 3. Lockstep Channel mode is the only RAS mode that allows SDDC for x8 devices. Lockstep Channel Mode requires that Channel 0 and Channel 1, and Channel 2 and Channel 3 must be populated identically with regards to size and organization.
Functional Architecture Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS CPU# Device Physical Connection IOU# PORT (MUX=0) Electrical Width Electrical Width Comment X16 X8 MUX X4 Gen2 PORT (MUX=1) 3D-3C3B-3A NA 2D-2C2B-2A 0 CPU1 Slot5 X16 1 3B-3A X8 CPU1 Slot6 X8 0 2D-2C X8 CPU1 Slot7 X16 0 2B-2A X8 CPU1 Slot8 DMI2 0 CPU1 IOM X8 X8 IOM Connector 2 1B-1A X8 1B-1A X8 0 X16 X8 MUX X4 Gen2 Gen2 Only Flex Cable & ReTimer Note: The system has vid
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Functional Architecture There is an option displayed for each installed processor after the selection of this menu. For example, if the system has two processors installed, an option will be displayed for each of the two processors as shown below. There is an option displayed for each installed processor. Processor PCIe Link Speed ► Socket 1 PCIe Link Speed ► Socket 2 PCIe Link Speed Figure 20.
Functional Architecture 3.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 3.3.3 Functional Architecture Serial ATA (SATA) Controller ® The Intel C602 Chipset has two integrated SATA host controllers that support independent DMA operation on up to six ports and supports data transfer rates up to 6.0 Gb/s (600 MB/s) on up to two ports (Port 0 and 1 Only) while all ports support rates up to 3.0 Gb/s (300 MB/s) and up to 1.5 Gb/s (150 MB/s).
Functional Architecture Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS such as Hot-Plug. AHCI requires appropriate software support (for example, an AHCI driver) and for some features, hardware support in the SATA device or additional platform hardware. 3.3.6 Rapid Storage Technology ® The Intel C602 Chipset provides support for Intel® Rapid Storage Technology, providing both AHCI and integrated RAID functionality.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 3.3.11 Functional Architecture Advanced Programmable Interrupt Controller (APIC) In addition to the standard ISA compatible Programmable Interrupt controller (PIC) described in the previous section, the Intel® C602 Chipset incorporates the Advanced Programmable Interrupt Controller (APIC). 3.3.
Functional Architecture 3.3.18 Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS System Management Bus (SMBus* 2.0) ® The Intel C602 Chipset contains an SMBus* host interface that allows the processor to communicate with SMBus* slaves. This interface is compatible with most I2C devices. Special I2C commands are implemented. The SMBus* host controller of Intel® C602 Chipset provides a mechanism for the processor to initiate communications with SMBus* peripherals (slaves).
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 3.3.23 Functional Architecture On-board SAS/SATA Support and Options ® The Intel C600 chipset provides storage support by two integrated controllers: AHCI and SCU. By default the server board supports up to 10 SATA ports: two white 6Gb/sec SATA ports from the AHCI controller labeled as “SATA_0” and “SATA_1” and two MINISAS 3Gb/s SATA/SAS ports routed from the SCU controller labeled as “SCU0” (PORT0-3) and “SCU1” (PORT4-7).
Functional Architecture Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS SLES* 11 w/SP2 and later, VMWare* 5.x. Utilities = Windows* GUI and CLI, Linux CLI, DOS CLI, and EFI CLI Uses Matrix Storage Manager for Windows* MDRAID supported in Linux* (does not require a driver) Note: No boot drive support to targets attached through SAS expander card. 3.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 3.5.1 Functional Architecture Network Interface Network connectivity is provided by means of an onboard Intel® Ethernet Controller 1350-AM4 providing up to four 10/100/1000 Mb Ethernet ports. On the Intel® Server Board S2600IP, four external 10/100/1000 Mb RJ45 Ethernet ports are provided. On the Intel® Workstation Board W2600CR, two external 10/100/1000 Mb RJ45 Ethernet ports are provided.
Functional Architecture Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Product Code and iPN Description ® AXX10GBNIAIOM MM# 917905 Dual SFP+ Port 10GbE IO Module based on Intel 82599 10GbE Ethernet Controller AXX10GBTWLIOM MM# 917907 Dual RJ45 Port, 10GBASE-T IO Module, based on Intel I350 Ethernet chipset AXX1FDRIBIOM MM# 918607 Single Port, FDR speed Infiniband* module, with QSFP connector.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Functional Architecture SKU options to support 512MB or 1GB embedded memory Intel designed flash + optional support for super-cap backup (Maintenance Free Back Up) or improved Lithium Polymer battery ® Table 10. Supported Intel Integrated RAID Modules External Name ® Intel Integrated RAID Module RMS25CB080 Description 8 Port SAS-2.
Functional Architecture Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Table 11. Standard Speaker Channels Channel Name Front Left SPEAKER_FRONT_LEFT 1.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Functional Architecture transfer data at speeds of up to 800 Mbps. The Intel® Workstation Board W2600CR includes an internal 1394b connector that allows for a front panel 1394b cable attach. Figure 25. IEEE 1394b Discrete Host Controller Block Diagram Revision 1.
Platform Management Overview Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 4. Platform Management Overview 4.1 Server Management Function Architecture 4.1.1 Feature Support 4.1.1.1 IPMI 2.0 Features The IPMI 2.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Platform Management Overview Basic fan control using Control version 2 SDRs Fan redundancy monitoring and support Power supply redundancy monitoring and support Hot-swap fan support Acoustic management: Support for multiple fan profiles Signal testing support: The BMC provides test commands for setting and getting platform signal states.
Platform Management Overview 4.1.2 Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Enhancements to fan speed control. DCMI 1.1 compliance (product-specific). Support for embedded web server UI in Basic Manageability feature set.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Feature Acoustic Management Platform Management Overview Basic X Advanced X Diagnostic Beep Code Support X X Power State Retention X X ARP/DHCP Support X X PECI Thermal Management Support X X E-mail Alerting X X Embedded Web Server X X SSH Support X X Integrated KVM X Integrated Remote Media Redirection X Lightweight Directory Access Protocol (LDAP) X X Intel Intelligent Power Node Manager Support X X SMAS
Platform Management Overview Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Sixteen mailbox registers for communication between the BMC and host LPC ROM interface BMC watchdog timer capability SD/MMC card controller with DMA support LED support with programmable blink rate controls on GPIOs Port 80h snooping capability Secondary Service Processor (SSP), which provides the HW capability of offloading time critical processing tasks from the main ARM core.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Platform Management Overview Figure 26. Integrated BMC Hardware 4.2 Server Management Functional Specifications 4.2.1 BMC Internal Timestamp Clock The BMC maintains an internal timestamp clock that is used by various BMC subsystems, for example, time stamping SEL entries.
