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Intel

Server Board S2600CW

Family

Technical Product Specification

Revision1.11

February, 2015

Summary of content (207 pages)

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Intel® Server Board S2600CW Family Technical Product Specification Revision1.
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Revision History Intel® Server Board S2600CW Family TPS Revision History Date ii September, 2014 Revision Number 1.0 Modifications Initial release November, 2014 1.10 Include information for S2600CW2S, S2600CWT and S2600CWTS February, 2015 1.11 Updated chapter 3.4.1, 3.4.7 and 7.5 Revision1.
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Intel® Server Board S2600CW Family 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.
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Table of Contents Intel® Server Board S2600CW Family TPS Table of Contents 1. Introduction........................................................................................................................................... 1 1.1 Chapter Outline.................................................................................................................................... 1 1.2 Server Board Use Disclaimer .........................................................................................
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Intel® Server Board S2600CW Family TPS 3.4 Table of Contents System IO ............................................................................................................................................ 33 3.4.1 PCI Express* Support...................................................................................................................... 33 3.4.2 PCIe Enumeration and Allocation ............................................................................................. 34 3.4.
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Table of Contents Intel® Server Board S2600CW Family TPS 5.3.4 Margin Sensors.................................................................................................................................. 66 5.3.5 IPMI Watchdog Sensor .................................................................................................................. 66 5.3.6 BMC Watchdog Sensor .................................................................................................................. 66 5.3.
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Intel® Server Board S2600CW Family TPS 7.1 Table of Contents Power Connectors ........................................................................................................................... 98 7.1.1 Main Power Connector .................................................................................................................. 98 7.1.2 CPU Power Connectors ................................................................................................................. 98 7.
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Table of Contents Intel® Server Board S2600CW Family TPS 9.3 DIMM Fault LEDs ........................................................................................................................... 118 9.4 System ID LED, System Status LED, and POST Code Diagnostic LEDs .................. 119 9.4.1 System ID LED ................................................................................................................................ 119 9.4.2 System Status LED...............................
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Intel® Server Board S2600CW Family TPS List of Figures List of Figures Figure 1. Intel® Server Board S2600CW2S and S2600CWTS ...................................................................... 5 Figure 2. Intel® Server Board S2600CW2 and S2600CWT............................................................................ 6 Figure 3. Connector and Component Layout ..................................................................................................... 7 Figure 4.
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List of Tables Intel® Server Board S2600CW Family TPS List of Tables Table 1. Intel® Server Board S2600CW Feature Set......................................................................................... 3 Table 2. Mixed Processor Configurations ......................................................................................................... 18 Table 3. RDIMM Support .................................................................................................................................
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Intel® Server Board S2600CW Family TPS List of Tables Table 36. Serial Port B Connector Pin-out .................................................................................................... 106 Table 37. Video Connector Pin-out .................................................................................................................. 106 Table 38. Server Board Jumpers .......................................................................................................................
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List of Tables Intel® Server Board S2600CW Family TPS Table 73. SATA Peripheral Power Connectors ............................................................................................ 141 Table 74. Remote Sense Connection Points ................................................................................................ 142 Table 75. Remote Sense Requirements ......................................................................................................... 142 Table 76.
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Intel® Server Board S2600CW Family TPS List of Tables < This page intentionally left blank. > Revision1.
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Intel® Server Board S2600CW Family TPS 1. Introduction Introduction This Technical Product Specification (TPS) provides information on the Intel® Server Board S2600CW including architecture, features, and functionality. In addition, you can obtain design-level information for a given subsystem by ordering the External Product Specifications (EPS) for the specific subsystem. EPS documents are not publicly available and you must order them through your local Intel representative. 1.
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Introduction 1.2 Intel® Server Board S2600CW Family TPS Server Board Use Disclaimer Intel® Server Boards contain a number of high-density VLSI (Very Large Scale Integration) and power delivery components that require adequate airflow for cooling. Intel ensures through its own chassis development and testing that when Intel server building blocks are used together, the fully integrated system meets the intended thermal requirements of these components.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Overview Intel® Server Board S2600CW Overview 2. The Intel® Server Board S2600CW is a monolithic printed circuit board (PCB) with features designed to support the pedestal server markets. This server board is designed to support the Intel® Xeon® processor E5-2600 v3 product family. Previous generation Intel® Xeon® processors are not supported.
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Intel® Server Board S2600CW Overview Feature RAID Support Description   External back panel I/O Connectors Internal I/O Connectors/Headers Video Support Server Management PCH SATA 6G - ESRT2 RAID 0/1/10 - Optional RAID 5 is supported through the ESRT2 RAID5 upgrade key LSI* SAS3008 SAS 12G - Integrated RAID 0/1/1E/10 - Integrated MegaRaid 0/1/10/5/50 upgrade is supported through the upgrade key AXXRPFKHY5  One DB-15 video connector  Two NIC ports (I350 for 1GbE or X540 for 10GbE)  On
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Intel® Server Board S2600CW Family TPS 2.2 Intel® Server Board S2600CW Overview Server Board Layout The following diagram shows the board layout for S2600CW2S and S2600CWTS with on-board SAS controller. Figure 1. Intel® Server Board S2600CW2S and S2600CWTS Revision1.
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Intel® Server Board S2600CW Overview Intel® Server Board S2600CW Family TPS The following diagram shows the board layout for S2600CW2 and S2600CWT without on-board SAS controller. Figure 2. Intel® Server Board S2600CW2 and S2600CWT 6 Revision1.
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Intel® Server Board S2600CW Family TPS 2.2.1 Intel® Server Board S2600CW Overview Server Board Connector and Component Layout The following figure shows the layout of the server board and the location of each connector and major component except jumpers. The locations of jumpers can be found in Chapter 8. Figure 3. Connector and Component Layout Revision1.
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Intel® Server Board S2600CW Overview 2.2.2 Intel® Server Board S2600CW Family TPS Server Board Mechanical Drawings Figure 4. Mounting Hole Locations (1 of 2) 8 Revision1.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Overview Figure 5. Mounting Hole Locations (2 of 2) Revision1.
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Intel® Server Board S2600CW Overview Intel® Server Board S2600CW Family TPS Figure 6. Major Connector Pin-1 Locations (1 of 2) 10 Revision1.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Overview Figure 7. Major Connector Pin-1 Locations (2 of 2) Revision1.
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Intel® Server Board S2600CW Overview Intel® Server Board S2600CW Family TPS Figure 8. Primary Side Card-Side Keep-out Zone 12 Revision1.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Overview Figure 9. Second Side Keep-out Zone Revision1.
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Intel® Server Board S2600CW Overview 2.2.3 Intel® Server Board S2600CW Family TPS Server Board Rear I/O Layout The following drawing shows the layout of the rear I/O components for the server boards. Callout A Video Description Callout B USB 2.0 Description C Dedicated Management NIC (DMN) D USB 3.0 E NIC1 F NIC2 G Diagnostic LEDs H ID LED I System Status LED Figure 10. Rear I/O Layout of Intel® Server Board S2600CW 14 Revision1.
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Intel® Server Board S2600CW Family TPS 3. Intel® Server Board S2600CW Functional Architecture Intel® Server Board S2600CW Functional Architecture The architecture and design of the Intel® Server Board S2600CW is based on the Intel® Xeon® E5-2600 v3 processors, the Intel® C610 chipset. This chapter provides a high-level description of the functionality associated with each chipset component and the architectural blocks that make up the server boards. Figure 11.
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Intel® Server Board S2600CW Functional Architecture Intel® Server Board S2600CW Family TPS Figure 12. Intel® Server Board S2600CW2S/S2600CWTS Functional Block Diagram 3.1 Processor Support The server board includes two Socket-R3 (LGA2011-3) processor sockets and can support two processors from the Intel® Xeon® processor E5-2600 v3 product family with a Thermal Design Power (TDP) of up to 145W.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Functional Architecture Figure 13. Processor Socket Assembly 3.1.2 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 these configurations. For optimal system performance in dual-processor configurations, Intel recommends that identical processors be installed.
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Intel® Server Board S2600CW Functional Architecture  Intel® Server Board S2600CW Family TPS Processor stepping within a common processor family can be mixed as long as it is listed in the processor specification updates published by Intel Corporation.
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Intel® Server Board S2600CW Family TPS Error Processor model not Identical Processor cores/threads not identical Processor cache not identical Processor frequency (speed) not identical Severity Fatal Fatal Fatal Fatal Intel® Server Board S2600CW Functional Architecture System Action The BIOS detects the error condition and responds as follows:  Logs the POST Error Code into the SEL.  Alerts the BMC to set the System Status LED to steady Amber.
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Intel® Server Board S2600CW Functional Architecture Error Processor Intel® QuickPath Interconnect link frequencies not identical Severity Fatal Intel® Server Board S2600CW Family TPS System Action The BIOS detects the QPI link frequencies and responds as follows:  Adjusts all QPI interconnect link frequencies to the highest common frequency.  No error is generated – this is not an error condition.  Continues to boot the system successfully.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Functional Architecture Processor Feature Details:  Up to 18 execution cores (Intel® Xeon® processor E5-2600 v3 product family)  When enabled, each core can support two threads (Intel® Hyper-Threading Technology)  46-bit physical addressing and 48-bit virtual addressing  1-GB large page support for server applications  A 32-KB instruction and 32-KB data first-level cache (L1) for each core  A 256-KB shared instruction/data
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Intel® Server Board S2600CW Functional Architecture 3.2.3 Intel® Server Board S2600CW Family TPS Intel® Trusted Execution Technology for Servers (Intel® TXT) Intel® TXT defines platform-level enhancements that provide the building blocks for creating trusted platforms. The Intel® TXT platform helps to provide the authenticity of the controlling environment so that those wishing to rely on the platform can make an appropriate trust decision.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Functional Architecture system is able to transition between voltage and frequency states more often, providing improved power/performance balance.  3.2.9 Clock Partitioning and Recovery. The bus clock continues running during state transition, even when the core clock and Phase-Locked Loop are stopped, which allows logic to remain active. The core clock is also able to restart more quickly under Enhanced Intel SpeedStep® Technology.
