Intel® Server Board S2600CP Family Intel® Server System P4000CP Family Technical Product Specification Intel order number G26942-005 Revision 1.
Table of Contents Intel® Server Board S2600CP and Server System P4000CP TPS Revision History Date January, 2012 Revision 1.0 Modifications Initial release. ® March, 2012 1.1 Added Intel Server Board S2600CP2J. May, 2012 1.2 Updated chapters 6, 8, and 12. September, 2012 1.3 Updated chapter 14 and Appendix E. November, 2012 1.4 Added Non-Transparent Bridge (NTB) support. December, 2012 1.5 Added HTA support. August, 2013 1.6 Added E5-2600 v2 processor support September, 2013 1.
Intel® Server Board S2600CP and Server System P4000CP TPS Table of Contents Copies of documents which have an order number and are referenced in this document, or other Intel literature, may be obtained by calling 1-800-548-4725, or go to: http://www.intel.com/design/literature. iii Revision 1.
Table of Contents Intel® Server Board S2600CP and Server System P4000CP TPS Table of Contents 1. Introduction ........................................................................................................................ 1 1.1 Server Board Use Disclaimer ................................................................................. 1 ® 2. Intel Server Board S2600CP Overview ............................................................................ 3 2.
Intel® Server Board S2600CP and Server System P4000CP TPS Table of Contents 4.3.17 System Management Bus (SMBus* 2.0) .............................................................. 43 4.3.18 Virtualization Technology for Directed I/O (Intel® VT-d) ........................................ 44 4.3.19 KVM/Serial Over LAN (SOL) Function .................................................................. 44 4.3.20 On-board SAS/SATA Support and Options ..........................................................
Table of Contents Intel® Server Board S2600CP and Server System P4000CP TPS 6.4.2 User Model ........................................................................................................... 74 6.4.3 LAN Interface ....................................................................................................... 74 6.5 Advanced Management Feature Support ............................................................. 84 6.5.1 Enabling Advanced Management Features ..............................
Intel® Server Board S2600CP and Server System P4000CP TPS Table of Contents 7.5.2 CPU FAN Connector ............................................................................................ 97 7.6 Serial Port and Video Connectors ........................................................................ 97 7.6.1 Serial Port A Connector (DB9) ............................................................................. 97 7.6.2 Serial Port B Connector.......................................................
Table of Contents Intel® Server Board S2600CP and Server System P4000CP TPS 12.2.4 Fan PWM Offset ................................................................................................. 124 12.2.5 Quiet Fan Idle Mode ........................................................................................... 124 12.3 Intel® Server System P4308CP4MHEN .............................................................. 124 12.3.1 Fan and HDD Configuration ................................................
Intel® Server Board S2600CP and Server System P4000CP TPS Table of Contents 15.2 Intel® Server System P4000CP Environmental Limits ........................................ 170 15.3 High Temperature Ambient (HTA) support ......................................................... 170 15.4 MTBF ................................................................................................................. 172 15.5 Server Board Power Distribution ...............................................................
List of Figures Intel® Server Board S2600CP and Server System P4000CP TPS List of Figures Figure 1. Intel® Server Board S2600CP4, Quad NIC ................................................................... 5 Figure 2. Intel® Server Board S2600CP2, Dual NIC .................................................................... 6 Figure 3. Intel® Server Board S2600CP2J, Dual NIC .................................................................. 7 Figure 4. Major Board Components .............................
Intel® Server Board S2600CP and Server System P4000CP TPS List of Figures Figure 39. 2.5” Hard Disk Drive Cage ..................................................................................... 114 Figure 40. 2.5” Backplane, Front Side ..................................................................................... 115 Figure 41. 2.5” Backplane, Back Side ..................................................................................... 116 Figure 42. 3.5” Hard Disk Drive Cage .................
List of Tables Intel® Server Board S2600CP and Server System P4000CP TPS List of Tables Table 1. Intel® Server Board S2600CP Feature Set .................................................................... 3 Table 2. Intel® Server System P4000CP family Features .......................................................... 21 Table 3. Mixed Processor Configurations .................................................................................. 29 Table 4. UDIMM Support .....................................
Intel® Server Board S2600CP and Server System P4000CP TPS List of Tables Table 40. Type-A USB Connector Pin-out ................................................................................. 94 Table 41. eUSB SSD Header Pin-out........................................................................................ 94 Table 42. RMM4_Lite Connector Pin-out .................................................................................. 95 Table 43. RMM4_NIC Connector Pin-out ...........................
List of Tables Intel® Server Board S2600CP and Server System P4000CP TPS Table 81. Transient Load Requirements ................................................................................. 135 Table 82. Capacitive Loading Conditions ................................................................................ 136 Table 83. Ripples and Noise ................................................................................................... 137 Table 84. Output Voltage Timing ........................
Intel® Server Board S2600CP and Server System P4000CP TPS List of Tables Table 122. SATA Peripheral Power Connectors...................................................................... 159 Table 123. Remote Sense Connection Points ......................................................................... 159 Table 124. Remote Sense Requirements................................................................................ 160 Table 125. 12V Rail Distribution .............................................
List of Tables Intel® Server Board S2600CP and Server System P4000CP TPS xvi Revision 1.
Intel® Server Board S2600CP and Server System P4000CP TPS 1. Introduction Introduction This Technical Product Specification (TPS) provides information on Intel® Server Board S2600CP and Intel® Server System P4000CP 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.
Introduction Intel® Server Board S2600CP and Server System P4000CP TPS cannot be held responsible if components fail or the server board does not operate correctly when used outside any of the published operating or non-operating limits. 2 Revision 1.
Intel® Server Board S2600CP and Server System P4000CP TPS 2. Intel® Server Board S2600CP Overview Intel® Server Board S2600CP Overview The Intel® Server Board S2600CP is a monolithic printed circuit board (PCBs) with features designed to support the pedestal server markets. This server board is designed to support the Intel® Xeon® processor E5-2600 and E5-2600 v2 product family. Previous generation Intel® Xeon® processors are not supported.
Intel® Server Board S2600CP Overview Feature Hard Drive and Optical Drive Support Intel® Server Board S2600CP and Server System P4000CP TPS Description ® Intel Server Board S2600CP2/S2600CP2J/S2600CP4: Two SATA connectors at 6 Gbps (white connectors) and four SATA connectors at 3 Gbps (black connectors). The 6 Gbps connectors are recommended connectors for ODDs.
Intel® Server Board S2600CP and Server System P4000CP TPS 2.2 Intel® Server Board S2600CP Overview Server Board Layout ® Figure 1. Intel Server Board S2600CP4, Quad NIC Revision 1.
Intel® Server Board S2600CP Overview Intel® Server Board S2600CP and Server System P4000CP TPS ® Figure 2. Intel Server Board S2600CP2, Dual NIC 6 Revision 1.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP Overview ® Figure 3. Intel Server Board S2600CP2J, Dual NIC Revision 1.
Intel® Server Board S2600CP Overview 2.2.1 Intel® Server Board S2600CP and Server System P4000CP TPS Server Board Connector and Component Layout The following figure shows the layout of the server board. Each connector and major component is identified by a number or letter, and a description is given below the figure.