Platform Management Overview 4.2.2 Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS System Event Log (SEL) The BMC implements the system event log as specified in the Intelligent Platform Management Interface Specification, Version 2.0. The SEL is accessible regardless of the system power state through the BMC's in-band and out-of-band interfaces. The BMC allocates 95231 bytes (approximately 93 KB) of non-volatile storage space to store system events.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Code 1-5-1-4 4.2.6 Reason for Beep The system does not power on or unexpectedly powers off and a power supply unit (PSU) is present that is an incompatible model with one or more other PSUs in the system Platform Management Overview Associated Sensors PS Status Diagnostic Interrupt (NMI) Button The BMC generates an NMI pulse under certain conditions. The BMC-generated NMI pulse duration is at least 30 ms.
Platform Management Overview Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS The BMC watchdog feature will only allow up to three resets of the BMC CPU (such as HW reset) or entire FW stack (such as a SW reset) before giving up and remaining in the uBOOT code. This count is cleared upon cycling of power to the BMC or upon continuous operation of the BMC without a watchdog-generated reset occurring for a period of > 30 minutes.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Platform Management Overview Event/Reading Type The event/reading type references values from the Event/Reading Type Code Ranges and the Generic Event/Reading Type Code tables in the Intelligent Platform Management Interface Specification Second Generation v2.0. Digital sensors are specific type of discrete sensors that only have two states.
Platform Management Overview Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Some sensors operate on standby power. These sensors may be accessed and/or generate events when the main (system) power is off, but AC power is present. 4.3.3 BMC System Management Health Monitoring The BMC tracks the health of each of its IPMI sensors and report failures by providing a “BMC FW Health” sensor of the IPMI 2.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 4.3.4.1 Platform Management Overview Processor Status Sensors The BMC provides an IPMI sensor of type processor for monitoring status information for each processor slot. If an event state (sensor offset) has been asserted, it remains asserted until one of the following happens: 1. A Rearm Sensor Events command is executed for the processor status sensor. 2. AC or DC power cycle, system reset, or system boot occurs.
Platform Management Overview Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS At BMC startup, the BMC will check for the fault condition and set the sensor state accordingly. The BMC also checks for this fault condition at each attempt to DC power-on the system. At each DC power-on attempt, a beep code is generated if this fault is detected. Please refer Table 9 (BMC Beep Codes) for beep code details.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Platform Management Overview The BMC only monitors for the “CATERR held low” condition. A pulsed low condition is ignored by the BMC. If a CATERR-low condition is detected, the BMC logs an error message to the SEL against the CATERR sensor and then queries each CPU to determine if it was due to an MSID mismatch condition. An MSID mismatch occurs if a processor is installed into a system board that has incompatible power capabilities.
Platform Management Overview Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 2. Sensor type code: 07h (Processor) 3. Rearm type: Manual The following sensor-specific offsets are supported. Table 19. Supported CATERR Sensor Offsets Offset 01h 4.3.4.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Platform Management Overview [SOLTT] – Static Open Loop Thermal Throttling: for the DIMMs without SOD The default setting is [Auto]. 4.4.2 Altitude Select the proper altitude that the system is distributed from [300m or less], [301m-900m], [901m-1500m], [Above 1500m] options. Lower altitude selection can lead to potential thermal risk.
Platform Management Overview Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 4.4.6 Thermal Sensor Input for Fan Speed Control (FSC) The BMC uses various IPMI sensors as inputs to FSC. Some of the sensors are actual physical sensor and some are “virtual” sensors derived from calculation.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Platform Management Overview Figure 27. High-level Fan Speed Control Process 4.4.7 Power Supply Status\Health Sensors The BMC supports one Power Supply Status sensor for each system power supply module.
Platform Management Overview Offset 01h Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Description Event Logging Power supply failure detected – Asserted if power supply module has failed.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Platform Management Overview Table 22. Support System Event Sensor Offsets Offset 02h Description OEM code (Undetermined system HW failure) Event Logging Assertion and Deassertion 04h PEF action Assertion only For offset 2, OEM code will be logged in event data byte 2 to indicate the type of failure. Only one value will be supported at this time, but others may be added in the future.
Platform Management Overview Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS [Bits 0:0] Reserved Byte 3: Reserved Note: All reserved bits must be set to zero. 4.5 Platform Management Interface This chapter describes the supported BMC communication interfaces: 1. Host SMS interface by means of low pin count (LPC)/keyboard controller style (KCS) interface 2. Host SMM interface by means of low pin count (LPC)/keyboard controller style (KCS) interface 3.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Platform Management Overview 2. User 2 (“root”) always has the administrator privilege level. 3. All user passwords (including passwords for 1 and 2) may be modified. 4. User IDs 3-15 may be used freely, with the condition that user names are unique. Therefore, no other users can be named “” (Null), “root,” or any other existing user name. 4.5.3 LAN Interface The BMC implements both the IPMI 1.5 and IPMI 2.0 messaging models.
Platform Management Overview Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Note: Cipher suite 0 defaults to callback privilege for security purposes. This may be changed by any administrator. For user authentication, the BMC can be configured with “null” user names, whereby password/key lookup is done based on “privilege level only”, or with non-null user names, where the key lookup for the session is determined by user name. IPMI 2.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 4.5.3.4.2 Platform Management Overview Dedicated Management Channel An additional LAN channel dedicated to BMC usage and not available to host SW is supported by an optional add-in card. There is only a PHY device present on the add-in card. The BMC has a built-in MAC module that uses the RGMII interface to link with the card’s PHY. Therefore, for this dedicated management interface, the PHY and MAC are located in different devices.
Platform Management Overview 4.5.3.5 Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Dedicated Management NIC MAC Address For Intel® Server Platforms Based on Intel® Xeon® Processor E5 4600/2600/2400/1600/1400 Product Families each server board has either five or seven MAC addresses assigned to it at the Intel factory. The printed MAC address is assigned to NIC1 on the server board.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Platform Management Overview (the next active LAN link will be chosen randomly from the pool of backup LAN links with link status as “UP”). Traffic immediately resumes on the new active connection. The LAN Failover enable/disable command may be sent at any time. After it has been enabled, standard IPMI commands for setting channel configuration that specify a LAN channel other than the first will return an error code.