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Intel® Server Board S2600CW Functional Architecture 3.2.13 Intel® Server Board S2600CW Family TPS Trusted Platform Module (TPM) Trusted Platform Module is bound to the platform and connected to the PCH via the LPC bus or SPI bus. The TPM provides the hardware-based mechanism to store or “seal” keys and other data to the platform. It also provides the hardware mechanism to report platform attestations. 3.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Functional Architecture - Multi-rank level memory sparing - Failed DIMM isolation 3.3.1 Supported Memory Table 3. RDIMM Support SRx4 8GB Speed (MT/s) and Voltage Validated by Slot per Channel (SPC) and DIMM Per Channel (DPC) 1DPC 2DPC 1.2V 1.2V 2133 1866 SRx8 4GB 2133 1866 DRx8 8GB 2133 1866 DRx4 16GB 2133 1866 Ranks Per DIMM and Data Width Memory Capacity Per DIMM Table 4.
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Intel® Server Board S2600CW Functional Architecture Intel® Server Board S2600CW Family TPS  Processor sockets are self-contained and autonomous. However, all memory subsystem support (such as Memory RAS and Error Management) in the BIOS setup is applied commonly across processor sockets.  The BLUE memory slots on the server board identify the first memory slot for a given memory channel.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Functional Architecture The following are generic DIMM population requirements that generally apply to the Intel® Server Board S2600CW.  All DIMMs must be DDR4 DIMMs.  Mixing of LRDIMM with any other DIMM type is not allowed per platform.  Mixing of DDR4 operating frequencies is not validated within a socket or across sockets by Intel. If DIMMs with different frequencies are mixed, all DIMMs will run at the common lowest frequency.
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Intel® Server Board S2600CW Functional Architecture Intel® Server Board S2600CW Family TPS Example: If a system has two 16GB Quad Rank DIMMs on each of 4 channels on each of 2 processor sockets, the total installed memory will be (((2 * 16GB) * 4 channels) * 2 CPU sockets) = 256GB. In Mirroring Mode, since half of the memory is reserved as a mirror image, the available memory size would be 128GB. 3.3.
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Intel® Server Board S2600CW Family TPS 3.3.5 Intel® Server Board S2600CW Functional Architecture RAS Features  DRAM Single Device Data Correction (SDDC): SDDC provides error checking and correction that protects against a single x4 DRAM device failure (hard-errors) as well as multi-bit faults in any portion of a single DRAM device on a DIMM (require lockstep mode for x8 DRAM device based DIMM).
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Intel® Server Board S2600CW Functional Architecture Intel® Server Board S2600CW Family TPS  DIMM population validation check  Memory controller initialization and other hardware settings  Initialization of RAS configurations (as applicable) There are several errors which can be detected in different phases of initialization.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Functional Architecture and in which memory slots the DIMMs are installed. An invalid configuration may cause the system to halt. Potential Error Cases:  Invalid DIMM (type, organization, speed, size) – If a DIMM is found that is not a type supported by the system, the following error will be generated: POST Error Code 8501 “DIMM Population Error”, and a “Population Error” Fatal Error Halt 0xED.
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Intel® Server Board S2600CW Functional Architecture Intel® Server Board S2600CW Family TPS populated channels which can be trained correctly, this becomes a Fatal Error Halt 0xEA. 3.3.6.4 Thermal (CLTT) and Power Throttling Potential Error Cases:  3.3.6.5 CLTT Structure Error – The CLTT initialization fails due to an error in the data structure passed in by the BIOS. This results in a Fatal Error Halt 0xEF. Built-In Self Test (BIST) Once the memory is functional, a memory test is executed.
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Intel® Server Board S2600CW Family TPS 3.4 Intel® Server Board S2600CW Functional Architecture System IO The server board Input/Output features are provided via the embedded features and functions of several onboard components including the Integrated I/O Module (IIO) of the Intel® Xeon® E5-2600 v3 processor, the Intel® C610 series chipset, the Intel® Ethernet controller I350 or X540, and the I/O controllers embedded within the Emulex* Pilot-III Management Controller. 3.4.
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Intel® Server Board S2600CW Functional Architecture  Intel® Server Board S2600CW Family TPS - 75W from PCIe slot and 150W from PSU direct cable attach: 75W (2x3 conn) + 75W (2x3 conn) or - 75W from PCIe slot and 150W from PSU direct cable attach: 75W (2x3 conn) + 75W (2x4 conn) or - 75W from PCIe slot and 150W from PSU direct cable attach: 150W (2x4 conn) x16 300W card - 75W from PCIe slot and 225W from PSU direct cable attach: 75W (2x3 conn) + 150W (2x4 conn) PCIe slot 6 supports risers.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Functional Architecture CPU 0 PCI Ports Device (D) Bus (B) Function (F) S2600CW2S S2600CWTS On-board Device On-board Device PE1A 0 1 0 I350/X540 I350/X540 PE1B 0 1 1 I350/X540 I350/X540 PE2A 0 2 0 PCIE Slot6 PCIE Slot6 PE2B 0 2 1 PCIE Slot6 PCIE Slot6 PE2C 0 2 2 PCIE Slot6 PCIE Slot6 PE2D 0 2 3 PCIE Slot6 PCIE Slot6 PE3A 0 3 0 PCIE Slot5 PCIE Slot5 PE3B 0 3 1 PCIE Slot5 PCIE Slot5 PE3C
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Intel® Server Board S2600CW Functional Architecture Intel® Server Board S2600CW Family TPS Express Root Port on another subsystem. NTB supports three 64bit BARs as configuration space or prefetchable memory windows that can access both 32bit and 64bit address space through 64bit BARs. There are 3 NTB supported configurations:  NTB Port to NTB Port Based Connection (Back-to-Back).  NTB Port to Root Port Based Connection – Symmetric Configuration.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Functional Architecture Intel® Server Chassis P4304XXMFEN2/P4304XXMUXX support up to airflow 200LFM/55°C. Some PCIe SSD device may require airflow 300LFM (or above), performance mode in BIOS setup menu will need to be enabled.
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Intel® Server Board S2600CW Functional Architecture Intel® Server Board S2600CW Family TPS The board design supports the Apacer* power delivery option. The Apacer* SDM 7+2 connector has the power and ground pins on the side of the 7-pin SATA connector but is compatible with a standard 7-pin SATA cable. Note: Once M.2/NGFF device is used on the server board, SATA-4 port cannot be used. SATA-5 can be used at the same time when M.2/NGFF device is used.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Functional Architecture The following diagram identifies the location of the M.2/NGFF connector on the board. The following diagram shows how the M.2/NGFF modules are installed on the connector. Note: The insertion angle may vary. 3.4.8 Embedded SATA RAID Support The Intel® Server Board S2600CW2/S2600CWT has embedded support for two SATA SW RAID options:  Intel® Rapid Storage Technology (RSTe) 4.
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Intel® Server Board S2600CW Functional Architecture Intel® Server Board S2600CW Family TPS Using the BIOS Setup Utility, accessed during system POST, options are available to enable/disable SW RAID, and select which embedded software RAID option to use. In addition to the SATA SW RAID options, the Intel® Server Board S2600CW2S/S2600CWTS supports Integrated MegaRaid RAID (IMR). 3.4.8.1 Intel® Rapid Storage Technology (RSTe) 4.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Functional Architecture select recovery options when problems occur. The user interface can be accessed by hitting the keys during system POST.  Provides boot support when using a RAID volume as a boot disk. It does this by providing Int13 services when a RAID volume needs to be accessed by MS-DOS applications (such as NTLDR) and by exporting the RAID volumes to the System BIOS for selection in the boot order.
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Intel® Server Board S2600CW Functional Architecture Intel® Server Board S2600CW Family TPS The following diagram identifies the location of the key to enable ESRT2 RAID level 5. Using the BIOS Setup Utility, accessed during system POST, system setup options are available to enable/disable the Software RAID feature. By default, the embedded SATA Software RAID feature is disabled. 3.4.
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Intel® Server Board S2600CW Family TPS 3.4.10 Intel® Server Board S2600CW Functional Architecture Integrated MegaRAID Support Integrated MegaRaid RAID (IMR) (RAID 0/1/10) support is included with based LSISAS3008 functionality. Integrated MegaRaid (IMR) (RAID 5) upgrade is supported through installation of an activation key. The following diagram identifies the location of the activation key for the IMR RAID 5. Revision1.
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Intel® Server Board S2600CW Functional Architecture 3.4.11 Intel® Server Board S2600CW Family TPS USB Support The C610 chipset has up to two Enhanced Host Controller Interface (EHCI) host controllers that support USB high-speed signaling. The C600 chipset supports up to 14 USB 2.0 ports of which up to six can be used as USB3.0 ports. 3.4.11.1 USB connectors The server board provides the following USB ports:  Two USB 2.0 ports on the board rear end, next to the VGA connector.  Two USB 3.
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Intel® Server Board S2600CW Family TPS 3.4.
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Intel® Server Board S2600CW Functional Architecture Intel® Server Board S2600CW Family TPS To provide for this, there is another PCI Configuration option to control “Legacy VGA Socket”. The rules for this are:  This option appears only on boards which have the possibility of an add-in video adapter in a PCIe slot on a CPU socket other than socket 1.  When present, the option is grayed out and unavailable unless an add-in video card is actually installed in a PCIe slot connected to the other socket.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Functional Architecture Case 4: Both onboard video and add-in video are active displays. But only onboard could be the active display during BIOS POST (Dual Monitor). Onboard Video = Enabled Legacy VGA Socket = CPU Socket 1 (grayout, can't change) Add-in Video Adapter = Enabled  When there is one add-in video card connected to CPU Socket 2... Case 5: Onboard video active display, add-in doesn't display.
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Intel® Server Board S2600CW Functional Architecture 3.4.12.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Functional Architecture 2. Onboard Video Option Values: Enabled Disabled Help Text: On-board video controller. Warning: System video is completely disabled if this option is disabled and an add-in video adapter is not installed. Comments: When disabled, the system requires an add-in video card for the video to be seen. When there is no add-in video card installed, Onboard Video is set to Enabled and grayed out so it cannot be changed.