Intel® Server Board S2600CP and Server System P4000CP TPS Callout Intel® Server Board S2600CP Overview I J K L M Description connector) Slot 4, PCI Express* Gen3 Battery Slot 5, PCI Express* Gen3, from second processor, open-ended (blue connector) Slot 6, PCI Express* Gen3, support riser card DIMM E1/E2/F1/F2 System Status LED ID LED Diagnostic LED N NIC 3/4 (only on Intel Server Board S2600CP4) AP O P Q R S T U V W USB 0/1/2/3, NIC 1,2 VGA Serial Port A Processor 2 Fan connector Processor 2 Power
Intel® Server Board S2600CP Overview 2.2.2 Intel® Server Board S2600CP and Server System P4000CP TPS Server Board Mechanical Drawings Figure 5. Mounting Hole Locations (1 of 2) 10 Revision 1.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP Overview Figure 6. Mounting Hole Locations (2 of 2) Revision 1.
Intel® Server Board S2600CP Overview Intel® Server Board S2600CP and Server System P4000CP TPS Figure 7. Major Connector Pin-1 Locations (1 of 3) 12 Revision 1.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP Overview Figure 8. Major Connector Pin-1 Locations (2 of 3) Revision 1.
Intel® Server Board S2600CP Overview Intel® Server Board S2600CP and Server System P4000CP TPS Figure 9. Major Connector Pin-1 Locations (3 of 3) 14 Revision 1.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP Overview Figure 10. Primary Side Keep-out Zone (1 of 2) Revision 1.
Intel® Server Board S2600CP Overview Intel® Server Board S2600CP and Server System P4000CP TPS Figure 11. Primary Side Card-Side Keep-out Zone 16 Revision 1.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP Overview Figure 12. Second Side Keep-out Zone 17 Revision 1.
Intel® Server Board S2600CP Overview 2.2.3 Intel® Server Board S2600CP and Server System P4000CP 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 B C D Description Serial Port A Video NIC Port 1, USB Port 0 (top) and 1 (bottom) NIC Port 2, USB Port 2 (top) and 3 (bottom) Callout E F Description NIC Port 3 (top) and 4 (bottom) Diagnostics LED’s G ID LED H System Status LED ® Figure 13.
Intel® Server Board S2600CP and Server System P4000CP TPS Callout A B C D Description Serial Port A Video NIC Port 1, USB Port 0 (top) and 1 (bottom) NIC Port 2, USB Port 2 (top) and 3 (bottom) Callout E F G Intel® Server Board S2600CP Overview Description Diagnostics LEDs ID LED System Status LED ® Figure 14. Rear I/O Layout of Intel Server Board S2600CP2/S2600CP2J 19 Revision 1.
Intel® Server System P4000CP Overview 3. Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Overview The Intel® Server System P4000CP is a server product family including Intel® Server System P4308CP4MHEN, P4308CP4MHGC, and P4208CP4MHGC which are integrated with different chassis models from Intel® Server Chassis P4000M family, Intel® Server Board S2600CP4, and other accessories.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Overview Intel® C600 RAID Upgrade Key RKSAS8 Intel® Server Chassis P4208XXMXXMHGC includes two 750W redundant PSU and one 8x2.5" hot-swap HDD cage allows support for up to eight 2.5" hot-swap SATA/SAS drives. Five redundant hot-swap fans (80x38mm) at the front edge of the chassis and one air duct for Intel® Server Board. Three 5.
Intel® Server System P4000CP Overview Feature Internal I/O Connectors/Headers Intel® Server Board S2600CP and Server System P4000CP TPS Description One 2x5 pin connector providing front panel support for two USB ports One internal Type-A USB 2.
Intel® Server Board S2600CP and Server System P4000CP TPS E. F. G. H. I. J. K. L. M. N. O. P. Q. Intel® Server System P4000CP Overview AC Input Power Connector Serial Port Knockout A Kensington* Cable Lock Mounting Hole Padlock Loop Alternate RMM4 Knockout Front Control Panel 5.25” Peripheral Bays Fixed System Fan Heat-sink ® Intel Server Board S2600CP4 8x3.5” Hot-swap HDD Cage ® Intel RAID C600 Upgrade Key RKSATA8 PCIe Retainer ® Figure 15. Intel Server System P4308CP4MHEN Note: Air duct is not shown.
Intel® Server System P4000CP Overview Intel® Server Board S2600CP and Server System P4000CP TPS ® P. Intel RAID C600 Upgrade Key RKSATA8 Q. PCIe Retainer ® Figure 16. Intel Server System P4308CP4MHGC Note: Air duct is not shown. 3.2.3 Intel® Server System P4208CP4MHGC A. B. C. D. E. F. G. H. I. J. K. L. M. N. O. P. Q. R.
Intel® Server Board S2600CP and Server System P4000CP TPS 4. Intel® Server Board S2600CP Functional Architecture Intel® Server Board S2600CP Functional Architecture The architecture and design of the Intel® Server Board S2600CP is based on the Intel® Xeon® E5-2600 and E5-2600 v2 processors, the Intel® C602 or Intel® C602J chipset, the Intel® Ethernet Controller I350 GbE controller chip, and the Server Engines* Pilot-III Server Management Controller.
Intel® Server Board S2600CP Functional Architecture Intel® Server Board S2600CP and Server System P4000CP TPS ® ® Figure 19. Intel Server Board S2600CP2J Functional Block Diagram with Intel C602J chipset 26 Revision 1.
Intel® Server Board S2600CP and Server System P4000CP TPS 4.1 Intel® Server Board S2600CP Functional Architecture Processor Support The server board includes two Socket-R (LGA2011) processor sockets and can support up to two processors from Intel® Xeon® processor E5-2600 and E5-2600 v2 product family with a Thermal Design Power (TDP) of up to 135W. Previous generation Intel® Xeon® processors are not supported on the Intel® server boards described in this document.
Intel® Server Board S2600CP Functional Architecture Intel® Server Board S2600CP and Server System P4000CP TPS Both processors must be of the same processor family. Both processors must have the same number of cores Both processors must have the same cache sizes for all levels of processor cache memory. Processors with different core frequencies can be mixed in a system, given the prior rules are met.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP Functional Architecture Table 3. Mixed Processor Configurations Error Processor family not Identical Severity Fatal System Action The BIOS detects the error condition and responds as follows: Logs the POST Error Code into the System Event Log (SEL). Alerts the BMC to set the System Status LED to steady Amber. Displays 0194: Processor family mismatch detected message in the Error Manager.
Intel® Server Board S2600CP Functional Architecture Error ® Processor Intel QuickPath Interconnect link frequencies not identical Severity Fatal Intel® Server Board S2600CP and Server System P4000CP TPS System Action The BIOS detects the QPI link frequencies and responds as follows: Adjusts all QPI interconnect link frequencies to highest common frequency. No error is generated – this is not an error condition. Continues to boot the system successfully.
Intel® Server Board S2600CP and Server System P4000CP TPS 4.2 Intel® Server Board S2600CP Functional Architecture Processor Functions Overview With the release of the Intel® Xeon® processor E5-2600 and E5-2600 v2 product family, several key system components, including the CPU, Integrated Memory Controller (iMC), and Integrated IO Module (IIO), have been combined into a single processor package and feature per socket; two Intel® QuickPath Interconnect point-to-point links capable of up to 8.