Platform Management Overview Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS If the BMC IP address source is DHCP, then the following behavior is seen: If the BMC is first configured for DHCP (prior to enabling VLAN), when VLAN is enabled, the BMC performs a discovery on the new VLAN in order to obtain a new BMC IP address.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Platform Management Overview Table 27.
Platform Management Overview 4.5.3.15.1 Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS E-mail Alerting The Embedded Email Alerting feature allows the user to receive e-mails alerts indicating issues with the server. This allows e-mail alerting in an OS-absent (for example, Pre-OS and OS-Hung) situation. This feature provides support for sending e-mail by means of SMTP, the Simple Mail Transport Protocol as defined in Internet RC 821.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Platform Management Overview Additional features supported by the web GUI includes: Presents all the Basic features to the users. Power on/off/reset the server and view current power state. Displays BIOS, BMC, ME, and SDR version information. Display overall system health. Configuration of various IPMI over LAN parameters for both IPV4 and IPV6.
Platform Management Overview Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS The main purpose of the Virtual Front Panel is to provide the front panel functionality virtually. Virtual Front Panel (VFP) will mimic the status LED and Power LED status and Chassis ID alone. It is automatically in sync with BMC every 40 seconds.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 4.5.3.20 Platform Management Overview Data Center Management Interface (DCMI) The DCMI Specification is an emerging standard that is targeted to providing a simplified management interface for Internet Portal Data Center (IPDC) customers. It is expected to become a requirement for server platforms which are targeted for IPDCs.
Platform Management Overview 4.6.2 Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Boot Recovery Mode The BMC’s boot block supports firmware transfer updates. The Operational Firmware Transfer mode preserves several files in the PIA Linux file system. Boot Recovery mode cannot preserve the files because it does not understand Linux file systems, and treats it as a large binary data section.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Platform Management Overview initializes, it attempts to access the Intel® RMM4 lite. If the attempt to access Intel® RMM4 lite is successful, then the BMC activates the Advanced features. Advanced manageability features are supported over all NIC ports enabled for server manageability. This includes baseboard NICs as well as the LAN channel provided by the optional Dedicated NIC add-in card.
Platform Management Overview Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS The KVM-redirection feature automatically senses video resolution for best possible screen capture and provides high-performance mouse tracking and synchronization. It allows remote viewing and configuration in pre-boot POST and BIOS setup, once BIOS has initialized video. Other attributes of this feature include: Encryption of the redirected screen, keyboard, and mouse.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Platform Management Overview Media redirection supports redirection for both a virtual CD device and a virtual Floppy/USB device concurrently. The CD device may be either a local CD drive or else an ISO image file; the Floppy/USB device may be either a local Floppy drive, a local USB device, or else a disk image file. The media redirection feature supports multiple encryption algorithms, including RC4 and AES.
Platform Management Overview 4.8.1.1 Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Hardware Requirements NM is supported only on platforms that have the NM FW functionality loaded and enabled on the Management Engine (ME) in the SSB and that have a BMC present to support the external LAN interface to the ME. NM power limiting features requires a means for the ME to monitor input power consumption for the platform.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Platform Management Overview When the SMBAlert# signal is asserted, the fans will be gated by HW for a short period (~100ms) to reduce overall power consumption. It is expected that the interruption to the fans will be of short enough duration to avoid false lower threshold crossings for the fan tach sensors; however, this may need to be comprehended by the fan monitoring FW if it does have this sideeffect.
Platform Management Overview Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS No support for SOL or KVM for monitoring the entire boot process. o Since BMC is initializing at the same time as BIOS, it will not be possible to have an SOL or KVM session established from the beginning of the system boot. FP status LED will behave differently (it will be off when on standby) rather than showing fault conditions present at the time the system was powered down.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 5. System Security 5.1 BIOS Password Protection System Security The BIOS uses passwords to prevent unauthorized tampering with the server setup. Passwords can restrict entry to the BIOS Setup, restrict use of the Boot Popup menu, and suppress automatic USB device reordering. There is also an option to require a Power On Password entry in order to boot the system.
System Security Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS new USB boot device is attached to the system. A User is restricted from booting in anything other than the Boot Order defined in the Setup by an Administrator. As a security measure, if a User or Administrator enters an incorrect password three times in a row during the boot sequence, the system is placed into a halt state. A system reset is required to exit out of the halt state.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS System Security For additional details, refer to the TCG PC Client Specific Implementation Specification, the TCG PC Client Specific Physical Presence Interface Specification, and the Microsoft BitLocker* Requirement documents. 5.2.2 Physical Presence Administrative operations to the TPM require TPM ownership or physical presence indication by the operator to confirm the execution of administrative operations.
System Security Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS To access this screen from the Main screen, select the Security option.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Setup Item TPM Administrative Control Options No Operation Turn On Help Text [No Operation] – No changes to current state. Turn Off [Turn On] – Enables and activates TPM. Clear Ownership [Turn Off] – Disables and deactivates TPM. System Security Comments [Clear Ownership] – Removes the TPM ownership authentication and returns the TPM to a factory default state.
Connector/Header Locations and Pin-outs Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 6. Connector/Header Locations and Pin-outs 6.1 Power Connectors 6.1.1 Main Power Connector Main server board power is supplied by one 24-pin power connector. The connector is labeled as “MAIN PWR” on the left bottom of the server board. The following tables provide the pin-out for “MAIN PWR” connector. Table 30.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 6.1.3 Connector/Header Locations and Pin-outs Add-in Card Power Connectors The serve board includes white 2x2-pin power connectors that provide supplemental power to high power PCIe x16 add-in cards (Video or GPGPU) that have power requirements that exceed the maximum power supplied by the riser slot.
Connector/Header Locations and Pin-outs Pin Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 9 Signal Name LED_HDD_ACTIVITY_N 10 Signal Name FP_LED_STATUS_AMBER_BUF_N 11 FP_PWR_BTN_N 12 LED_NIC_LINK0_ACT_BUF_N 13 GND 14 LED_NIC_LINK0_LNKUP_BUF_N 15 FP_RST_BTN_N 16 SMB_SENSOR_3V3STBY_DATA 17 GND 18 SMB_SENSOR_3V3STBY_CLK 19 FP_ID_BTN_N 20 FP_CHASSIS_INTRUSION 21 PU_FM_SIO_TEMP_SENSOR 22 LED_NIC_LINK1_ACT_BUF_N 23 FP_NMI_BTN_N 24 LED_NIC_LINK1_LNKUP_BUF_N
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 6.3.1 Connector/Header Locations and Pin-outs SATA Connectors: 6Gb/s The board includes two white single port SATA only connectors capable of transfer rates of up to 6Gb/s. The following table provides the pin-out for both connectors. Table 37. SATA 6Gbps Connector Pin-out Pin 6.3.