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Intel® Server Board S2600CW Functional Architecture Intel® Server Board S2600CW Family TPS This option is grayed out as unavailable and set to CPU Socket 1 unless there is a processor installed on CPU Socket 2 and a video card installed in a PCIe slot connected to CPU Socket 2. When this option is active and is set to CPU Socket 2, then both Onboard Video and Dual Monitor Video are set to Disabled and grayed out as unavailable.
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Intel® Server Board S2600CW Family TPS Description Intel® Server Board S2600CW Functional Architecture Callout A Video Callout B USB 2.0 Description C Dedicated Management NIC (DMN) D USB 3.
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Intel® Server Board S2600CW Functional Architecture Intel® Server Board S2600CW Family TPS and transmit/receive activity when blinking. The LED at the right of the connector indicates link speed as defined in the following table. Table 7.
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Intel® Server Board S2600CW Family TPS 4. System Security System Security The server board supports a variety of system security options designed to prevent unauthorized system access or tampering of server settings. System security options supported include:  Password Protection  Front Panel Lockout  Trusted Platform Module (TPM) support  Intel® Trusted Execution Technology 4.
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System Security Intel® Server Board S2600CW Family TPS Table 8. Setup Utility – Security Configuration Screen Fields Setup Item TPM State Options Enabled and Activated Help Text Comments Information only. Shows the current TPM device state. Enabled and Deactivated A disabled TPM device will not execute commands that use TPM functions and TPM security operations will not be available.
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Intel® Server Board S2600CW Family TPS System Security The Administrator and User passwords must be different from each other. An error message will be displayed if there is an attempt to enter the same password for one as for the other. The use of “Strong Passwords” is encouraged, but not required. In order to meet the criteria for a “Strong Password”, the password entered must be at least eight characters in length, and must include at least one each of alphabetic, numeric, and special characters.
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System Security 4.3 Intel® Server Board S2600CW Family TPS Trusted Platform Module (TPM) Support The Trusted Platform Module (TPM) option is a hardware-based security device that addresses the growing concern on boot process integrity and offers better data protection. TPM protects the system start-up process by ensuring it is tamper-free before releasing system control to the operating system. A TPM device provides secured storage to store data, such as security keys and passwords.
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Intel® Server Board S2600CW Family TPS 4.3.2 System Security Physical Presence Administrative operations to the TPM require TPM ownership or physical presence indication by the operator to confirm the execution of administrative operations. The BIOS implements the operator presence indication by verifying the setup Administrator password. A TPM administrative sequence invoked from the operating system proceeds as follows: 1.
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System Security Intel® Server Board S2600CW Family TPS confidentiality and integrity of sensitive information without compromising the usability of the platform. Intel® Trusted Execution Technology requires a computer system with Intel® Virtualization Technology enabled (both VT-x and VT-d), an Intel® Trusted Execution Technology-enabled processor, chipset, and BIOS, Authenticated Code Modules, and an Intel® Trusted Execution Technology compatible measured launched environment (MLE).
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Platform Management Intel® Server Board S2600CW Platform Management 5. Platform management is supported by several hardware and software components integrated on the server board that work together to support the following:  Control system functions – power system, ACPI, system reset control, system initialization, front panel interface, system event log.
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Intel® Server Board S2600CW Platform Management Intel® Server Board S2600CW Family TPS  Sensor Data Record (SDR) repository device functionality: The BMC supports storage and access of system SDRs.  Sensor device and sensor scanning/monitoring: The BMC provides IPMI management of sensors. It polls sensors to monitor and report system health.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Platform Management  Power unit management: Support for power unit sensor. The BMC handles power-good dropout conditions.  DIMM temperature monitoring: New sensors and improved acoustic management using closed-loop fan control algorithm taking into account DIMM temperature readings.  Address Resolution Protocol (ARP): The BMC sends and responds to ARPs (supported on embedded NICs).
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Intel® Server Board S2600CW Platform Management Intel® Server Board S2600CW Family TPS  Energy Star Server Support.  Smart Ride Through (SmaRT) / Closed Loop System Throttling (CLST).  Power Supply Cold Redundancy.  Power Supply FW Update.  Power Supply Compatibility Check.  BMC FW reliability enhancements: 5.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Platform Management State S3 Supported No Description Supported only on Workstation platforms. See appropriate Platform Specific Information for more information. S4 No Not supported. S5 Yes Soft off. 5.2.3  The front panel buttons are not locked.  The fans are stopped.  The power-up process goes through the normal boot process.  The power, reset, front panel NMI, and ID buttons are unlocked.
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Intel® Server Board S2600CW Platform Management Intel® Server Board S2600CW Family TPS the SEL, the last POST code generated during the previous boot attempt is written. FRB2 failure is not reflected in the processor status sensor value. The FRB2 failure does not affect the front panel LEDs. 5.2.3.3 Post Code Display The BMC, upon receiving standby power, initializes internal hardware to monitor port 80h (POST code) writes. Data written to port 80h is output to the system POST LEDs.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Platform Management and the availability of the physical sensor when in that state. For example, non-standby voltages are not monitored when the system is in S4 or S5 power state. 5.3.2 Sensor Rearm Behavior 5.3.2.1 Manual versus Re-arm Sensors Sensors can be either manual or automatic re-arm.
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Intel® Server Board S2600CW Platform Management Intel® Server Board S2600CW Family TPS present; and the associated SDR is configured to enable a de-assertion event for that condition. 5.3.3 BIOS Event-Only Sensors BIOS-owned discrete sensors are used for event generation only and are not accessible through IPMI sensor commands like the Get Sensor Reading command. Note that in this case the sensor owner designated in the SDR is not the BMC.
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Intel® Server Board S2600CW Family TPS 5.3.9 Intel® Server Board S2600CW Platform Management System Airflow Monitoring The BMC provides an IPMI sensor to report the volumetric system airflow in CFM (cubic feet per minute). The airflow in CFM is calculated based on the system fan PWM values. The specific Pulse Width Modulation (PWM or PWMs) used to determine the CFM is SDR configurable. The relationship between PWM and CFM is based on a lookup table in an OEM SDR.
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Intel® Server Board S2600CW Platform Management  Intel® Server Board S2600CW Family TPS Thermal fault indication sensors – These are discrete sensors that indicate a specific thermal fault condition. 5.3.10.2 Processor DTS-Spec Margin Sensor(s) Intel® Server Systems supporting the Intel® Xeon® processor E5-2600 v3 product family incorporate a DTS based thermal spec. This allows a much more accurate control of the thermal solution and enables lower fan speeds and lower fan power consumption.
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Intel® Server Board S2600CW Family TPS 5.3.10.5 Intel® Server Board S2600CW Platform Management Processor Voltage Regulator (VRD) Over-Temperature Sensor The BMC monitors processor VRD_HOT# signals. The processor VRD_HOT# signals are routed to the respective processor PROCHOT# input in order to initiate throttling to reduce processor power draw, therefore indirectly lowering the VRD temperature. There is one processor VRD_HOT# signal per CPU slot.
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Intel® Server Board S2600CW Platform Management 5.3.10.11 Intel® Server Board S2600CW Family TPS Memory VRD-Hot Sensor(s) The BMC monitors memory VRD_HOT# signals. The memory VRD_HOT# signals are routed to the respective processor MEMHOT# inputs in order to throttle the associated memory to effectively lower the temperature of the VRD feeding that memory. For Intel® Server Systems supporting the Intel® Xeon® processor E5-2600 v3 product family there are two memory VRD_HOT# signals per CPU slot.
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Intel® Server Board S2600CW Family TPS Sensor Name Per-Processor Socket Yes Digital Thermal Sensor Intel® Server Board S2600CW Platform Management Description Relative temperature reading by means of PECI Processor VRD Over-Temperature Indication Yes Discrete sensor that indicates a processor VRD has crossed an upper operating temperature threshold Processor Voltage Yes Threshold sensor that indicates a processor power-good state Processor Thermal Control (Prochot) Yes Percentage of time a proce
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Intel® Server Board S2600CW Platform Management Intel® Server Board S2600CW Family TPS At BMC startup, the BMC checks for the fault condition and sets 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. The following steps are used to correct the fault condition and clear the sensor state: 1. AC power down the server. 2.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Platform Management The sensor is rearmed on power-on (AC or DC power-on transitions). It is not rearmed on system resets in order to avoid multiple SEL events that could occur due to a potential reset loop if the CATERR keeps recurring, which would be the case if the CATERR was due to an MSID mismatch condition.
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Intel® Server Board S2600CW Platform Management 5.3.12.1 Intel® Server Board S2600CW Family TPS DIMM Voltage Sensors Some systems support either LVDDR (Low Voltage DDR) memory or regular (non-LVDDR) memory. During POST, the system BIOS detects which type of memory is installed and configures the hardware to deliver the correct voltage. Since the nominal voltage range is different, this necessitates the ability to set different thresholds for any associated IPMI voltage sensors.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Platform Management implements fan presence sensors for each hot-swappable fan. These are instantiated as IPMI discrete sensors. Events are only logged for fan presence upon changes in the presence state after AC power is applied (no events logged for initial state). 5.3.13.3 Fan Redundancy Sensor The BMC supports redundant fan monitoring and implements fan redundancy sensors for products that have redundant fans.
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Intel® Server Board S2600CW Platform Management Intel® Server Board S2600CW Family TPS By default the fans-off feature will be disabled. There is a BMC command and BIOS setup option to enable/disable this feature. The SmaRT/CLST system feature will also momentarily gate power to all the system fans to reduce overall system power consumption in response to a power supply event (for example, to ride out an AC power glitch).
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Intel® Server Board S2600CW Family TPS 5.3.14.1 Intel® Server Board S2600CW Platform Management Hot-Swap Fans Hot-swap fans are supported. These fans can be removed and replaced while the system is powered on and operating. The BMC implements fan presence sensors for each hot-swappable fan. When a fan is not present, the associated fan speed sensor is put into the reading/unavailable state, and any associated fan domains are put into the boost state.