Intel® Server Board S2600CP Functional Architecture Intel® Server Board S2600CP and Server System P4000CP TPS latency. The Intel® QuickPath Interconnect has an efficient architecture allowing more interconnect performance to be achieved in real systems. It has a snoop protocol optimized for low latency and high scalability, as well as packet and lane structures enabling quick completions of transactions. Reliability, availability, and serviceability features (RAS) are built into the architecture.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP Functional Architecture Open with adaptive idle page close timer or closed page policy Per channel memory test and initialization engine can initialize DRAM to all logical zeros with valid ECC (with or without data scrambler) or a predefined test pattern Isochronous access support for Quality of Service (QoS) Minimum memory configuration: independent channel support with 1 DIMM populated Integrated dual SMBus* master
Intel® Server Board S2600CP Functional Architecture Intel® Server Board S2600CP and Server System P4000CP TPS Table 5. RDIMM Support Ranks Per DIMM and Data Width Speed (MT/s) and Voltage Validated by Slot per Channel (SPC) and DIMM Per Channel (DPC) Memory Capacity Per DIMM Intel® Server Board S2600CP (2 Slots per Channel) 1DPC 2DPC 1.35V 1.5V 1.35V 1.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP Functional Architecture E5-2600 Processor QRx4 (DDP) 16GB 32GB 1066 1066, 1333 1066 1066, 1333 QRx8 (P) 8GB 16GB 1066 1066, 1333 1066 1066, 1333 E5-2600 v2 Processor QRx4 (DDP) 16GB 32GB 1066, 1333, 1600 1066, 1333, 1600, 1866 1066,1333, 1600 1066, 1333, 1600 8Rx4 (QDP) 32G 64G 1066 1066 1066 1066 4.2.2.
Intel® Server Board S2600CP Functional Architecture Intel® Server Board S2600CP and Server System P4000CP TPS ® Figure 22. Intel Server Board S2600CP DIMM Slot Layout The following are generic DIMM population requirements that generally apply to both the Intel® Server Board S2600CP. DIMM slots on any memory channel must be filled following the “farthest fill first” rule. A maximum of 8 ranks can be installed on any one channel, counting all ranks in each DIMM on the channel.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP Functional Architecture 2 DPC QR Low Voltage RDIMMs are not supported. In order to install 3 QR LRDIMMs on the same channel, they must be operated with Rank Multiplication as RM = 2. RAS Modes Lockstep, Rank Sparing, and Mirroring are mutually exclusive in this BIOS. Only one operating mode may be selected, and it will be applied to the entire system.
Intel® Server Board S2600CP Functional Architecture 4.2.2.4.1 Intel® Server Board S2600CP and Server System P4000CP TPS Independent Channel Mode Channels can be populated in any order in Independent Channel Mode. All four channels may be populated in any order and have no matching requirements. All channels must run at the same interface frequency but individual channels may run at different DIMM timings (RAS latency, CAS Latency, and so forth). 4.2.2.4.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP Functional Architecture Note: PCIe slot 5 is functional only when the second processor is installed. 4.2.3.1.2 DMI2 Interface to the Intel® C602 chipset The platform requires an interface to Intel® C602 chipset which provides basic, legacy functions required for the server platform and operating systems.
Intel® Server Board S2600CP Functional Architecture Intel® Server Board S2600CP and Server System P4000CP TPS ® Figure 24.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP Functional Architecture Intel® Active Management Technology (Intel® AMT) Manageability System Management Bus (SMBus* 2.0) Virtualization Technology for Directed I/O (Intel® VT-d) KVM/Serial Over LAN (SOL) Function 4.3.1 Digital Media Interface (DMI) Digital Media Interface (DMI) is the chip-to-chip connection between the processor and Intel® C602 Chipset.
Intel® Server Board S2600CP Functional Architecture 4.3.6 Intel® Server Board S2600CP and Server System P4000CP TPS PCI Interface ® The Intel C602 chipset PCI interface provides a 33 MHz, Revision 2.3 implementation. The C602 chipset integrates a PCI arbiter that supports up to four external PCI bus masters in addition to the internal Intel® C602 chipset requests. This allows for combinations of up to four PCI down devices and PCI slots. 4.3.
Intel® Server Board S2600CP and Server System P4000CP TPS 4.3.12 Intel® Server Board S2600CP Functional Architecture Gigabit Ethernet Controller The Gigabit Ethernet Controller provides a system interface using a PCI function. The controller provides a full memory-mapped or IO mapped interface along with a 64 bit address master support for systems using more than 4 GB of physical memory and DMA (Direct Memory Addressing) mechanisms for high performance data transfers.
Intel® Server Board S2600CP Functional Architecture Intel® Server Board S2600CP and Server System P4000CP TPS (SMBus*) Specification, Version 2.0): Quick Command, Send Byte, Receive Byte, Write Byte/Word, Read Byte/Word, Process Call, Block Read/Write, and Host Notify. The C602 chipset’s SMBus* also implements hardware-based Packet Error Checking for data robustness and the Address Resolution Protocol (ARP) to dynamically provide address to all SMBus* devices. 4.3.
Intel® Server Board S2600CP and Server System P4000CP TPS RKSATA4R5 Black RKSATA8 Blue RKSATA8R5 White RKSAS4 Green RKSAS4R5 Yellow RKSAS8 Orange RKSAS8R5 Purple Intel® Server Board S2600CP Functional Architecture ® 4 Port SATA with Intel ESRT2 RAID 0,1, 5, 10 and ® Intel RSTe RAID 0,1,5,10 ® 8 Port SATA with Intel ESRT2 RAID 0,1, 10 and ® Intel RSTe RAID 0,1,5,10 ® 8 Port SATA with Intel ESRT2 RAID 0,1, 5, 10 and ® Intel RSTe RAID 0,1,5,10 ® ® 4 Port SAS with Intel ESRT2 RAID 0,1, 10 and In
Intel® Server Board S2600CP Functional Architecture 4.3.20.3 Intel® Server Board S2600CP and Server System P4000CP TPS Non-Transparent Bridge PCI Express* Non-Transparent Bridge (NTB) acts as a gateway that enables high performance, low overhead communication between two intelligent subsystems, the local and the remote subsystems.
Intel® Server Board S2600CP and Server System P4000CP TPS 3.
Intel® Server Board S2600CP Functional Architecture Intel® Server Board S2600CP and Server System P4000CP TPS features as implemented on the server board from each embedded controller. Figure 26. Integrated BMC Functional Block Diagram 4.5.1 Super I/O Controller The integrated super I/O controller provides support for the following features as implemented on the server board: 4.5.1.
Intel® Server Board S2600CP and Server System P4000CP TPS 4.5.1.2 Intel® Server Board S2600CP Functional Architecture Wake-up Control The super I/O contains functionality that allows various events to power on and power off the system. 4.5.
Intel® Server Board S2600CP Functional Architecture 4.5.3 Intel® Server Board S2600CP and Server System P4000CP TPS Baseboard Management Controller The server board utilizes the following features of the embedded baseboard management controller. 4.5.3.1 IPMI 2.