Connector/Header Locations and Pin-outs Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Pin MTH1 GROUND Signal Name Pin MTH5 GROUND Signal Name MTH2 GROUND MTH6 GROUND MTH3 GROUND MTH7 GROUND MTH4 GROUND MTH8 GROUND Table 39.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 6.3.4 Connector/Header Locations and Pin-outs HSBP_I2C Header 2 Table 41. HSBP_I C Header Pin-out Pin 6.3.5 1 Signal Name SMB_HSBP_3V3STBY_DATA 2 GND 3 SMB_HSBP_3V3STBY_CLK HDD LED Header The server board includes a 2-pin hard drive activity LED header used with some SAS/SATA controller add-in cards. The header has the following pin-out. Table 42. HDD LED Header Pin-out Pin 1 6.3.
Connector/Header Locations and Pin-outs 6.4 6.4.1 Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Management and Security Connectors RMM4_Lite Connector A 7-pin Intel® RMM4 Lite connector is included on the server board to support the optional Intel® Remote Management Module 4. There is no support for third-party management cards on this server board. Table 45. RMM4_Lite Connector Pin-out Pin 6.4.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Pin 6.4.4 Connector/Header Locations and Pin-outs 9 Signal Name RST_IBMC_NIC_N_R2 Pin 10 Signal Name CLK_33M_TPM 11 LPC_LAD<3> 12 GND 13 GND 14 LPC_LAD<2> PMBus* Connector Table 48. PMBus* Connector Pin-out Pin 6.4.
Connector/Header Locations and Pin-outs 6.5.1 Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS System FAN Connectors The six system cooling fan connectors near the front edge of the board are 6-Pin connectors; the one system cooling fan near edge of the board is a 4-Pin connectors. Following table provides the pin-out for all system fan connectors. Table 51. 6-pin System FAN Connector Pin-out 1 Pin Signal Name GND 2 12V 3 TACH 4 PWM 5 PRSNT 6 FAULT Table 52.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Pin Connector/Header Locations and Pin-outs 3 Signal Name SPA_SOUT_N 4 SPA_DTR 5 GND 6 SPA_DSR 7 SPA_RTS 8 SPA_CTS 9 SPA_RI 6.6.2 Pin Signal Name Serial Port B Connector Serial-B is an internal 10-pin DH-10 connector and has the following pin-out. Table 55. Serial Port B Connector Pin-out Pin 6.6.
Connector/Header Locations and Pin-outs Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Figure 29. Video Connector Pin-out 6.6.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 7. Jumper Blocks Jumper Blocks The server boards have several 3-pin jumper blocks that you can use to configure, protect, or recover specific features of the server boards. The following symbol identifies Pin 1 on each jumper block on the silkscreen: ▼ Figure 30. Jumper Blocks (J1C3, J1F1, J1F2, J2F3, J2F2) Table 57.
Jumper Blocks Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Jumper Name J1C1: BMC Force Update Pins 1-2 System Results BMC Firmware Force Update Mode – Disabled (Default) 2-3 BMC Firmware Force Update Mode – Enabled 1-2 These pins should have a jumper in place for normal system operation. (Default) 2-3 To clear administrator and user passwords, power on the system with pins 2-3 connected. The administrator and user passwords clear in 5-10 seconds after power on.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Jumper Blocks 7. Open the chassis and move the jumper back to its default position (covering pin 1 and 2). 8. Close the server chassis. 9. Power up the server. The password is now cleared and you can reset it by going into the BIOS setup. 7.
Jumper Blocks Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 4. Turn on the system power. The BIOS POST screen will appear displaying the progress, and the system will boot to the EFI shell. The EFI shell then executes the Startup.nsh batch file to start the flash update process. The user should then switch off the power and return the recovery jumper to its normal position. The user should not interrupt the BIOS POST on the first boot after recovery.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 8. Intel® Light Guided Diagnostics Intel® Light Guided Diagnostics Both server boards have several onboard diagnostic LEDs to assist in troubleshooting boardlevel issues. This section provides a description of the location and function of each LED on the server boards. 8.1 5-volt Stand-by LED Several server management features of these server boards require a 5-V stand-by voltage supplied from the power supply.
Intel® Light Guided Diagnostics Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Figure 31. Stand-by LED, Fan Fault LED, and CPU Fault LED Location 108 Intel order number G34153-004 Revision 1.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 8.4 Intel® Light Guided Diagnostics DIMM Fault LEDs The server board provide memory fault LED for each DIMM socket. These LEDs are located as shown in the following figure. The DIMM fault LED illuminates when the corresponding DIMM slot has memory installed and a memory error occurs. Figure 32. DIMM Fault LED’s Location 8.
Intel® Light Guided Diagnostics Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Figure 33. Location of System Status, System ID and POST Code Diagnostic LEDs LED Name 8.5.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS 8.5.2 Intel® Light Guided Diagnostics System Status LED The bi-color (green/amber) System Status LED operates as follows. Table 58. System Status LED Color Green State Solid on Criticality Ok Description Indicates that the System Status is “Healthy”. The system is not exhibiting any errors. AC power is present and BMC has booted and manageability functionality is up and running.
Intel® Light Guided Diagnostics Color Amber State Solid on Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Criticality Critical, nonrecoverable Description Fatal alarm – system has failed or shutdown: CPU CATERR signal asserted. MSID mismatch detected (CATERR also asserts for this case). CPU 1 is missing. CPU ThermalTrip. No power good – power fault. DIMM failure when there is only 1 DIMM present and hence no good memory present.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Design and Environmental Specifications 9. Design and Environmental Specifications 9.1 Products Design Specifications The following table defines the Intel® Server Board S2600IP and Intel® Workstation Board W2600CR operating and non-operating environmental limits.
Design and Environmental Specifications Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS electrical and/or thermal stress and for device maturity. You should view MTBF estimates as “reference numbers” only. Calculation Model: Telcordia* Issue 2, method I case 3 Operating Temperature: Server in 30°C ambient air Operating Environment: Ground Benign, Controlled Duty Cycle: 100% Quality Level: II ® Table 61.