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Intel® Server Board S2600CW Platform Management Intel® Server Board S2600CW Family TPS OEM SDR records are used to configure which temperature sensors are associated with which fan control domains and the algorithmic relationship between the temperature and fan speed. Multiple OEM SDRs can reference or control the same fan control domain; and multiple OEM SDRs can reference the same temperature sensors.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Platform Management  On-board Ethernet controller temperature sensors (support for this is specific to the Ethernet controller being used)  Add-in Intel® SAS/IO module temperature sensor(s) (if present)  Power supply thermal sensors (only available on PMBus*-compliant power supplies) A simple model is shown in the following figure which gives a high level graphic of the fan speed control structure creating the resulting fan speeds
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Intel® Server Board S2600CW Platform Management Intel® Server Board S2600CW Family TPS The following terminology is used for the various memory throttling options:  Static Open Loop Thermal Throttling (Static-OLTT): OLTT control registers are configured by BIOS MRC remain fixed after post. The system does not change any of the throttling control registers in the embedded memory controller during runtime.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Platform Management The BIOS will have an embedded lookup table that provides thermal offset values for each DIMM type, altitude setting, and air velocity range (three ranges of air velocity are supported). During system boot the BIOS will provide three offset values (corresponding to the three air velocity ranges) to the BMC for each enabled DIMM.
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Intel® Server Board S2600CW Platform Management Intel® Server Board S2600CW Family TPS The BMC requires the BIOS to send the Set Fan Control Configuration command to the BMC on every system boot. This must be done after the BIOS has completed any throttling-related chipset configuration. Table 12. Fan Profile Mapping 5.3.14.6.
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Intel® Server Board S2600CW Family TPS 5.3.14.7 Intel® Server Board S2600CW Platform Management Power Supply Fan Speed Control This section describes the system level control of the fans internal to the power supply over the PMBus*. Some, but not all Intel® Server Systems supporting the Intel® Xeon® processor E52600 v3 product family will require that the power supplies be included in the system level fan speed control.
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Intel® Server Board S2600CW Platform Management Intel® Server Board S2600CW Family TPS This capability is offered to provide system administrators the option to manually configure fans speeds in instances where the fan speed optimized for a given platform may not be sufficient when a high end add-in is configured into the system. This enables easier usage of the fan speed control to support Intel as well as third-party chassis and better support of ambient temperatures higher than 35°C. 5.3.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Platform Management System is (DC) powered on – The BMC calculates Dynamic Power Supply Redundancy status based upon current system load requirements as well as total Power Supply capacity. The BMC allows redundancy to be configured on a per power-unit-redundancy sensor basis by means of the OEM SDR records. 5.3.17 Component Fault LED Control Several sets of component fault LEDs are supported on the server board.
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Intel® Server Board S2600CW Platform Management Intel® Server Board S2600CW Family TPS  The front panel diagnostic interrupt button is pressed.  The BMC receives an IPMI command Chassis Control that requests this action. Note that the BMC may also generate this interrupt due to an IPMI Watchdog Timer pre-timeout interrupt; however an event for this occurrence is already logged against the Watchdog Timer sensor so it will not log an NMI sensor event. 5.3.
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Intel® Server Board S2600CW Family TPS  Intel® Server Board S2600CW Platform Management Mozilla Firefox 25* The embedded web user interface supports strong security (authentication, encryption, and firewall support) since it enables remote server configuration and control. The user interface presented by the embedded web user interface shall authenticate the user before allowing a web session to be initiated. Encryption using 128-bit SSL is supported.
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Intel® Server Board S2600CW Platform Management Intel® Server Board S2600CW Family TPS displayed buttons (for example, power button) can be used in the same manner as the local buttons.  Display of ME sensor data. Only sensors that have associated SDRs loaded will be displayed.  Ability to save the SEL to a file  Ability to force HTTPS connectivity for greater security. This is provided through a configuration option in the UI.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Platform Management When the BMC FW initializes, it attempts to access the Intel® RMM4 lite. If the attempt to access the Intel® RMM4 lite is successful, the BMC activates the Advanced features. The following table identifies both Basic and Advanced server management features. Table 14. Basic and Advanced Server Management Features Overview Feature IPMI 2.
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Intel® Server Board S2600CW Platform Management Intel® Server Board S2600CW Family TPS Figure 19. Intel® RMM4 Lite Activation Key Location The server board includes a dedicated 1GbE RJ45 Management Port. The management port is active with or without the RMM4 Lite key installed. Key Features of the RMM4 add-on are:  KVM redirection from either the dedicated management NIC or the server board NICs used for management traffic, up to two KVM sessions.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Platform Management only enabled when the Intel® RMM4 lite is present. The client system must have a Java Runtime Environment (JRE) version 6.0 or later to run the KVM or media redirection applets. The BMC supports an embedded KVM application (Remote Console) that can be launched from the embedded web server from a remote console. USB1.1 or USB 2.0 based mouse and keyboard redirection are supported.
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Intel® Server Board S2600CW Platform Management Intel® Server Board S2600CW Family TPS handheld device, the user can maintain the remote host system using the administration forms displayed by the browser. The Remote Console window is a Java Applet that establishes TCP connections to the BMC. The protocol that is run over these connections is a unique KVM protocol and not HTTP or HTTPS. This protocol uses ports #7578 for KVM, #5120 for CDROM media redirection, and #5123 for Floppy/USB media redirection.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Platform Management At least two concurrent remote KVM sessions are supported. It is possible for at least two different users to connect to the same server and start remote KVM sessions. 5.5.7 Force-enter BIOS Setup KVM redirection can present an option to force-enter BIOS Setup. This enables the system to enter F2 setup while booting which is often missed by the time the remote console redirects the video. 5.5.
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Intel® Server Board S2600CW Platform Management  Intel® Server Board S2600CW Family TPS It is possible to install an operating system on a bare metal server (no OS present) using the remotely mounted device. This may also require the use of KVM-r to configure the OS during install. USB storage devices will appear as floppy disks over media redirection. This allows for the installation of device drivers during OS installation.
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Intel® Server Board S2600CW Family TPS Intel® Intelligent Power Node Manager (NM) Support Overview 6. Intel® Intelligent Power Node Manager (NM) Support Overview Power management deals with requirements to manage processor power consumption and manage power at the platform level to meet critical business needs. Node Manager (NM) is a platform resident technology that enforces power capping and thermal-triggered power capping policies for the platform.
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Intel® Intelligent Power Node Manager (NM) Support Overview Intel® Server Board S2600CW Family TPS foundation for automation of power management in the data center management stack. The external interface specifies the protocols that must be supported in this version of NM. 6.3 ME System Management Bus (SMBus*) Interface  The ME uses the SMLink0 on the SSB in multi-master mode as a dedicated bus for communication with the BMC using the IPMB protocol.
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Intel® Server Board S2600CW Family TPS Intel® Intelligent Power Node Manager (NM) Support Overview  SmaRT: Low AC input voltage event; results in a one-time momentary throttle for each event to the maximum throttle state.  Electrical Protection CLST: High output energy event; results in a throttling hiccup mode with a fixed maximum throttle time and a fixed throttle release ramp time.
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Intel® Server Board S2600CW Connector/Header Locations and Pin-outs Intel® Server Board S2600CW Family TPS 7. Intel® Server Board S2600CW Connector/Header Locations and Pin-outs 7.1 Power Connectors 7.1.1 Main Power Connector Main server board power is supplied by one 12-pin power connector. The connector is labeled as “MAIN PWR” on the left bottom of the server board. The following table provides the pin-out for “MAIN PWR” connector. Table 15.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Connector/Header Locations and Pin-outs Pin 7.2 Signal Name Pin Signal Name 3 GND 7 P12V3B 4 GND 8 P12V3B Front Panel Header and Connectors The server board includes several connectors that provide various possible front panel options. This section provides a functional description and pin-out for each connector. 7.2.
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Intel® Server Board S2600CW Connector/Header Locations and Pin-outs Intel® Server Board S2600CW Family TPS Table 19. Front Panel USB 3.0 Connector Pin-out Pin 7.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Connector/Header Locations and Pin-outs Pin Signal Name Pin Signal Name 1D1 PU_DATAIN1_SAS1 2D1 PU_DATAIN1_SAS0 1A2 SGPIO_SSATA_CLOCK_R1 2A2 SGPIO_SATA_CLOCK_R1 1B2 SGPIO_SSATA_LOAD_R1 2B2 SGPIO_SATA_LOAD_R1 1C2 GND 2C2 GND 1D2 PD_SAS1_CONTROLLER_TYPE 2D2 PD_SAS0_CONTROLLER_TYPE 7.3.
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Intel® Server Board S2600CW Connector/Header Locations and Pin-outs Intel® Server Board S2600CW Family TPS Table 24. HDD LED Header Pin-out Pin Signal Name LED_HDD_ACT_N 1 7.3.5 Pin 2 Signal Name NA Internal Type-A USB Connector The server board includes one internal Type-A USB connector. The following table provides the pin-out for this connector. Table 25. Type-A USB Connector Pin-out 1 Pin P5V 2 Signal Name USB2_P2_F_DN 3 USB2_P2_F_DP 4 GND 7.3.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Connector/Header Locations and Pin-outs Pin 7.4 7.4.1 Signal Name Pin Signal Name 62 Key 61 Key 60 Key 59 Key 58 Reserved 57 GND 56 Reserved 55 N/C 54 N/C 53 N/C 52 N/C 51 GND 50 N/C 49 SATA-A+ 48 N/C 47 SATA-A- 46 N/C 45 GND 44 N/C 43 SATA-B- 42 N/C 41 SATA-B+ 40 N/C 39 GND 38 DEVSLP(1)(0/3.