Intel® Server Board S2600CP and Server System P4000CP TPS 4.5.3.2 Intel® Server Board S2600CP Functional Architecture Integrated BMC Embedded LAN Channel The Integrated BMC hardware includes two dedicated 10/100 network interfaces. These interfaces are not shared with the host system. At any time, only one dedicated interface may be enabled for management traffic. The default active interface is the NIC 1 port. For these channels, support can be enabled for IPMI-over-LAN and DHCP.
System Security Intel® Server Board S2600CP and Server System P4000CP TPS 5. System Security 5.1 BIOS Password Protection The BIOS uses passwords to prevent unauthorized tampering with the server setup. Passwords can restrict entry to the BIOS Setup, restrict use of the Boot Popup menu, and suppress automatic USB device reordering. There is also an option to require a Power On password entry in order to boot the system.
Intel® Server Board S2600CP and Server System P4000CP TPS System Security prompts for a password, and can only be used with the Administrator password. Also, when a User password is defined, it suppresses the USB Reordering that occurs, if enabled, when a new USB boot device is attached to the system. A User is restricted from booting in anything other than the Boot Order defined in the Setup by an Administrator.
System Security Intel® Server Board S2600CP and Server System P4000CP TPS Verifies operator physical presence. Confirms and executes operating system TPM administrative command requests. Provides BIOS Setup options to change TPM security states and to clear TPM ownership. For additional details, refer to the TCG PC Client Specific Implementation Specification, the TCG PC Client Specific Physical Presence Interface Specification, and the Microsoft BitLocker* Requirement documents. 5.2.
Intel® Server Board S2600CP and Server System P4000CP TPS System Security Press to enter setup When the Setup is entered, the Main screen displays. The BIOS Setup utility provides the Security screen to enable and set the user and administrative passwords and to lock out the front panel buttons so they cannot be used. The Intel® Server Board S2600CP provides TPM settings through the security screen. To access this screen from the Main screen, select the Security option.
System Security Intel® Server Board S2600CP and Server System P4000CP TPS Table 13. TSetup Utility – Security Configuration Screen Fields Setup Item TPM State* Options Enabled and Activated Enabled and Deactivated Disabled and Activated Disabled and Deactivated Help Text Comments Information only. Shows the current TPM device state. A disabled TPM device will not execute commands that use TPM functions and TPM security operations will not be available.
Intel® Server Board S2600CP and Server System P4000CP TPS System Security Technology compatible measured launched environment (MLE). The MLE could consist of a virtual machine monitor, an OS or an application. In addition, Intel® Trusted Execution Technology requires the system to include a TPM v1.2, as defined by the Trusted Computing Group TPM PC Client Specifications, Revision 1.2. When available, Intel® Trusted Execution Technology can be enabled or disabled in the processor by a BIOS Setup option.
Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management Intel® Server Board S2600CP and Server System P4000CP TPS 6. Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management 6.1 Server Management Function Architecture 6.1.1 Feature Support 6.1.1.1 IPMI 2.0 Features The IPMI 2.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management Chassis intrusion detection (dependent on platform support) Basic fan control using Control version 2 SDRs Fan redundancy monitoring and support Power supply redundancy monitoring and support Hot-swap fan support Acoustic management: Support for multiple fan profiles Signal testing support: The BMC provides test commands for setting and getting p
Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management Intel® Server Board S2600CP and Server System P4000CP TPS Embedded platform debug feature which allows capture of detailed data for later analysis. Provisioning and inventory enhancements: o Inventory data/system information export (partial SMBIOS table) Enhancements to fan speed control. DCMI 1.1 compliance (product-specific). Support for embedded web server UI in Basic Manageability feature set.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management 6.1.2 Basic and Advanced Features The bellowing table lists basic and advanced feature support. Individual features may vary by platform. See the appropriate Platform Specific EPS addendum for more information. Table 14. Basic and Advanced Features Feature IPMI 2.
Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management Intel® Server Board S2600CP and Server System P4000CP TPS Eight I2C interfaces with master-slave and SMBus* timeout support. All interfaces are SMBus* 2.0 compliant.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management Figure 28. Integrated BMC Hardware 6.2 Server Management Functional Specifications 6.2.1 BMC Internal Timestamp Clock The BMC maintains an internal timestamp clock that is used by various BMC subsystems, for example, for time stamping SEL entries.
Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management Intel® Server Board S2600CP and Server System P4000CP TPS 6.2.2 System Event Log (SEL) The BMC implements the system event log as specified in the Intelligent Platform Management Interface Specification, Version 2.0. The SEL is accessible regardless of the system power state through the BMC's in-band and out-of-band interfaces.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management Code 1-5-1-4 6.2.5 Reason for Beep The system does not power on or unexpectedly powers off and a power supply unit (PSU) is present that is an incompatible model with one or more other PSUs in the system Associated Sensors PS Status Diagnostic Interrupt (NMI) Button The BMC generates an NMI pulse under certain conditions.
Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management Intel® Server Board S2600CP and Server System P4000CP TPS FW logs a SEL event indicating that a watchdog-generated BMC reset (either soft or hard reset) has occurred. This event may be logged after the actual reset has occurred. Refer Appendix C for the details related to sensor definition. The BMC will also indicate a degraded system status on the Front Panel Status LED after a BMC HW reset or FW stack reset.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management - [u,l][nr,c,nc] upper non-recoverable, upper critical, upper non-critical, lower nonrecoverable, lower critical, lower non-critical uc, lc upper critical, lower critical Event triggers are supported event-generating offsets for discrete type sensors.
Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management Intel® Server Board S2600CP and Server System P4000CP TPS 6.3.3 BMC System Management Health Monitoring The BMC tracks the health of each of its IPMI sensors and report failures by providing a “BMC FW Health” sensor of the IPMI 2.0 sensor type Management Subsystem Health with support for the Sensor Failure offset. Only assertions should be logged into the SEL for the Sensor Failure offset.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management The server board offers multiple thermal and acoustic management features to maintain comprehensive thermal protection as well as intelligent fan speed control. The features can be adjusted in BIOS interface with path BIOS > Advanced > System Acoustic and Performance Configuration. 6.3.5.
Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management Intel® Server Board S2600CP and Server System P4000CP TPS 6.3.6 Thermal Sensor Input to Fan Speed Control The BMC uses various IPMI sensors as input to the fan speed control. Some of the sensors are IPMI models of actual physical sensors whereas some are “virtual” sensors whose values are derived from physical sensors using calculations and/or tabular information.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management Figure 29. High-level Fan Speed Control Process 6.3.7 Power Supply Status\Health Sensors The BMC supports one Power Supply Status sensor for each system power supply module.
Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management Intel® Server Board S2600CP and Server System P4000CP TPS Offset 01h Description Event Logging Power supply failure detected – Asserted if power supply module has failed.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management 6.3.8 System Event Sensor The BMC supports a System Event sensor and logs SEL event for following events. Table 20.
Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management Intel® Server Board S2600CP and Server System P4000CP TPS Channel ID Interface Supports Sessions 5 USB No 6 Secondary IPMB No 7 SMM No 8 – 0Dh Reserved – 0Eh Self 2 – 0Fh SMS/Receive Message Queue No Notes: 1. 2. Optional hardware supported by the server system. Refers to the actual channel used to send the request. 6.4.2 User Model The BMC supports the IPMI 2.0 user model. 15 user IDs are supported.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management 6.4.3.2 IPMI 2.0 Messaging IPMI 2.0 messaging is built over RMCP+ and has a different session establishment protocol. The session commands are defined by RMCP+ and implemented at the RMCP+ level, not IPMI commands. Authentication is implemented at the RMCP+ level.
Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management Intel® Server Board S2600CP and Server System P4000CP TPS 6.4.3.4.1 Baseboard NICs The specific Ethernet controller (NIC) used on a server is platform-specific but all baseboard device options provide support for an NC-SI manageability interface. This provides a sideband high-speed connection for manageability traffic to the BMC while still allowing for a simultaneous host access to the OS if desired.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management IP Address: Static All users disabled IPMI-enabled network interfaces may not be placed on the same subnet. This includes the Intel® Dedicated Server Management NIC and either of the BMC’s embedded network interfaces. Host-BMC communication over the same physical LAN connection – also known as “loopback” – is not supported. This includes “ping” operations.
Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management Intel® Server Board S2600CP and Server System P4000CP TPS The BMC supports IPv4 and IPv6 simultaneously so they are both configured separately and completely independently. For example, IPv4 can be DHCP configured while IPv6 is statically configured or vice versa. 6.4.3.6.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management is configured and enabled, the BMC only accepts packets with that VLAN tag/ID. Conversely, all BMC generated LAN packets on the channel include the given VLAN tag/ID. Valid VLAN IDs are 1 through 4094, VLAN IDs of 0 and 4095 are reserved, per the 802.1Q VLAN Specification. Only one VLAN can be enabled at any point in time on a LAN channel.
Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management Intel® Server Board S2600CP and Server System P4000CP TPS 3. Activating a SOL session requires an existing IPMI-over-LAN session. If encryption is used, it should be negotiated when the IPMI-over LAN session is established. SOL sessions are only supported on serial port 1 (COM1). 6.4.3.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management The BMC supports a minimum of four LAN alert destinations. 6.4.3.14.1 SNMP Platform Event Traps (PETs) This feature enables a target system to send SNMP traps to a designated IP address by means of LAN. These alerts are formatted per the Intelligent Platform Management Interface Specification Second Generation, Version 2.0.
Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management Intel® Server Board S2600CP and Server System P4000CP TPS The embedded web user interface supports strong security (authentication, encryption, and firewall support) since it enables remote server configuration and control. Embedded web server uses ports #80 and #443. The user interface presented by the embedded web user interface shall authenticate the user before allowing a web session to be initiated.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management Capability to block logins for a period of time after several consecutive failed login attempts. The lock-out period and the number of failed logins that initiates the lock-out period are configurable by the user. Server Power Control - Ability to force into Setup on a reset. 6.4.3.
Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management Intel® Server Board S2600CP and Server System P4000CP TPS 6.4.3.20 Data Center Management Interface (DCMI) The DCMI Specification is an emerging standard that is targeted to provide a simplified management interface for Internet Portal Data Center (IPDC) customers. It is expected to become a requirement for server platforms which are targeted for IPDCs.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management Table 25. Enabling Advanced Management Features Manageability Hardware Benefits ® Comprehensive IPMI based base manageability features ® No dedicated NIC for management Enables KVM and media redirection by onboard NIC ® Dedicated NIC for management traffic, KVM and media Redirection.
Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management Intel® Server Board S2600CP and Server System P4000CP TPS 6.5.2.1 1600x1200 at 60Hz 1920x1080 (1080p), 1920x1200 (WUXGA) 1650x1080 (WSXGA+) 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. 6.5.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management If either a virtual IDE or virtual floppy device is remotely attached during system boot, both the virtual IDE and virtual floppy are presented as bootable devices. It is not possible to present only a single-mounted device type to the system BIOS. 6.
Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management Intel® Server Board S2600CP and Server System P4000CP TPS support a single ME image. For this case, ME update is only supported by means of BIOS performing a direct update of the flash component. The recovery image only provides the basic functionality that is required to perform the update; therefore other ME FW features are not functional therefore when the update is in progress. 6.6.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP and Intel® Server System P4000CP Platform Management BIOS is responsible for enabling/disabling the system hardware for EU Lot6 operation. It notifies the BMC of the current state. The BMC saves the state in persistent store and uses it to control special EU Lot6 internal processing during boot, sensor monitoring, and so on as needed. Wake-on-LAN (WOL) is not supported in EU Lot6 mode. 6.7.
Intel® Server Board S2600CP Connector/Header Locations and Pin-outs Intel® Server Board S2600CP and Server System P4000CP TPS 7. Intel® Server Board S2600CP 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 tables provide the pin-out for “MAIN PWR” connector. Table 26.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP Connector/Header Locations and Pin-outs 7.2.1 Front Panel Header Included on the left edge of the server board is a 30-pin header consists of a 24-pin SSI compatible front panel header and a 4-pin header to support optional NIC3/4 LEDs.
Intel® Server Board S2600CP Connector/Header Locations and Pin-outs Intel® Server Board S2600CP and Server System P4000CP TPS Table 31. Local Front Panel Connector Pin-out Pin 1 3 5 7 7.3 Signal Name SMB_SENSOR_3V3STBY_DATA SMB_SENSOR_3V3STBY_CLK FM_LCP_ENTER_N FM_LCP_RIGHT_N Pin 2 4 6 Signal Name GND P3V3_AUX FM_LCP_LEFT_N On Board Storage Connectors The server board provides connectors for support of several storage device options.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP Connector/Header Locations and Pin-outs Table 34. SATA SGPIO Connector Pin-out Pin 1 2 3 4 5 7.3.4 Signal Name SCLK SLOAD GND SDATAOUT0 SDATAOUT1 SAS Connectors The server board includes eight SAS/SATA connectors. By default, only the connectors labeled from “SAS_0” to “SAS_3” are enabled and support transfer rates of up to 3Gb/s.
Intel® Server Board S2600CP Connector/Header Locations and Pin-outs Intel® Server Board S2600CP and Server System P4000CP TPS 7.3.7 HSBP_I2C Header 2 Table 38. HSBP_I C Header Pin-out Pin 1 2 3 7.3.8 Signal Name SMB_HSBP_3V3STBY_DATA GND SMB_HSBP_3V3STBY_CLK HDD LED Header The server board includes a 2-pin hard drive activity LED header used with some SAS/SATA controller add-in cards. The header has the following pin-out. Table 39. HDD LED Header Pin-out Pin 1 7.3.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP Connector/Header Locations and Pin-outs Table 42. RMM4_Lite Connector Pin-out Pin 1 3 5 7 7.4.2 Signal Name P3V3_AUX KEY DO CS_N Pin 2 4 6 8 Signal Name DI CLK GND GND RMM4_NIC Connector Table 43. RMM4_NIC Connector Pin-out 7.4.