Intel® Server Board S5520HC / S5500HCV TPS 9.3 Design and Environmental Specifications Server Board Power Requirements This section provides power supply design guidelines for a system using the Intel® Server Board S2600IP and Workstation Board W2600CR including voltage and current specifications, and power supply on/off sequencing characteristics. The following diagram shows the power distribution implemented on these server boards. Figure 34. Power Distribution Block Diagram Revision 1.
Appendix A: Integration and Usage Tips 9.3.1 Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Processor Power Support The server boards support the Thermal Design Power (TDP) guideline for Intel® Xeon® processors. The Flexible Motherboard Guidelines (FMB) is followed to determine the suggested thermal and current design values for anticipating future processor needs.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Appendix A: Integration and Usage Tips Table 65. Loading Conditions 3.3V 5V 12V1 12V2 12V3 -12V 5Vstby Total Power 12V Power 3.3V/5V Power Load1 18 12.1 12 12 11.7 0 0.3 550 428 120 Load2 13.5 15 12 12 11.2 0.5 0.3 549 422 120 Load3 2.5 2 20 20 4.2 0 0.3 550 530 18 Load4 2.5 2 13.1 13.1 18 0 0.3 550 530 18 Load5 0.5 0.3 15 15 6.5 0.5 3 462 438 3 Load6 16 4 1 1 3.
Appendix A: Integration and Usage Tips Output Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Step Load Size (See note 2) Load Slew Rate Test Capacitive Load 12V1+12V2+12V3 23A 0.5 A/sec 2200 F +5VSB 0.5A 0.5 A/sec 20 F 1,2 Notes: 9.4.6 1. Step loads on each 12V output may happen simultaneously. 2. 3. The +12V should be tested with 2200F evenly split between the four +12V rails. This will be tested over the range of load conditions in section 9.4.2.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Appendix A: Integration and Usage Tips The residual voltage at the power supply outputs for no load condition shall not exceed 100mV when AC voltage is applied and the PSON# signal is de-asserted. 9.4.10 Common Mode Noise The Common Mode noise on any output shall not exceed 350mV pk-pk over the frequency band of 10Hz to 20MHz.
Appendix A: Integration and Usage Tips 9.4.14 Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Timing Requirements These are the timing requirements for the power supply operation. The output voltages must rise from 10% to within regulation limits (Tvout_rise) within 2 to 50ms, except for 5VSB - it is allowed to rise from 1 to 25ms. The +3.3V, +5V and +12V1, +12V2, +12V3 output voltages should start to rise approximately at the same time. All outputs must rise monotonically.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Appendix A: Integration and Usage Tips Table 71. Turn On/Off Timing Item Tsb_on_delay Description Delay from AC being applied to 5VSB being within regulation. T ac_on_delay Delay from AC being applied to all output voltages being within regulation. Tvout_holdup Time all output voltages stay within regulation after loss of AC. Tested at 75% of maximum load. 13 ms Tpwok_holdup Delay from loss of AC to de-assertion of PWOK.
Appendix A: Integration and Usage Tips Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Appendix A: Integration and Usage Tips 122 When adding or removing components or peripherals from the server board, AC power must be removed. With AC power plugged into the server board, 5-V standby is still present even though the server board is powered off.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Appendix B: BMC Sensor Tables Appendix B: BMC Sensor Tables This appendix lists the sensor identification numbers and information about the sensor type, name, supported thresholds, assertion and de-assertion information, and a brief description of the sensor purpose. See the Intelligent Platform Management Interface Specification, Version 2.0 for sensor and event/reading-type table information.
Appendix B: BMC Sensor Tables 124 Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS - T: Threshold value Rearm Sensors The rearm is a request for the event status for a sensor to be rechecked and updated upon a transition between good and bad states. Rearming the sensors can be done manually or automatically. This column indicates the type supported by the sensor.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Appendix B: BMC Sensor Tables Note: All sensors listed below may not be present on all platforms. Please check platform EPS section for platform applicability and platform chassis section for chassis specific sensors. Redundancy sensors will be only present on systems with appropriate hardware to support redundancy (for instance, fan or power supply). Table 72.
Appendix B: BMC Sensor Tables Full Sensor Name (Sensor name in SDR) Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Sensor Platform # Applicability Sensor Type Event/Reading Type Event Offset Triggers 07 – Redundant: Transition from nonredundant state. Contrib.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Full Sensor Name (Sensor name in SDR) Voltage Regulator Watchdog (VR Watchdog) Fan Redundancy Sensor Platform # Applicability 0Bh 1 (Fan Redundancy) SSB Thermal Trip (SSB Therm Trip) IO Module Presence 0Ch (SAS Mod Presence) Revision 1.
Appendix B: BMC Sensor Tables Full Sensor Name (Sensor name in SDR) BMC Firmware Health Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Sensor Platform # Applicability 10h All (BMC FW Health) System Airflow (System Airflow) FW Update Status 11h All 12h All Sensor Type Mgmt Health 28h Event/Reading Type Sensor Specific Event Offset Triggers 04 – Sensor Failure Contrib.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Full Sensor Name (Sensor name in SDR) PCI Riser 4 Temperature Sensor Platform # Applicability Platformspecific Temperature Threshold 01h 01h 19h Platformspecific Voltage 02h Threshold 01h 1Ah Platformspecific Voltage 02h Threshold 01h Platformspecific Temperature Threshold 01h 01h Temperature Threshold 01h 01h Temperature Threshold 01h 01h (BB +1.05Vccp P3) Baseboard +1.05V Processor4 Vccp (BB +1.
Appendix B: BMC Sensor Tables Full Sensor Name (Sensor name in SDR) Baseboard Temperature 4 Sensor Platform # Applicability Temperature Threshold 01h 01h 26h Platformspecific Temperature Threshold 01h 01h 27h Platformspecific Temperature Threshold 01h 01h 28h Platformspecific Temperature Threshold 01h 01h 29h Chassisspecific Temperature Threshold 01h 01h 2Ah Chassisspecific Temperature Threshold 01h 01h 2Bh Chassisspecific Temperature Threshold 01h 01h 2Ch Platform
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Full Sensor Name (Sensor name in SDR) SAS Module Temperature Sensor Platform # Applicability 2Dh Platformspecific 2Eh Chassis and Platform Specific (SAS Mod Temp) Exit Air Temperature (Exit Air Temp) Network Interface Controller Temperature 2Fh All 30h– 3Fh Chassis and Platform Specific 40h– 4Fh Chassis and Platform Specific Sensor Type Event/Reading Type Temperature Threshold 01h 01h Temperature Threshold 01h 01h Te
Appendix B: BMC Sensor Tables Full Sensor Name (Sensor name in SDR) Power Supply 1 AC Power Input Sensor Platform # Applicability Event/Reading Type Chassisspecific Other Units Threshold 0Bh 01h 55h Chassisspecific Other Units Threshold 0Bh 01h 58h Chassisspecific Current Threshold 03h 01h 59h Chassisspecific Current Threshold 03h 01h 5Ch Chassisspecific Temperature Threshold 01h 01h 5Dh Chassisspecific (PS2 Power In) Power Supply 1 +12V % of Maximum Current Output Sensor
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Full Sensor Name (Sensor name in SDR) Sensor Platform # Applicability Sensor Type Event/Reading Type Appendix B: BMC Sensor Tables Event Offset Triggers Contrib.