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Intel® Server Board S2600CW Connector/Header Locations and Pin-outs Intel® Server Board S2600CW Family TPS Table 28. RMM4 Lite Connector Pin-out 1 Pin Signal Name P3V3_AUX 2 DI 3 KEY 4 CLK 5 DO 6 GND 7 CS_N 8 GND 7.4.2 Pin Signal Name TPM Connector Table 29. TPM Connector Pin-out Pin 7.4.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Connector/Header Locations and Pin-outs 7.4.5 IPMB Connector Table 32. IPMB Connector Pin-out Pin 1 7.5 Signal Name SMB_IPMB_5VSTBY_DATA 2 GND 3 SMB_IPMB_5VSTBY_CLK 4 P5V_STBY FAN Connectors The server board provides support for nine fans. Seven of them are system cooling fans, and two of them are CPU fans. The expected maximum RPM is 25000. 7.5.
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Intel® Server Board S2600CW Connector/Header Locations and Pin-outs Intel® Server Board S2600CW Family TPS Table 35. CPU FAN Connector Pin-out Pin 7.6 Signal Name 1 GND 2 12V 3 TACH 4 PWM Serial Port and Video Connectors 7.6.1 Serial Port Connector The server board includes one internal DH-10 serial port connector. Table 36. Serial Port B Connector Pin-out Pin 7.6.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Connector/Header Locations and Pin-outs Figure 20. Video Connector Pin-out Note: Intel Corporation server boards support peripheral components and can contain a number of high-density VLSI and power delivery components that need adequate airflow to cool. Intel’s own chassis are designed and tested to meet the intended thermal requirements of these components when the fully integrated system is used together.
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Intel® Server Board S2600CW Connector/Header Locations and Pin-outs Intel® Server Board S2600CW Family TPS KEY A12 GND KEY GND B12 PWR FM_THROTLE_SLOT6_N (RSVD) A13 I REFCLKP_1 B13 GND GND A14 I REFCLKN_1 B14 I PETP0 A15 GND GND B15 I PETN0 A16 O PERP0 B16 GND GND A17 O PERN0 B17 I MUX_RST_N (PRSNT2_N) A18 GND GND B18 GND GND A19 PWR P3V3 (RSVD) B19 I PETP1 A20 GND GND B20 I PETN1 A21 O PERP1 B21 GND GND A22 O PERN1 B22 GND GND A23 GND GND
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Connector/Header Locations and Pin-outs A51 GND GND B51 I PETN8 A52 O PERP8 B52 GND GND A53 O PERN8 B53 GND GND A54 GND GND B54 I PETP9 A55 GND GND B55 I PETN9 A56 O PERP9 B56 GND GND A57 O PERN9 B57 GND GND A58 GND GND B58 I PETP10 A59 GND GND B59 I PETN10 A60 O PERP10 B60 GND GND A61 O PERN10 B61 GND GND A62 GND GND B62 I PETP11 A63 GND GND B63 I PETN11 A64 O P
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Intel® Server Board S2600CW Connector/Header Locations and Pin-outs Intel® Server Board S2600CW Family TPS • well Reuse Pin A7 as SAS_MODULE_ENABLE. This change applies to standard PCIe slot as • Reuse Pin B17 as MUX_RST_N. • Reuse Pin B48/A50/B31 as LINK_WIDTH_ID. • Reuse A32/A33 as additional PCIe Clocks to the 2nd slot on the risers. NOTES:  The 3rd REFCLK is not used.  LINK_WIDTH_ID2 is not used on slot 6, which is pulled to GND via a 4.75Kohm resistor.
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Intel® Server Board S2600CW Family TPS 8. Intel® Server Board S2600CW Jumper Blocks Intel® Server Board S2600CW 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 21. Jumper Blocks Table 38.
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Intel® Server Board S2600CW Jumper Blocks Intel® Server Board S2600CW Family TPS Jumper Name BMC Force Update Pins 1-2 System Results BMC Firmware Force Update Mode – Disabled (Default) 2-3 BMC Firmware Force Update Mode – Enabled Password Clear 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.
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Intel® Server Board S2600CW Family TPS Intel® Server Board S2600CW Jumper Blocks jumper, passwords can only be set or cleared by changing them explicitly in BIOS Setup or by similar means. No method of resetting BIOS configuration settings to default values will affect either the Administrator or User passwords. To clear the password, perform the following steps: 1. Power down the server. For safety, unplug the power cords. 2. Remove the system top cover. 3.
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Intel® Server Board S2600CW Jumper Blocks Intel® Server Board S2600CW Family TPS 6. Perform the Integrated BMC firmware update procedure as documented in the README.TXT file that is included in the given Integrated BMC firmware update package. After successful completion of the firmware update process, the firmware update utility may generate an error stating that the Integrated BMC is still in update mode. 7. Power down and remove the AC power cord. 8. Open the server chassis. 9.
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Intel® Server Board S2600CW Family TPS 8.4 Intel® Server Board S2600CW Jumper Blocks BIOS Recovery Jumper When the BIOS Recovery jumper block is moved from its default pin position (pins 1-2), the system will boot to the uEFI shell, where a standard BIOS update can be performed. See the BIOS update instructions that are included with System Update Packages (SUP) downloaded from Intel’s download center web site.
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Intel® Light Guided Diagnostics 9. Intel® Server Board S2600CW Family TPS 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. 9.1 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.
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Intel® Server Board S2600CW Family TPS 9.2 Intel® Light Guided Diagnostics Fan Fault LEDs Fan fault LEDs are present for the two CPU fans. The fan fault LEDs illuminate when the corresponding fan has fault. Figure 23. Fan Fault LED’s Location Revision1.
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Intel® Light Guided Diagnostics 9.3 Intel® Server Board S2600CW Family TPS DIMM Fault LEDs The server board provides 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 24. DIMM Fault LED’s Location 118 Revision1.
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Intel® Server Board S2600CW Family TPS 9.4 Intel® Light Guided Diagnostics System ID LED, System Status LED, and POST Code Diagnostic LEDs The server board provides LEDs for system ID, system status, and POST code. These LEDs are located in the rear I/O area of the server board as shown in the following figure. A Callout Description System Status LED B System ID LED LSB 1 2 3 4 5 6 MSB POST Code Diagnostic LEDs Figure 25. Location of System Status, System ID, and POST Code Diagnostic LEDs 9.4.
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Intel® Light Guided Diagnostics 9.4.2 Intel® Server Board S2600CW Family TPS System Status LED The bi-color (green/amber) System Status LED operates as follows. Table 39. System Status LED Color Green State Solid on Ok Criticality Green ~1 Hz blink Degraded 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. System degraded: 1.
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Intel® Server Board S2600CW Family TPS Color State Intel® Light Guided Diagnostics Criticality Description 4. Hard drive fault. 5. Power Unit Redundancy sensor – Insufficient resources offset (indicates not enough power supplies present). 6. In non-sparing and non-mirroring mode if the threshold of correctable errors is crossed within the window. Amber Solid on Critical, nonrecoverable Fatal alarm – system has failed or shutdown: 1. CPU CATERR signal asserted. 2.
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Power Supply Specification Guidelines Intel® Server Board S2600CW Family TPS 10. Power Supply Specification Guidelines 10.1 Power System Options Overview The Intel® Server Board S2600CW can work with 550-W fixed power supply, or 750-W/1600-W redundant power supplies shipped with the Intel® Server Chassis. This section provides power supply specification guidelines recommended for providing the specified server platform with stable operating power requirements.
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Intel® Server Board S2600CW Family TPS 10.2.1.1 Power Supply Specification Guidelines DC Output Connector The power supply uses a card edge output connection for power and signal that is compatible with a 2x25 Power Card Edge connector (equivalent to 2x25 pin configuration of the FCI power card connector 10035388-102LF). Table 41. DC Output Connector Pin 10.2.1.
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Power Supply Specification Guidelines 10.2.1.3 Intel® Server Board S2600CW Family TPS LED Marking and Identification The power supply uses a bi-color LED: Amber and Green. Below are table showing the LED states for each power supply operating state and the LED’s wavelength characteristics. Refer to the Intel® LED Wavelength and Intensity Specification for more details. Table 42.
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Intel® Server Board S2600CW Family TPS Power Supply Specification Guidelines Texit Maximum exit air temperature Tnon-op Non-operating temperature range Altitude Maximum operating altitude -40 2 68 C 70 C 3050 m Notes: 1. Under normal conditions, the exit air temperature shall be less than 65°C. 68°C is provided for absolute worst case conditions and is expected only to exist when the inlet ambient reaches 60°C. 2. Top_rackped_900 condition only requires maximum altitude of 900m.
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Power Supply Specification Guidelines 10.2.2.4 Intel® Server Board S2600CW Family TPS AC Line Dropout/Holdup An AC line dropout is defined as that when the AC input drops to 0VAC at any phase of the AC line for any length of time. During an AC dropout, the power supply meets dynamic voltage regulation requirements. An AC line dropout of any duration does not cause tripping of control signals or protection circuits.
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Intel® Server Board S2600CW Family TPS Power Supply Specification Guidelines Table 49. AC Line Surge Transient Performance Duration Continuous Surge 10% 0 to ½ AC cycle 30% 10.2.2.7 AC Line Surge Operating AC Voltage Line Frequency Nominal AC Voltages 50/60Hz Mid-point of nominal AC Voltages 50/60Hz Performance Criteria No loss of function or performance No loss of function or performance Power Recovery The power supply shall recover automatically after an AC power failure.
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Power Supply Specification Guidelines 10.2.4.3 Intel® Server Board S2600CW Family TPS Voltage Regulation The power supply output voltages stay within the following voltage limits when operating at steady state and dynamic loading conditions. These limits include the peak-peak ripple/noise. These shall be measured at the output connectors. Table 52. Voltage Regulation Limits Parameter +12V Tolerance -5%/+5% Min +11.40 Nom +12.00 Max +12.60 Units Vrms +12V stby -5%/+5% +11.40 +12.00 +12.
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Intel® Server Board S2600CW Family TPS Power Supply Specification Guidelines The power supply is provided with a reliable protective earth ground. All secondary circuits is connected to protective earth ground. Resistance of the ground returns to chassis does not exceed 1.0 m. This path may be used to carry DC current. 10.2.4.