Intel® Server Board S2600CP Connector/Header Locations and Pin-outs Intel® Server Board S2600CP and Server System P4000CP TPS Pin 5 7.4.5 Signal name P3V3 Chassis Intrusion Header The server board includes a 2-pin chassis intrusion header which can be used when the chassis is configured with a chassis intrusion switch. The header has the following pin-out. Table 46. Chassis Intrusion Header Pin-out Header State Pins 1 and 2 closed Pins 1 and 2 open 7.4.6 Description FM_INTRUDER_HDR_N is pulled HIGH.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP Connector/Header Locations and Pin-outs 7.5.2 CPU FAN Connector The two CPU fan connectors are 4-pin fan connectors. Following table provides the pin-out for CPU fan connectors. Table 50. CPU FAN Connector Pin-out Pin 1 2 3 4 7.6 Signal Name GND 12V TACH PWM Serial Port and Video Connectors The server board includes two serial port connectors. 7.6.
Intel® Server Board S2600CP Connector/Header Locations and Pin-outs Intel® Server Board S2600CP and Server System P4000CP TPS 5 6 7 8 9 10 11 12 13 14 15 GND GND GND GND P5V GND NC CRT_DDCDATA CRT_HSYNC CRT_VSYNC CRT_DDCCLK Figure 30. 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® Server Board S2600CP and Server System P4000CP TPS 8. Intel® Server Board S2600CP Jumper Blocks Intel® Server Board S2600CP 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 31. Jumper Blocks (J1D3, J1D2, J1E3, J1E4, J1F1) Table 54.
Intel® Server Board S2600CP Jumper Blocks Jumper Name Force Update J1F1: Password Clear 8.1 Intel® Server Board S2600CP and Server System P4000CP TPS Pins 2-3 System Results BMC Firmware Force Update Mode – Enabled 1-2 These pins should have a jumper in place for normal system operation. (Default) To clear administrator and user passwords, power on the system with pins 2-3 connected. The administrator and user passwords clear in 5-10 seconds after power on.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP Jumper Blocks 7. Open the chassis and move the jumper back to the default position (covering pins 1 and 2). 8. Close the server chassis. 9. Power up the server. The password is now cleared and can be reset by going into the BIOS setup. 8.
Intel® Server Board S2600CP Jumper Blocks 8.3 Intel® Server Board S2600CP and Server System P4000CP TPS ME Force Update Jumper When performing the standard ME force update procedure, the update utility places the ME into an update mode, allowing the ME to load safely onto the flash device. In the unlikely event ME firmware update process fails due to ME not being in the proper update state, the server board provides an Integrated BMC Force Update jumper, which forces the ME into the proper update state.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server Board S2600CP Jumper Blocks 3. Switch the recovery jumper. Details regarding the jumper ID and location can be obtained from the Board EPS for that Platform. 4. Power ON the system. 5. The BIOS POST screen will appear displaying the progress and system automatically boots to the EFI SHELL. 6. BIOS.nsh file executes, and initiates the flash update (IFlash32.efi) with new capsule file (*Rec.CAP).
Intel® Light Guided Diagnostics 9. Intel® Server Board S2600CP and Server System P4000CP 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.
Intel® Server Board S2600CP and Server System P4000CP TPS 9.2 Intel® Light Guided Diagnostics Fan Fault LEDs Fan fault LEDs are present for the two CPU fans and the one rear system fan. The fan fault LEDs illuminate when the corresponding fan has fault. Figure 33. Fan Fault LED’s Location 105 Revision 1.
Intel® Light Guided Diagnostics 9.3 Intel® Server Board S2600CP and Server System P4000CP TPS DIMM Fault LEDs The server board provide memory fault LED for each DIMM socket. These LEDs are located as shown in the following figure. The DIMM fault LED illuminates when the corresponding DIMM slot has memory installed and a memory error occurs. Figure 34. DIMM Fault LED’s Location 106 Revision 1.
Intel® Server Board S2600CP and Server System P4000CP TPS 9.4 Intel® Light Guided Diagnostics System ID LED, System Status LED, and POST Code Diagnostic LEDs The server boards provide 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: Callout Description A B LSB 1 2 3 4 5 6 MSB System Status LED System ID LED POST Code Diagnostic LEDs Figure 35.
Intel® Light Guided Diagnostics Intel® Server Board S2600CP and Server System P4000CP TPS o By pressing the System ID Button on the system front control panel, the ID LED displays a solid blue color until the button is pressed again. o By issuing the appropriate hex IPMI “Chassis Identify” value, the ID LED will either blink blue for 15 seconds and turn off or will blink indefinitely until the appropriate hex IPMI Chassis Identify value is issue to turn it off. 9.4.
Intel® Server Board S2600CP and Server System P4000CP TPS Color Amber State ~1 Hz blink Criticality Non-critical Amber Solid on Critical, nonrecoverable Off N/A Not ready Intel® Light Guided Diagnostics Description Non-fatal alarm – system is likely to fail: 1. Critical threshold crossed – Voltage, temperature (including HSBP temp), input power to power supply, output current for main power rail from power supply and PROCHOT (Therm Ctrl) sensors. 2. VRD Hot asserted. 3.
Intel® Server System P4000CP Front Control Panel and Back Panel Intel® Server Board S2600CP and Server System P4000CP TPS 10. Intel® Server System P4000CP Front Control Panel and Back Panel Intel® Server System P4000CP family include a Front Control Panel on the front of the system providing push button system controls, LED indicators for several system features and additional system I/O features. The front panel is identical across different options of Intel® Server System P4000CP family.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Front Control Panel and Back Panel ID Button with integrated ID LED – Toggles the integrated ID LED and the Blue server board ID LED on and off. The ID LED is used to identify the system for maintenance when installed in a rack of similar server systems. The ID LED can also be toggled on and off remotely using the IPMI Chassis Identify command which will cause the LED to blink for 15 seconds.
Intel® Server System P4000CP Front Control Panel and Back Panel Intel® Server Board S2600CP and Server System P4000CP TPS 10.1.2 Front Control Panel LED Status The following table provides a description of each LED status. Table 58. Front Control Panel LED Status LED Power/Sleep Status Color Green Green Green Condition On Blink Off On Green Blink Amber On Amber Blink Off Green Global HDD Activity LAN 1-4 Activity/Link Chassis Identification Blink What It Means Power on or S0 sleep.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Front Control Panel and Back Panel A Power Supply F Serial-B Port (Optional) B IO Connectors G Kensington* Cable Lock Mounting Hole C RMM4 NIC Port (Optional) H Padlock Loop D Add in PCI-e cards I RMM4 NIC Port (Optional) E Power Connector Figure 37.
Intel® Server System P4000CP Storage and Peripheral Drive Bays Intel® Server Board S2600CP and Server System P4000CP TPS 11. Intel® Server System P4000CP Storage and Peripheral Drive Bays The Intel® Server System P4000CP product family has support for many storage device options, including: Hot Swap 2.5” Hard Disk Drives Hot Swap 3.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Storage and Peripheral Drive Bays Light pipes integrated into the drive tray assembly direct light emitted from Amber drive status and Green activity LEDs located next to each drive connector on the backplane, to the drive tray faceplate, making them visible from the front of the system. Amber Status LED Green Activity LED Table 59. 2.