Appendix B: BMC Sensor Tables Full Sensor Name (Sensor name in SDR) Processor 2 Thermal Control % Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Sensor Platform # Applicability Sensor Type Event/Reading Type Temperature Threshold 01h 01h 79h All 7Ah Platformspecific Temperature Threshold 01h 01h 7Bh Platformspecific Temperature Threshold 01h 01h Processor Digital Discrete Event Offset Triggers [u] [c,nc] (P2 Therm Ctrl %) Processor 3 Thermal Control % [u] [c
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Full Sensor Name (Sensor name in SDR) Processor Population Fault Sensor Platform # Applicability 82h All (CPU Missing) Processor 1 DTS Thermal Margin (P1 DTS Therm Mgn) Processor 2 DTS Thermal Margin (P2 DTS Therm Mgn) Processor 3 DTS Thermal Margin (P3 DTS Therm Mgn) Processor 4 DTS Thermal Margin (P4 DTS Therm Mgn) Processor2 MSID Mismatch (P2 MSID Mismatch) Processor 1 VRD Temperature 83h All 84h All 85h All 86h All 87h Al
Appendix B: BMC Sensor Tables Full Sensor Name (Sensor name in SDR) Processor 4 VRD Temperature Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Sensor Platform # Applicability 93h All (P4 VRD Hot) Processor 1 Memory VRD Hot 0-1 (P1 Mem01 VRD Hot) Processor 1 Memory VRD Hot 2-3 (P1 Mem23 VRD Hot) Processor 2 Memory VRD Hot 0-1 (P2 Mem01 VRD Hot) Processor 2 Memory VRD Hot 2-3 (P2 Mem23 VRD Hot) Processor 3 Memory VRD Hot 0-1 (P3 Mem01 VRD Hot) Processor 3 Memory VRD Hot 2-3 (P4 Mem2
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Full Sensor Name (Sensor name in SDR) Processor 4 Memory VRD Hot 2-3 (P4 Mem23 VRD Hot) Power Supply 1 Fan Tachometer 1 (PS1 Fan Tach 1) Power Supply 1 Fan Tachometer 2 (PS1 Fan Tach 2) Power Supply 2 Fan Tachometer 1 (PS2 Fan Tach 1) Power Supply 2 Fan Tachometer 2 (PS2 Fan Tach 2) Processor 1 DIMM Aggregate Thermal Margin 1 (P1 DIMM Thrm Mrgn1) Processor 1 DIMM Aggregate Thermal Margin 2 (P1 DIMM Thrm Mrgn2) Processor 2 DIMM Aggregate Th
Appendix B: BMC Sensor Tables Full Sensor Name (Sensor name in SDR) Processor 3 DIMM Aggregate Thermal Margin 1 (P3 DIMM Thrm Mrgn1) Processor 3 DIMM Aggregate Thermal Margin 2 (P3 DIMM Thrm Mrgn2) Processor 4 DIMM Aggregate Thermal Margin 1 (P4 DIMM Thrm Mrgn1) Processor 4 DIMM Aggregate Thermal Margin 2 (P4 DIMM Thrm Mrgn2) Fan Tachometer Sensors (Chassis specific sensor names) Processor 1 DIMM Thermal Trip (P1 Mem Thrm Trip) Processor 2 DIMM Thermal Trip (P2 Mem Thrm Trip) Processor 3 DIMM Thermal Trip (
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Full Sensor Name (Sensor name in SDR) Sensor Platform # Applicability Sensor Type Processor 4 DIMM Thermal Trip (P4 Mem Thrm Trip) Global Aggregate Temperature Margin 1 (Agg Therm Mrgn 1) Global Aggregate Temperature Margin 2 (Agg Therm Mrgn 2) Global Aggregate Temperature Margin 3 (Agg Therm Mrgn 3) Global Aggregate Temperature Margin 4 (Agg Therm Mrgn 4) Global Aggregate Temperature Margin 5 (Agg Therm Mrgn 5) Global Aggregate Tempera
Appendix B: BMC Sensor Tables Full Sensor Name (Sensor name in SDR) Global Aggregate Temperature Margin 8 (Agg Therm Mrgn 8) Baseboard +12V (BB +12.0V) Baseboard +5V (BB +5.0V) Baseboard +3.3V (BB +3.3V) Baseboard +5V Stand-by Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Sensor Platform # Applicability CFh D0h D1h D2h D3h Platform Specific All D4h D6h (BB +1.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Full Sensor Name (Sensor name in SDR) Baseboard +1.5V P1 Memory AB VDDQ Sensor Platform # Applicability D8h All (BB +1.5 P1MEM AB) Baseboard +1.5V P1 Memory CD VDDQ D9h DAh DBh DCh All Voltage 02h Threshold 01h All DDh (BB +3.3V Vbat) Revision 1.4 DEh Threshold 01h Voltage 02h Threshold 01h All Voltage 02h Threshold 01h (BB +1.1V STBY) Baseboard CMOS Battery Voltage 02h All (BB +1.8V AUX) Baseboard +1.
Appendix B: BMC Sensor Tables Full Sensor Name (Sensor name in SDR) Baseboard +1.35V P1 Low Voltage Memory AB VDDQ Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Sensor Platform # Applicability E4h All (BB +1.35 P1LV AB) Baseboard +1.35V P1 Low Voltage Memory CD VDDQ E5h E6h All Voltage 02h Threshold 01h Threshold 01h All EAh Platform Specific Voltage 02h Threshold 01h EBh Platform Specific Voltage 02h Threshold 01h Drive Slot Sensor Specific (BB +3.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Appendix B: BMC Sensor Tables Notes: 1. 2. Revision 1.4 Redundancy sensors will be only present on systems with appropriate hardware to support redundancy (for instance, fan or power supply). This is only applicable when the system doesn't support redundant fans. When fan redundancy is supported, then the contribution to system state is driven by the fan redundancy sensor.