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Power Supply Specification Guidelines Intel® Server Board S2600CW Family TPS A 10F tantalum capacitor in parallel with a 0.1F ceramic capacitor is placed at the point of measurement. Table 55. Ripples and Noise +12V Main 120mVp-p +12VSB 120mVp-p The test setup shall be as shown below. VOUT AC HOT POWER SUPPLY V RETURN AC NEUTRAL LOAD 10uF .1uF LOAD MUST BE ISOLATED FROM THE GROUND OF THE POWER SUPPLY AC GROUND GENERAL NOTES: 1. LOAD THE OUTPUT WITH ITS MINIMUM LOAD CURRENT. 2.
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Intel® Server Board S2600CW Family TPS Power Supply Specification Guidelines Item Tpson_on_delay Description Delay from PSON# active to output voltages within regulation limits. Min Tpson_pwok Delay from PSON# deactivate to PWOK being de-asserted. Tpwok_on Delay from output voltages within regulation limits to PWOK asserted at turn on. 100 Tpwok_off Delay from PWOK de-asserted to output voltages dropping out of regulation limits.
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Power Supply Specification Guidelines 10.2.5.1 Intel® Server Board S2600CW Family TPS Current Limit (OCP) The power supply has current limit to prevent the outputs from exceeding the values shown in table below. If the current limits are exceeded the power supply shuts down and latches-off. The latch will be cleared by toggling the PSON# signal or by an AC power interruption. The power supply is not damaged from repeated power cycling in this condition.
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Intel® Server Board S2600CW Family TPS 10.2.6.1 Power Supply Specification Guidelines PSON# Input Signal The PSON# signal is required to remotely turn on/off the power supply. PSON# is an active low signal that turns on the +12V power rail. When this signal is not pulled low by the system, or left open, the outputs (except the +12VSB) turn off. This signal is pulled to a standby voltage by a pull-up resistor internal to the power supply. Refer to Table 56 for the timing diagram. Table 59.
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Power Supply Specification Guidelines Intel® Server Board S2600CW Family TPS Table 60. PWOK Signal Characteristics Signal Type PWOK = High Open collector/drain output from power supply. Pull-up to VSB located in the power supply. Power OK PWOK = Low Power Not OK MIN MAX Logic level low voltage, Isink=400uA 0V 0.4V Logic level high voltage, Isource=200A 2.4V 3.
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Intel® Server Board S2600CW Family TPS 10.2.7 Power Supply Specification Guidelines Thermal CLST The power supply shall assert the SMBAlert signal when a temperature sensor crosses a warning threshold. Refer to the Intel® Common Hardware and Firmware Requirements for CRPS Power Supplier for detailed requirements. 10.2.8 Power Supply Diagnostic “Black Box” The power supply saves the latest PMBus* data and other pertinent data into nonvolatile memory when a critical event shuts down the power supply.
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Power Supply Specification Guidelines Intel® Server Board S2600CW Family TPS 10.3 Higer Power Common Redundant Power Distribution Board (PDB) The Power Distribution Board (PDB) for the Intel® Server Chassis P4000M supports the Common Redundant power supply in a 1+1 redundant configuration. The PDB is designed to plug directly to the output connector of the PS and it contains 3 DC/DC power converters to produce other required voltages: +3.
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Intel® Server Board S2600CW Family TPS Power Supply Specification Guidelines The amount of cooling airflow that will be available to the DC/DC converters is to be no less than 1.2M/s. Figure 31. Airflow Diagram 10.3.1.2 DC/DC Converter Cooling The DC/DC converters on the power distribution board are in series with the airflow path with the power supplies. 10.3.1.3 Temperature Requirements The PDB operates within all specified limits over the Top temperature range.
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Power Supply Specification Guidelines Intel® Server Board S2600CW Family TPS Table 63.
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Intel® Server Board S2600CW Family TPS From Power Supply Specification Guidelines No of pins Description Length, mm To connector # Power Supply cover exit hole 500 P5 Extension from P5 100 P6 5 SATA peripheral power connector for 5.25” Extension from P6 100 P7 4 Peripheral Power Connector for 5.
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Power Supply Specification Guidelines  Intel® Server Board S2600CW Family TPS Contact: Molex* Mini-Fit, HCS Plus, Female, Crimp 44476 or equivalent Table 66. P0 Processor Power Connector 1 Pin Signal COM 18 AWG color Black Pin 5* Signal +12V1 18 AWG Color White 2 COM Black 6 +12V1 White 3 COM Black 7 +12V1 White 4 COM Black 8 +12V1 White 10.3.2.2.
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Intel® Server Board S2600CW Family TPS Pin 2 Signal COM 18 AWG color Black Power Supply Specification Guidelines Pin 6 Signal +12V1 18 AWG Color Yellow Table 70. P13-P16 12V Connectors 1 Pin Signal COM 18 AWG color Black 5 Signal +12V2 18 AWG Color Yellow 2 COM Black 6 +12V2 Yellow 10.3.2.2.6 Pin Legacy 1x4 Peripheral Power Connectors (P7, P8, P9, P10)  Connector housing: Molex* 0015-24-4048 or equivalent  Contact: Molex* 0002-08-1201 or equivalent Table 71.
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Power Supply Specification Guidelines 10.3.2.3 Intel® Server Board S2600CW Family TPS Grounding The ground of the pins of the PDB output connectors provides the power return path. The output connector ground pins is connected to safety ground (PDB enclosure). This grounding is well designed to ensure passing the maximum allowed Common Mode Noise levels. 10.3.2.
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Intel® Server Board S2600CW Family TPS Power Supply Specification Guidelines 12V 2 12V 3 6.3 12. 6.3 12. 6.3 12. 6.3 12. 76 A 76 A 5 AA 5AA 5AA 5 A 88 100 18 A 18 19 20 18.0 A Note: +12V current to PCIe slots may be supplied from four different connectors. 12V1 on P2, 12V2 on P3, 12V3 on P1, and 12V3 on P12. P12 is reserved for board that needs 4 x GPU cards powered. P1 is the main 12V power for PCIe slot; but additional 12V power can be connected to P2 and/or P3.
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Power Supply Specification Guidelines Intel® Server Board S2600CW Family TPS Table 79. 5VSB Loading 12V stby/5V stby DC/DC Converters MAX Load 8A MIN Static/Dynamic Load 0.1 Max Output Power 5V x8A =40W 10.3.2.9 DC/DC Converters Voltage Regulation The DC/DC converters’ output voltages stay within the following voltage limits when operating at steady state and dynamic loading conditions. These limits include the peak-peak ripple/noise specified in Table 83. The 3.
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Intel® Server Board S2600CW Family TPS 10.3.2.12 Power Supply Specification Guidelines Converter Output +5VDC Min 400 4700 Max F Units 5Vstby 20 350 F DC/DC Converters Closed Loop Stability Each DC/DC converter is unconditionally stable under all line/load/transient load conditions including capacitive load ranges specified in Section 10.3.2.11. A minimum of: 45 degrees phase margin and -10dB-gain margin is required.
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Power Supply Specification Guidelines Intel® Server Board S2600CW Family TPS VOUT AC HOT POWER SUPPLY V RETURN AC NEUTRAL LOAD MUST BE ISOLATED FROM THE GROUND OF THE POWER SUPPLY LOAD 10uF .1uF AC GROUND GENERAL NOTES: 1. LOAD THE OUTPUT WITH ITS MINIMUM LOAD CURRENT. 2. CONNECT THE PROBES AS SHOWN. 3. REPEAT THE MEASUREMENTS WITH THE MAXIMUM LOAD ON THE OUTPUT. SCOPE SCOPE NOTE: USE A TEKTRONIX 7834 OSCILLOSCOPE WITH 7A13 AND DIFFERENTIAL PROBE P6055 OR EQUIVALENT.
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Intel® Server Board S2600CW Family TPS 10.3.3 Power Supply Specification Guidelines Protection Circuits The PDB shall shut down all the DC/DC converters on the PDB and the power supply (by PSON) if there is a fault condition on the PDB (OVP or OCP). If the PDB DC/DC converter latches-off due to a protection circuit tripping, an AC cycle OFF for 15sec min or a PSON# cycle HIGH for 1sec shall be able to reset the power supply and the PDB. 10.3.3.
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Power Supply Specification Guidelines 10.3.4 Intel® Server Board S2600CW Family TPS Output Voltage -12V OVP Min (v) -13.3 OVP Max (v) -15.5 +5VSB 5.7 6.5 PWOK (Power OK) Signal The PDB connects the PWOK signals from the power supply modules and the DC/DC converters to a common PWOK signal. This common PWOK signal connects to the PWOK pin on P1. The DC/DC convert PWOK signals have open collector outputs. 10.3.4.1 System PWOK Requirements The system will connect the PWOK signal to 3.
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Intel® Server Board S2600CW Family TPS Design and Environmental Specifications 11. Design and Environmental Specifications 11.1 Intel® Server Board S2600CW Design Specifications The following table defines the Intel® Server Board S2600CW operating and non-operating environmental limits. Operation of the Intel® Server Board S2600CW at conditions beyond those shown in the following table may cause permanent damage to the system.
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Design and Environmental Specifications Intel® Server Board S2600CW Family TPS amount of airflow required for their specific application and environmental conditions. Intel Corporation cannot be held responsible, if components fail or the server board does not operate correctly when used outside any of its published operating or non-operating limits. 11.2 MTBF The following is the calculated Mean Time Between Failures (MTBF) 40°C (ambient air).
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Intel® Server Board S2600CW Family TPS Appendix A: Integration and Usage Tips Appendix A: Integration and Usage Tips  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.  This server board supports the Intel® Xeon® Processor E5-2600 v3 product family with a Thermal Design Power (TDP) of up to and including 145 Watts.
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Appendix B: Compatible Intel® Server Chassis Intel® Server Board S2600CW Family TPS Appendix B: Compatible Intel® Server Chassis The Intel® Server Board S2600CW can be used inside the Intel® Server Chassis P4000M family. Table 91. Compatible Intel® Server Chassis 152 Chassis Name P4304XXMFEN2 System Fans Two fixed Fans Storage Drives Fixed HDD trays Power Supply One 550-W Non-redundant P4304XXMUXX Five redundant Fans Fixed HDD trays N/A. Compatible with 750-W or 1600-W Redundant PSUs. Revision1.