Intel® Server System P4000CP Storage and Peripheral Drive Bays Intel® Server Board S2600CP and Server System P4000CP TPS There are several connectors on the backside of each backplane. The following illustration identifies each of them: Label A B C D Description 2 I C -Out cable connector for multi-backplane support 4-port Mini-SAS cable connectors 2 I C -In cable connector (From Server board or other backplane) Power connector Figure 41. 2.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Storage and Peripheral Drive Bays 11.2 3.5” Hard Disk Drive Support The Intel® Server System P4308CP4MHEN and P4308CP4MHGC support 8x3.5” drive configuration. The drive bay can support either SATA or SAS hard disk drives. Mixing of drive types within the hard drive bay is not supported. Hard disk drive type is dependent on the type of host bus controller used, SATA only or SAS. Each 3.
Intel® Server System P4000CP Storage and Peripheral Drive Bays Intel® Server Board S2600CP and Server System P4000CP TPS Table 62. 3.5” Hard Disk Drive Activity LED States Condition Power on with no drive activity Green Power on with drive activity Power on and drive spun down Power on and drive spinning up 11.2.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Storage and Peripheral Drive Bays On the backside of each backplane are several connectors. The following illustration identifies each: Label A B C D Description Reserved Power connector 4-port mini-SAS connectors 2 I C connector Figure 44. 3.5” Backplane, Back Side A – Reserved. A jumper to enable/disable SATA 6X mode, not used on P4000CP products.
Intel® Server System P4000CP Storage and Peripheral Drive Bays Intel® Server Board S2600CP and Server System P4000CP TPS 11.2.2 Cypress* CY8C22545 Enclosure Management Controller The backplanes support enclosure management using a Cypress* CY8C22545 Programmable System-on-Chip (PSoC*) device. The CY8C22545 drives the hard drive activity/fault LED, hard drive present signal, and controls hard drive power-up during system power-on. 11.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Storage and Peripheral Drive Bays Note: Current SCU controller design limitations prevent any hard drive attached to a SAS expander card from being a boot device when all SCU connectors are attached to the SAS expander card. For storage configurations that require utilizing a hard disk drive as the boot device, the system must be cabled as follows to ensure a boot device is found and for contiguous drive mapping (016).
Intel® Server System P4000CP Storage and Peripheral Drive Bays Intel® Server Board S2600CP and Server System P4000CP TPS 11.5 Low Profile eUSB SSD Support The system provides support for a low profile eUSB SSD storage device. A 2mm 2x5-pin connector labeled “eUSB SSD” is used to plug these small flash storage devices. Figure 48. eUSB SSD Support eUSB features include: Two wire small form factor Universal Serial Bus 2.0 (Hi-Speed USB) interface to host.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Thermal Management 12. Intel® Server System P4000CP Thermal Management The Intel® Server System P4000CP is designed to operate at external ambient temperatures in compliance with ASHRAE class A2.
Intel® Server System P4000CP Thermal Management Intel® Server Board S2600CP and Server System P4000CP TPS power consumption. If the altitude is known, higher altitude is recommended in order to provide sufficient cooling. The default setting is [301m – 900m]. 12.2.3 Set Fan Profile [Performance] and [Acoustic] fan profiles are available to select. The Acoustic mode offers best acoustic experience and appropriate cooling capability covering mainstream and majority of the add-in cards.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Thermal Management ® Figure 49. Fixed Fans in Intel Server Chassis Note: If Quiet Fan Idle Mode is enabled, with combination of Altitude set to [300m or less] or [301m-900m] and Fan Profile set to [Acoustic] mode, the core fan will stop running when the aggregate sensor temperatures are satisfied indicating the system is at good thermal/light loading conditions.
Intel® Server System P4000CP Thermal Management Intel® Server Board S2600CP and Server System P4000CP TPS All the fans are Pulse Width Modulated (PWM) 6 wire/pin fans. The extra signals provide for fan redundancy and failure indications (Pwr, Gnd, Tach, PWM, Presence, and Failure). The fan headers are connected to motherboard with below sequence. Misconnection will potentially lead to thermal risk.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Power System Options 13. Intel® Server System P4000CP Power System Options 13.1 Intel® Server System P4000CP Power System Options Overview Intel® Server System P4308CP4MHEN is equipped with one 550-W power supply. Intel® Server System P4308CP4MHGC and P4208MHGC are equipped with two redundant 750-W power supplies and provide power to the motherboard through a power distribution board. 13.
Intel® Server System P4000CP Power System Options Intel® Server Board S2600CP and Server System P4000CP TPS Figure 51. Mechanical Drawing for 550-W Power Supply Enclosure 128 Revision 1.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Power System Options 13.2.1.1 550-W Power Supply Output Wire Harness Listed or recognized component appliance wiring material (AVLV2), CN, rated min 85°C shall be used for all output wiring. Figure 52. Output Cable Harness for 550-W Power Supply 129 Revision 1.
Intel® Server System P4000CP Power System Options Intel® Server Board S2600CP and Server System P4000CP TPS Table 65. Power Supply Cable Lengths From Power Supply cover exit hole 280 To connector # P1 24 Description Baseboard Power Connector Power Supply cover exit hole 300 P2 8 Processor 0 connector Power Supply cover exit hole 500 P3 8 Processor 1 connector Power Supply cover exit hole 500 5 SATA Peripheral Power Connector for 5.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Power System Options Table 67. P2 Processor#1 Power Connector Pin Signal 18 awg color Pin Signal 18 awg color 1 COM Black 5 +12V1 Yellow 2 COM Black 6 +12V1 Yellow 3 COM Black 7 +12V1 Yellow 4 COM Black 8 +12V1 Yellow 13.2.1.1.
Intel® Server System P4000CP Power System Options Intel® Server Board S2600CP and Server System P4000CP TPS 13.2.2 Temperature Requirements The power supply shall operate within all specified limits over the Top temperature range. Table 71. Thermal Requirements Item Top Tnon-op Altitude 13.2.3 Description Operating temperature range. 0 Min 50 ºC Non-operating temperature range. -40 70 ºC 3000 meters Maximum operating altitude. Max Units AC Input Requirements 13.2.3.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Power System Options 13.2.3.4 AC Line Dropout/Holdup An AC line dropout is defined to be 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.
Intel® Server System P4000CP Power System Options Intel® Server Board S2600CP and Server System P4000CP TPS 13.2.3.8 Power Recovery The power supply recovers automatically after an AC power failure. AC power failure is defined to be any loss of AC power that exceeds the dropout criteria. 13.2.4 Efficiency The following table provides the required minimum efficiency level at various loading conditions. These are provided at three different load levels; 100%, 50%, and 20%.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Power System Options Table 79. Loading Conditions 3.3V 5.0V 12V1 12V2 12V3 -12V 5.0Vstby Total Power 12V Power 3.3V/5V Power Load1 18 12.1 12 12 11.7 0 0.3 550 428 120 Load2 13.5 15 12 12 11.2 0.5 0.3 549 422 120 Load3 2.5 2 20 20 4.2 0 0.3 550 530 18 Load4 2.5 2 13.1 13.1 18 0 0.3 550 530 18 Load5 0.5 0.3 15 15 6.5 0.5 3 462 438 3 Load6 16 4 1 1 3.