Appendix C: Platform Specific BMC Appendix Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Appendix C: Platform Specific BMC Appendix Intel® Server Board S2600IP Introduction This is an addendum document to BMC core EPS. This document describes platform and chassis specific information. Product ID Bytes 11:12 (product ID) of Get Device ID command response: 55h 00h IPMI Channel ID Assignments The following table provides information on the BMC channel assignments. ® Table 73.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Appendix C: Platform Specific BMC Appendix Intel® Server Chassis P4XXX (UPL with redundant fan 4U) Intel® Server Chassis R2208 (BHP with redundant fan 2U) Intel® Server Chassis R2216 (BHP with redundant fan 2U) Intel® Server Chassis R2224 (BHP with redundant fan 2U) Intel® Server Chassis R2308 (BHP with redundant fan 2U) Intel® Server Chassis R2312 (BHP with redundant fan 2U) Chassis-specific Sensors ® Table 74.
Appendix C: Platform Specific BMC Appendix Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Fan Redundancy Support Supported on: Intel® Server Chassis P4208 (UPL with redundant fan 4U) Intel® Server Chassis P4216 (UPL with redundant fan 4U) Intel® Server Chassis P4224 (UPL with redundant fan 4U) Intel® Server Chassis P4308 (UPL with redundant fan 4U) Intel® Server Chassis P4XXX (UPL with redundant fan 4U) Intel® Server Chassis R2208 (BHP with redundant fan 2U)
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Appendix C: Platform Specific BMC Appendix Chassis Fan Domain 2 Major Components Cooled (Temperature sensor number) BB P2 VR Temp(24h) BB MEM VR Temp(25h) HSBP 1 Temp(29h) HSBP 2 Temp(2Ah) HSBP 3 Temp(2Bh) SAS Mod Temp(2Dh) Exit Air Temp(2Eh) HDD 20 Status(64h) HDD 21 Status(65h) DIMM Thrm Mrgn 2(B1h) DIMM Thrm Mrgn 3(B2h) 3 BB P2 VR Temp(24h) HSBP 3 Temp(2Bh) Exit Air Temp(2Eh) P1 Therm Margin(74
Appendix C: Platform Specific BMC Appendix Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Chassis Fan Domain 2 Major Components Cooled (Temperature sensor number) SSB Temp(22h) BB P2 VR Temp(24h) HSBP 1 Temp(29h) HSBP 2 Temp(2Ah) P1 Therm Margin(74h) P2 Therm Margin(75h) P2 DTS Therm Mgn(84h) DIMM Thrm Mrgn 2(B1h) DIMM Thrm Mrgn 3(B2h) Fans (Sensor number) 3 BB P2 VR Temp(24h) HSBP 1 Temp(29h) HSBP 2 Temp(2Ah) HSBP 3 Temp(2Bh) Exit Air Te
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Appendix C: Platform Specific BMC Appendix Intel® Server Chassis P4216 (UPL) o Intel Server Chassis P4224 (UPL) o Intel Server Chassis P4308 (UPL) Intel Server Chassis R2208 (BHP) 8-bay 2.5” HDD – FXX8X25HSBP ® Intel Server Chassis R2216 (BHP) o 8-bay 3.5” HDD – FUP8X35HSBP ® o 8-bay 2.5” HDD – FXX8X25HSBP ® o 8-bay 2.5” HDD – FXX8X25HSBP ® 8-bay 2.
Appendix C: Platform Specific BMC Appendix Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Intel® Server Chassis P4308 (UPL with redundant fan 4U) Intel® Server Chassis P4XXX (UPL with redundant fan 4U) Intel® Server Chassis R2208 (BHP with redundant fan 2U) Intel® Server Chassis R2216 (BHP with redundant fan 2U) Intel® Server Chassis R2224 (BHP with redundant fan 2U) Intel® Server Chassis R2308 (BHP with redundant fan 2U) Intel® Server Chassis R2312 (BHP wit
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Appendix C: Platform Specific BMC Appendix 2 LAN 2 (platform specific) 3 LAN3 Yes 1 Yes ® (Provided by the Intel Dedicated Server Management NIC) 4 Reserved Yes 5 USB No 6 Secondary IPMB No 7 SMM No 8– 0Dh Reserved – 0Eh Self 2 – 0Fh SMS/Receive Message Queue No Notes: 1. 2. Optional HW supported by the server system. Refers to the actual channel used to send the request.
Appendix C: Platform Specific BMC Appendix Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Fan Domain Definition ® Table 80.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Appendix C: Platform Specific BMC Appendix Redundant Fans only for Intel® Server Chassis Not supported. Fan Fault LED Support Not supported. Memory Throttling Support Baseboard supports this feature. Revision 1.
Appendix D: POST Code Diagnostic LED Decoder Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Appendix D: POST Code Diagnostic LED Decoder During the system boot process, the BIOS executes a number of platform configuration processes, each of which is assigned a specific hex POST code number. As each configuration routine is started, the BIOS displays the POST code to the POST Code Diagnostic LEDs on the back edge of the server board.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPSAppendix D: POST Code Diagnostic LED Decoder Note: Diagnostic LEDs are best read and decoded when viewing the LEDs from the back of the system Table 82.