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Intel® Server Board S2600CW Family TPS Appendix C: BMC Sensor Tables Appendix C: 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.
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Appendix C: BMC Sensor Tables Intel® Server Board S2600CW Family TPS readable. Readable offsets consist of the reading type offsets that do not generate events.  Event Data Event data is the data that is included in an event message generated by the associated sensor.
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Intel® Server Board S2600CW Family TPS Appendix C: BMC Sensor Tables Note: All sensors listed below may not be present on all platforms. Check platform EPS section for platform applicability and platform chassis section for chassis specific sensors. Redundancy sensors are present only on systems with appropriate hardware to support redundancy (for instance, fan or power supply). Table 92.
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Appendix C: BMC Sensor Tables Full Sensor Name (Sensor name in SDR) Sensor # Intel® Server Board S2600CW Family TPS Platform Applicability Sensor Type Event/Readi ng Type Event Offset Triggers 07 – Redundant: Transition from nonredundant state. IPMI Watchdog (IPMI Watchdog) 03h All Watchdog 2 23h Sensor Specific 6Fh Contrib.
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Intel® Server Board S2600CW Family TPS Full Sensor Name Sensor # Platform Applicability Button Sensor (Button) 09h All BMC Watchdog 0Ah (Sensor name in SDR) Voltage Regulator Watchdog (VR Watchdog) Fan Redundancy1 (Fan Redundancy) Revision1.11 0Bh 0Ch All All Chassisspecific Appendix C: BMC Sensor Tables Sensor Type Button/Switch 14h Event/Readi ng Type Sensor Specific 6Fh Mgmt System Health Digital Discrete 28h 03h Voltage 02h Digital Discrete Event Offset Triggers Contrib.
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Appendix C: BMC Sensor Tables Full Sensor Name (Sensor name in SDR) SSB Thermal Trip (SSB Therm Trip) IO Module Presence (IO Mod Presence) SAS Module Presence (SAS Mod Presence) BMC Firmware Health (BMC FW Health) System Airflow (System Airflow) Intel® Server Board S2600CW Family TPS Sensor # Platform Applicability 0Dh All 0Eh 0Fh 10h 11h Sensor Type Event/Readi ng Type Digital Discrete Temperature 01h Module/Board Platformspecific Module/Board All Contrib.
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Intel® Server Board S2600CW Family TPS Full Sensor Name (Sensor name in SDR) IO Module2 Temperature (I/O Mod2 Temp) PCI Riser 3 Temperature (PCI Riser 3 Temp) PCI Riser 4 Temperature (PCI Riser 4 Temp) NM Health (NM Health) NM Capabilities (NM Capabilities) Baseboard Temperature 1 (Platform Specific) Front Panel Temperature (Front Panel Temp) SSB Temperature (SSB Temp) Baseboard Temperature 2 (Platform Specific) Baseboard Temperature 3 (Platform Specific) Revision1.
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Appendix C: BMC Sensor Tables Full Sensor Name (Sensor name in SDR) Baseboard Temperature 4 (Platform Specific) IO Module Temperature (I/O Mod Temp) PCI Riser 1 Temperature (PCI Riser 1 Temp) IO Riser Temperature (IO Riser Temp) Sensor # Platform Applicability Sensor Type 25h Platformspecific Temperature Threshold 01h 01h Platformspecific Temperature Threshold 01h 01h Platformspecific Temperature Threshold 01h 01h Platformspecific Temperature Threshold 01h 01h Chassisspecific Temp
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Intel® Server Board S2600CW Family TPS Full Sensor Name (Sensor name in SDR) Exit Air Temperature (Exit Air Temp) Network Interface Controller Temperature Sensor # Platform Applicability 2Eh Chassis and Platform Specific 2Fh All (LAN NIC Temp) Fan Tachometer Sensors (Chassis specific sensor names) Fan Present Sensors (Fan x Present) Power Supply 1 Status Note2 (PS1 Status) Power Supply 2 Status Note2 (PS2 Status) Power Supply 1 AC Power Input (PS1 Power In) Revision1.
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Appendix C: BMC Sensor Tables Full Sensor Name Intel® Server Board S2600CW Family TPS Platform Applicability Sensor Type (Sensor name in SDR) Sensor # Power Supply 2 AC Power Input 55h Chassisspecific Other Units Threshold 0Bh 01h Chassisspecific Current Threshold 03h 01h Chassisspecific Current Threshold 03h 01h Chassisspecific Temperature Threshold 01h 01h Chassisspecific Temperature Threshold 01h 01h Chassisspecific Drive Slot Sensor Specific (PS2 Power In) Power Suppl
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Intel® Server Board S2600CW Family TPS Full Sensor Name (Sensor name in SDR) Sensor # (P4 Status) Appendix C: BMC Sensor Tables Platform Applicability Sensor Type specific 07h Event/Readi ng Type Specific 6Fh Processor 1 Thermal Margin (P1 Therm Margin) Processor 2 Thermal Margin (P2 Therm Margin) Processor 3 Thermal Margin (P3 Therm Margin) Processor 4 Thermal Margin (P4 Therm Margin) Processor 1 Thermal Control % Temperature Threshold 01h 01h Temperature Threshold 01h 01h Platformspecifi
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Appendix C: BMC Sensor Tables Full Sensor Name (Sensor name in SDR) MTM Level Change (MTM Lvl Change) Processor Population Fault (CPU Missing) Processor 1 DTS Thermal Margin Intel® Server Board S2600CW Family TPS Sensor # Platform Applicability 81h All 82h All (AutoCfg Status) VRD Over Temperature (VRD Hot) Power Supply 1 Fan Tachometer 1 (PS1 Fan Tach 1) 164 07h Digital Discrete Temperature Threshold 01h 01h Platform Specific Temperature Threshold 01h 01h 86h Platform Specific Tempe
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Intel® Server Board S2600CW Family TPS Full Sensor Name Appendix C: BMC Sensor Tables Sensor # Platform Applicability Sensor Type Power Supply 1 Fan Tachometer 2 (PS1 Fan Tach 2) A1h Chassisspecific Fan MIC 1 Status (GPGPU1 Status) A2h MIC 2 Status (GPGPU2 Status) A3h (Sensor name in SDR) Power Supply 2 Fan Tachometer 1 (PS2 Fan Tach 1) A4h Power Supply 2 Fan Tachometer 2 (PS2 Fan Tach 2) A5h MIC 3 Status (GPGPU3 Status) A6h MIC 4 Status (GPGPU4 Status) A7h Processor 1 DIMM Aggregate T
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Appendix C: BMC Sensor Tables Full Sensor Name Intel® Server Board S2600CW Family TPS (Sensor name in SDR) Sensor # Platform Applicability Processor 2 DIMM Aggregate Thermal Margin 1 B2h All B3h Threshold 01h 01h Temperature Threshold 01h 01h Platform Specific Temperature Threshold 01h 01h Platform Specific Temperature Threshold 01h 01h Platform Specific Temperature Threshold 01h 01h Platform Specific Temperature Threshold 01h 01h Power Unit Generic – digital discrete A
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Intel® Server Board S2600CW Family TPS Full Sensor Name (Sensor name in SDR) Sensor # Platform Applicability C1h All Processor 2 DIMM Thermal Trip (P2 Mem Thrm Trip) Processor 3 DIMM Thermal Trip MIC 2 Temp (GPGPU2 Core Temp) MIC 3 Temp (GPGPU3 Core Temp) MIC 4 Temp (GPGPU4 Core Temp) Global Aggregate Temperature Margin 1 Platform Specific Temperature Threshold 01h 01h C5h Platform Specific Temperature Threshold 01h 01h C6h Platform Specific Temperature Threshold 01h 01h C7h Platfor
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Appendix C: BMC Sensor Tables Full Sensor Name Intel® Server Board S2600CW Family TPS Platform Applicability Sensor Type (Sensor name in SDR) Sensor # Global Aggregate Temperature Margin 5 CCh Platform Specific Temperature Threshold 01h 01h CDh Platform Specific Temperature Threshold 01h 01h CEh Platform Specific Temperature Threshold 01h 01h CFh Platform Specific Temperature Threshold 01h 01h D0h All Voltage 02h (Agg Therm Mrgn 5) Global Aggregate Temperature Margin 6 (Agg
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Intel® Server Board S2600CW Family TPS Full Sensor Name (Sensor name in SDR) Hard Disk Drive 0 -14 Status (HDD 0 - 14 Status) Sensor # F0h FEh Platform Applicability Chassisspecific Appendix C: BMC Sensor Tables Sensor Type Drive Slot 0Dh Event/Readi ng Type Sensor Specific 6Fh Event Offset Triggers 00 - Drive Presence Contrib. To System Status OK Assert/ Deassert As and De Readable Event Value/ Offsets Data – Trig Offset Rearm Standby A X Notes: 1.
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Appendix D: Platform Specific BMC Appendix Intel® Server Board S2600CW Family TPS Appendix D: Platform Specific BMC Appendix 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: 71h 00h IPMI Channel ID Assignments Below table provides the information of BMC channels’ assignments.