Appendix D: POST Code Diagnostic LED Decoder Checkpoint LED # 63h Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Diagnostic LED Decoder 1 = LED On, 0 = LED Off Upper Nibble Lower Nibble MSB LSB 8h 4h 2h 1h 8h 4h 2h 1h #7 #6 #5 #4 #3 #2 #1 #0 0 1 1 0 0 0 1 1 Dxe CPU Init 68h 0 1 1 0 1 0 0 0 DXE PCI Host Bridge Init Description 69h 0 1 1 0 1 0 0 1 DXE NB Init 6Ah 0 1 1 0 1 0 1 0 DXE NB SMM Init 70h 0 1 1 1 0 0 0 0 DXE SB Init 71h 0 1 1 1 0
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPSAppendix D: POST Code Diagnostic LED Decoder Checkpoint LED # B2h Diagnostic LED Decoder 1 = LED On, 0 = LED Off Upper Nibble Lower Nibble MSB LSB 8h 4h 2h 1h 8h 4h 2h 1h #7 #6 #5 #4 #3 #2 #1 #0 Description 1 0 1 1 0 0 1 0 DXE Legacy Option ROM init B3h 1 0 1 1 0 0 1 1 DXE Reset system B4h 1 0 1 1 0 1 0 0 DXE USB Hot plug B5h 1 0 1 1 0 1 0 1 DXE PCI BUS Hot plug B6h 1 0 1 1 0 1 1 0 DXE NVRAM cleanup B
Appendix D: POST Code Diagnostic LED Decoder Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Diagnostic LED Decoder Checkpoint LED B5h B6h B7h B8h B9h BAh BBh BCh BFh 1 = LED On, 0 = LED Off Upper Nibble Lower Nibble MSB LSB 8h 4h 2h 1h 8h 4h 2h 1h #7 #6 #5 #4 #3 #2 #1 #0 1 0 1 1 0 1 0 1 1 0 1 1 0 1 1 0 1 0 1 1 0 1 1 1 1 0 1 1 1 0 0 0 1 0 1 1 1 0 0 1 1 0 1 1 1 0 1 0 1 0 1 1 1 0 1 1 1 0 1 1 1 1 0 0 1 0 1 1 1 1 1 1 Description Program registers on the channel level Perform the JEDEC
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPSAppendix D: POST Code Diagnostic LED Decoder Diagnostic LED Decoder 1 = LED On, 0 = LED Off Checkpoint Upper Nibble Lower Nibble MSB 8h LED #7 4h #6 2h #5 1h #4 8h #3 4h #2 2h #1 1h #0 EDh EFh 1 1 1 0 1 1 0 1 1 1 1 0 1 1 1 1 Revision 1.4 Description LSB 02h = Hardware memtest failed. 03h = Hardware Memtest failure in Lockstep Channel mode requiring a channel to be disabled.
Appendix E: POST Error Messages and Handling Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Appendix E: POST Error Messages and Handling Most error conditions encountered during POST are reported using POST Error Codes. These codes represent specific failures, warnings, or are informational. POST Error Codes may be displayed in the Error Manager display screen, and are always logged to the System Event Log (SEL).
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Appendix E: POST Error Messages and Handling Error Code 0146 PCI out of resources error Response Major 0191 Processor core/thread count mismatch detected Fatal 0192 0194 Processor cache size mismatch detected Processor family mismatch detected Fatal Fatal 0195 Processor Intel(R) QPI link frequencies unable to synchronize Fatal 0196 Processor model mismatch detected Fatal 0197 Processor frequencies unable to synchronize Fa
Appendix E: POST Error Messages and Handling Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Error Code 8528 Error Message DIMM_C3 failed test/initialization Response Major 8529 DIMM_D1 failed test/initialization Major 852A DIMM_D2 failed test/initialization Major 852B DIMM_D3 failed test/initialization Major 852C DIMM_E1 failed test/initialization Major 852D DIMM_E2 failed test/initialization Major 852E DIMM_E3 failed test/initialization Major 852F DIMM_F1 failed
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Appendix E: POST Error Messages and Handling Error Code 8555 DIMM_H1 disabled Response Major 8556 DIMM_H2 disabled Major 8557 DIMM_H3 disabled Major 8558 DIMM_I1 disabled Major 8559 DIMM_I2 disabled Major 855A DIMM_I3 disabled Major 855B DIMM_J1 disabled Major 855C DIMM_J2 disabled Major 855D DIMM_J3 disabled Major 855E DIMM_K1 disabled Major 855F (Go to 85D0) DIMM_K2 disabled Major 8560 DIMM_A1 encounter
Appendix E: POST Error Messages and Handling Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Error Code 85C1 Error Message DIMM_L1 failed test/initialization Response Major 85C2 DIMM_L2 failed test/initialization Major 85C3 DIMM_L3 failed test/initialization Major 85C4 DIMM_M1 failed test/initialization Major 85C5 DIMM_M2 failed test/initialization Major 85C6 DIMM_M3 failed test/initialization Major 85C7 DIMM_N1 failed test/initialization Major 85C8 DIMM_N2 failed
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Appendix E: POST Error Messages and Handling Error Code 85EE Error Message DIMM_P2 encountered a Serial Presence Detection (SPD) failure Response Major 85EF DIMM_P3 encountered a Serial Presence Detection (SPD) failure Major 8604 POST Reclaim of non-critical NVRAM variables Minor 8605 BIOS Settings are corrupted Major 8606 NVRAM variable space was corrupted and has been reinitialized Major 92A3 Serial port component was no
Appendix E: POST Error Messages and Handling Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Table 88. Integrated BMC Beep Codes Code 1-5-2-1 Reason for Beep No CPUs installed or first CPU socket is empty. Associated Sensors CPU1 socket is empty, or sockets are populated incorrectly 1-5-2-4 MSID Mismatch MSID mismatch occurs if a processor is installed into a system board that has incompatible power capabilities.
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Glossary Glossary This appendix contains important terms used in the preceding chapters. For ease of use, numeric entries are listed first (for example, 82460GX) with alpha entries following (for example, AGP 4x). Acronyms are then entered in their respective place, with non-acronyms following.
Glossary Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Term INTR Interrupt IP Internet Protocol IPMB Intelligent Platform Management Bus IPMI Intelligent Platform Management Interface IR Infrared ITP In-Target Probe KB 1024 bytes KCS Keyboard Controller Style LAN Local Area Network LCD Liquid Crystal Display LED Light Emitting Diode LPC Low Pin Count LUN Logical Unit Number MAC Media Access Control MB 1024KB mBMC National Semiconductor© PC87431x mini B
Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS SMI Term Definition Server Management Interrupt (SMI is the highest priority nonmaskable interrupt) SMM Server Management Mode SMS Server Management Software SNMP Simple Network Management Protocol TBD To Be Determined TIM Thermal Interface Material UART Universal Asynchronous Receiver/Transmitter UDP User Datagram Protocol UHCI Universal Host Controller Interface UTC Universal time coordinare VID Voltage Identificat
Reference Documents Intel® Server Board S2600IP and Intel® Workstation Board W2600CR TPS Reference Documents See the following document for additional information: 170 BIOS for Intel® Server Platforms Based on Intel® Xeon® Processor E54600/2600/2400/1600 Product Families External Product Specification Intel® Server Platforms Based On Intel® Xeon® Processor E5 4600/2600/2400/1600 Product Families BMC Core Firmware External Product Specification Intel® Server System P4000IP/CR Technical