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Intel® Server Board S2600CW Family TPS Appendix D: Platform Specific BMC Appendix Processor Support for Intel® Server Board S2600CW  Intel® Xeon® E5-2600 v3 up to 145 Watt Supported Chassis  Intel® Server Chassis P4304XXMFEN2  Intel® Server Chassis P4304XXMUXX Chassis-specific Sensors Fan Tachometer Sensors: Intel® Server Chassis P4304XXMFEN2 P4304XXMUXX Fan Tachometer Sensors (Sensor Number) System Fan 1 (30h) Fan Presence Sensors (Sensor Number) NA System Fan 2 (31h) NA System Fan 1 (30h)
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Appendix D: Platform Specific BMC Appendix Chassis Fan Domain Intel® Server Board S2600CW Family TPS Major Components Cooled (Temperature sensor number) P2 DTS Therm Mgn (84h) Fans (Sensor number) MIC 1 Margin (C4h) MIC 2 Margin (C5h) MIC 3 Margin (C6h) DIMM Thrm Mrgn 1 (B0h) DIMM Thrm Mrgn 2 (B1h) DIMM Thrm Mrgn 3 (B2h) DIMM Thrm Mrgn 4 (B3h) LAN/BMC Temp (23h) HSBP 1 Temp (29h) 1 SSB Temp (22h) LAN NIC Temp (2Fh) System Fan 2 (31h) Exit Air Temp (2Eh) P1 DTS Therm Mgn (83h) P2 DTS Therm Mgn (84h)
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Intel® Server Board S2600CW Family TPS Chassis Fan Domain Appendix D: Platform Specific BMC Appendix Major Components Cooled (Temperature sensor number) Exit Air Temp (2Eh) Fans (Sensor number) P1 DTS Therm Mgn (83h) P2 DTS Therm Mgn (84h) MIC 1 Margin (C4h) MIC 2 Margin (C5h) MIC 3 Margin (C6h) DIMM Thrm Mrgn 1 (B0h) DIMM Thrm Mrgn 2 (B1h) DIMM Thrm Mrgn 3 (B2h) DIMM Thrm Mrgn 4 (B3h) SAS IOC Temp (D6h) MEM EFVRD Temp (24h) MEM VRM Temp (D5h) 4 P1 VRD Temp (25h) System Fan 5 (34h) HSBP 1 Temp (29h
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Appendix D: Platform Specific BMC Appendix Chassis Fan Domain Intel® Server Board S2600CW Family TPS Major Components Cooled (Temperature sensor number) HSBP 1 Temp (29h) Fans (Sensor number) Exit Air Temp (2Eh) P1 DTS Therm Mgn (83h) P2 DTS Therm Mgn (84h) HSC Availability   Intel® Server Chassis P4304XXMUXX - 4-bay 3.5” HDD – FUP4X35S3HSBP - 8-bay 2.5” HDD Combo – FXX8X25PCIHSBP - 8-bay 2.5” HDD SAS Only – FXX8X25S3HSBP Intel® Server Chassis P4304XXMFEN2 - 4-bay 3.
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Intel® Server Board S2600CW Family TPS Appendix E: POST Code Diagnostic LED Decoder Appendix E: 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.
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Appendix E: POST Code Diagnostic LED Decoder Intel® Server Board S2600CW Family TPS Table 93. POST Progress Code LED Example Upper Nibble AMBER LEDs LEDs Status Results Lower Nibble GREEN LEDs MSB LED #7 8h ON LED #6 4h OFF LED #5 2h ON LED #4 1h OFF LED #3 8h ON LED #2 4h ON LED #1 2h OFF LSB LED #0 1h OFF 1 0 1 0 1 1 0 0 Ah Ch Upper nibble bits = 1010b = Ah; Lower nibble bits = 1100b = Ch; the two are concatenated as ACh.
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Intel® Server Board S2600CW Family TPS Appendix E: POST Code Diagnostic LED Decoder Diagnostic LED Decoder 1 = LED On, 0 = LED Off Checkpoint Upper Nibble Lower Nibble Description MSB LSB 8h 4h 2h 1h 8h 4h 2h 1h LED # #7 #6 #5 #4 #3 #2 #1 #0 36h 0 0 1 1 0 1 1 0 CPU PEIM (CPU SMM Init) 4Fh 0 1 0 0 1 1 1 1 Dxe IPL started 60h 0 1 1 0 0 0 0 0 DXE Core started 61h 0 1 1 0 0 0 0 1 DXE NVRAM Init 62h 0 1 1 0 0 0 1 0 SB RUN Init 63h 0 1 1 0 0 0 1 1 Dxe CPU Init 6
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Appendix E: POST Code Diagnostic LED Decoder Intel® Server Board S2600CW Family TPS Diagnostic LED Decoder 1 = LED On, 0 = LED Off Checkpoint Upper Nibble Lower Nibble Description MSB LSB 8h 4h 2h 1h 8h 4h 2h 1h LED # #7 #6 #5 #4 #3 #2 #1 #0 A9h 1 0 1 0 1 0 0 1 DXE verifying SETUP password ABh 1 0 1 0 1 0 1 1 DXE SETUP start ACh 1 0 1 0 1 1 0 0 DXE SETUP input wait ADh 1 0 1 0 1 1 0 1 DXE Ready to Boot AEh 1 0 1 0 1 1 1 0 DXE Legacy Boot AFh 1 0 1 0 1 1 1 1
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Intel® Server Board S2600CW Family TPS Appendix E: POST Code Diagnostic LED Decoder Table 95.
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Appendix E: POST Code Diagnostic LED Decoder Intel® Server Board S2600CW Family TPS Diagnostic LED Decoder 1 = LED On, 0 = LED Off Checkpoint Upper Nibble Lower Nibble MSB LSB 8h 4h 2h 1h 8h 4h 2h 1h LED #7 #6 #5 #4 #3 #2 #1 #0 Description and is inaccessible EAh 1 1 1 0 1 0 1 0 DDR3 channel training error EBh 1 1 1 0 1 0 1 1 Memory test failure EDh 1 1 1 0 1 1 0 1 DIMM configuration population error EFh 1 1 1 0 1 1 1 1 Indicates a CLTT table structure error 180
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Intel® Server Board S2600CW Family TPS Appendix F: POST Error Code Appendix F: POST Error Code Most error conditions encountered during POST are reported using POST Error Codes. These codes represent specific failures, warnings, or informational messages that are identified with particular hardware units. These POST Error Codes may be displayed in the Error Manager display screen, and are always automatically logged to the System Event Log (SEL).
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Appendix F: POST Error Code Intel® Server Board S2600CW Family TPS Error Code 8131 Processor 02 disabled Error Message Response Major 8132 Processor 03 disabled Major 8133 Processor 04 disabled Major 8160 Processor 01 unable to apply microcode update Major 8161 Processor 02 unable to apply microcode update Major 8162 Processor 03 unable to apply microcode update Major 8163 Processor 04 unable to apply microcode update Major 8170 Processor 01 failed Self Test (BIST) Major 8171 Pro
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Intel® Server Board S2600CW Family TPS Appendix F: POST Error Code Error Code 852F Error Message DIMM_F1 failed test/initialization Response Major 8530 DIMM_F2 failed test/initialization Major 8531 DIMM_F3 failed test/initialization Major 8532 DIMM_G1 failed test/initialization Major 8533 DIMM_G2 failed test/initialization Major 8534 DIMM_G3 failed test/initialization Major 8535 DIMM_H1 failed test/initialization Major 8536 DIMM_H2 failed test/initialization Major 8537 DIMM_H3 fai
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Appendix F: POST Error Code Intel® Server Board S2600CW Family TPS Error Code 8559 DIMM_I2 disabled Error Message Response 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 encountered a Serial Presence Detection (SPD) failure Major 8561 DIMM_A2 encountered a Serial Presence Detection (SPD) failure Major 8562 DIMM_A3 encountered
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Intel® Server Board S2600CW Family TPS Error Code 85C2 Error Message DIMM_L2 failed test/initialization Appendix F: POST Error Code Response 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 test/initialization Major 85C9 DIMM_N3 failed test/initialization Major 85CA DIMM_O1 faile
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Appendix F: POST Error Code Error Code 85EC Intel® Server Board S2600CW Family TPS Error Message DIMM_O3 encountered a Serial Presence Detection (SPD) failure Response Major 85ED DIMM_P1 encountered a Serial Presence Detection (SPD) failure Major 85EE DIMM_P2 encountered a Serial Presence Detection (SPD) failure 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 92A3
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Intel® Server Board S2600CW Family TPS Revision1.11 Appendix F: POST Error Code 1-5-2-4 MSID Mismatch. MSID Mismatch Sensor 1-5-4-2 Power fault: DC power is unexpectedly lost (power good dropout). Power unit – power unit failure offset 1-5-4-4 Power control fault (power good assertion timeout). Power unit – soft power control failure offset 1-5-1-2 VR Watchdog Timer sensor assertion.
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Appendix F: POST Error Code Intel® Server Board S2600CW Family TPS Appendix G: Statement of Volatility This Appendix describes the volatile and non-volatile components on the Intel® Server Board S2600CW Product Family. It is not the intention of this document to include any components not directly on the listed Intel server boards, such as the chassis components, processors, memory, hard drives, or add-in cards.
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Intel® Server Board S2600CW Family TPS Appendix F: POST Error Code Board Location The physical location of each component is specified in the Board Location column. The board location information corresponds to information on the server board silkscreen. User Data The flash components on the server boards do not store user data from the operating system. No operating system level data is retained in any listed components after AC power is removed.
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Glossary Intel® Server Board S2600CW Family TPS 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.
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Intel® Server Board S2600CW Family TPS Term Glossary Definition IBF Input Buffer ICH I/O Controller Hub ICMB Intelligent Chassis Management Bus IERR Internal Error IFB I/O and Firmware Bridge 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 Pi
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Glossary Intel® Server Board S2600CW Family TPS Term Definition PSMI Power Supply Management Interface PWM Pulse-Width Modulation RAM Random Access Memory RASUM Reliability, Availability, Serviceability, Usability, and Manageability RISC Reduced Instruction Set Computing ROM Read Only Memory RTC Real-Time Clock (Component of ICH peripheral chip on the server board) SDR Sensor Data Record SECC Single Edge Connector Cartridge SEEPROM Serial Electrically Erasable Programmable Read-Only Me
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Intel® Server Board S2600CW Family TPS Reference Documents Reference Documents  Advanced Configuration and Power Interface Specification, Revision 3.0, http://www.acpi.info/.  Intelligent Platform Management Bus Communications Protocol Specification, Version 1.0. 1998. Intel Corporation, Hewlett-Packard Company, NEC Corporation, Dell Computer Corporation.  Intelligent Platform Management Interface Specification, Version 2.0. 2004.