Intel® Server System P4000CP Power System Options Intel® Server Board S2600CP and Server System P4000CP TPS 13.2.5.6 Capacitive Loading The power supply is stable and meets all requirements with the following capacitive loading ranges. Table 82. Capacitive Loading Conditions 13.2.5.7 Output +3.3V 250 Min 5000 Max F Units +5V 400 5000 F +12V 500 8000 F -12V 1 350 F +5VSB 20 350 F Grounding The output ground of the pins of the power supply provides the output power return path.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Power System Options Table 83. Ripples and Noise +3.3V 50mVp-p +5V 50mVp-p +12V 1, 2, 3 120mVp-p -12V 200mVp-p +5VSB 50mVp-p The test set-up shall be as shown below. 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.
Intel® Server System P4000CP Power System Options Intel® Server Board S2600CP and Server System P4000CP TPS Vout 10% Vout V1 V2 V3 V4 Tvout_off Tvout_rise Tvout_on Figure 54. Output Voltage Timing Table 85. Turn On/Off Timing Item Tsb_on_delay Description Delay from AC being applied to 5VSB being within regulation. T ac_on_delay Delay from AC being applied to all output voltages being within regulation. Tvout_holdup Time all output voltages stay within regulation after loss of AC.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Power System Options Item T5VSB_holdup Description Time the 5VSB output voltage stays within regulation after loss of AC. MIN MAX UNITS ms 70 AC Input Tvout_holdup Vout Tpwok_low TAC_on_delay Tsb_on_delay PWOK 5VSB Tpwok_off Tpwok_on Tsb_on_delay Tpwok_on Tpwok_off Tpson_pwok Tpwok_holdup T5VSB_holdup Tsb_vout Tpson_on_delay PSON AC turn on/off cycle PSON turn on/off cycle Figure 55.
Intel® Server System P4000CP Power System Options Intel® Server Board S2600CP and Server System P4000CP TPS 13.2.6.2 Over Voltage Protection (OVP) The power supply over voltage protection is locally sensed. The power supply shuts down and latches-off after an over voltage condition occurs. This latch is cleared by toggling the PSON# signal or by an AC power interruption. The table below contains the over voltage limits. The values are measured at the output of the power supply’s pins.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Power System Options Disabled 0.3V ≤ Hysterisis ≤ 1.0V In 1.0-2.0V input voltages range is required 1.0 V PS is enable d 2.0 V PS is disable d Enabled 0V 2.0 V 1.0 V 5.25V Figure 56. PSON# Required Signal Characteristic 13.2.7.
Intel® Server System P4000CP Power System Options Intel® Server Board S2600CP and Server System P4000CP TPS 13.3.1 Mechanical Overview The physical size of the power supply enclosure is 39/40mm x 74mm x 185mm. The power supply contains a single 40mm fan. The power supply has a card edge output that interfaces with a 2x25 card edge connector in the system. The AC plugs directly into the external face of the power supply. Refer to the following figure. All dimensions are nominal.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Power System Options Pin 13.3.1.
Intel® Server System P4000CP Power System Options Intel® Server Board S2600CP and Server System P4000CP TPS Power Supply Condition Power supply FW updating. 13.3.1.4 LED State 2Hz Blink GREEN Temperature Requirements The power supply operates within all specified limits over the Top temperature range. All airflow passes through the power supply and not over the exterior surfaces of the power supply. Table 93.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Power System Options 13.3.2.3 AC Input Voltage Specification The power supply operates within all specified limits over the following input voltage range. Harmonic distortion of up to 10% of the rated line voltage does not cause the power supply to go out of specified limits. Application of an input voltage below 85VAC does not cause damage to the power supply, including a blown fuse. Table 95.
Intel® Server System P4000CP Power System Options Intel® Server Board S2600CP and Server System P4000CP TPS The power supply meets the requirements under the following AC line sag and surge conditions. Table 97.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Power System Options 13.3.4.2 Standby Output The 12VSB output is present when an AC input greater than the power supply turn on voltage is applied. 13.3.4.3 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.
Intel® Server System P4000CP Power System Options Intel® Server Board S2600CP and Server System P4000CP TPS 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. 13.3.4.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Power System Options The test set-up shall be as shown below. 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.
Intel® Server System P4000CP Power System Options Intel® Server Board S2600CP and Server System P4000CP TPS * The 12VSBoutput voltage rise time shall be from 1.0ms to 25ms. AC Input Tvout_holdup Vout Tpwok_low TAC_on_delay Tsb_on_delay Tpwok_off Tpwok_on PWOK Tsb_on_delay Tpwok_on Tpson_pwok Tpwok_holdup 12Vsb Tsb_vout Tpwok_off T5Vsb_holdup Tpson_on_delay PSON AC turn on/off cycle PSON turn on/off cycle Figure 59. Turn On/Off Timing (Power Supply Signals) 13.3.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Power System Options 13.3.5.2 Over Voltage Protection (OVP) The power supply over voltage protection is locally sensed. The power supply shuts down and latches-off after an over voltage condition occurs. This latch is cleared by toggling the PSON# signal or by an AC power interruption. The values are measured at the output of the power supply’s connectors.
Intel® Server System P4000CP Power System Options Intel® Server Board S2600CP and Server System P4000CP TPS 0.3V ≤ Hysterisis ≤ 1.0V In 1.0-2.0V input voltages range is required Disabled 1.0 V PS is enable d 2.0 V PS is disable d Enabled 0V 2.0 V 1.0 V 3.46V Figure 60. PSON# Required Signal Characteristic. 13.3.6.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Power System Options 13.3.6.3 SMBAlert# Signal This signal indicates that the power supply is experiencing a problem that the user should investigate. This shall be asserted due to Critical events or Warning events. The signal shall be activated in case the critical component temperature reaches a warning threshold, general failure, over-current, over-voltage, under-voltage, or fan failure.
Intel® Server System P4000CP Power System Options Intel® Server Board S2600CP and Server System P4000CP TPS required voltages: +3.3VDC, +5VDC, and 5V standby along with additional over current protection circuit for the 12V rails. This power distribution board is intended to be used in the Intel® Server Chassis P4000M with various common redundant power supplies; 460W, 750W, 1200W, 1600W, and DC input 750W. 13.4.1 Mechanical Overview Figure 61. Outline Drawing 154 Revision 1.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Power System Options 13.4.1.1 Airflow Requirements The power distribution board shall get enough airflow for cooling DC/DC converters from the fans located in the Power Supply modules. Below is a basic drawing showing airflow direction. The amount of cooling airflow that will be available to the DC/DC converters is to be no less than 1.2M/s. Airflow direction PDB Rear power supply Front power supply Figure 62.
Intel® Server System P4000CP Power System Options Intel® Server Board S2600CP and Server System P4000CP TPS Table 112.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Power System Options From Extension from P8 Length, mm 75 To connector # P9 4 Power supply cover exit hole 700 P10 4 Extension from P10 75 P11 4 Connector only (no cable) N/a P12 4 Connector only (no cable) N/a P13 4 Connector only (no cable) N/a P14 4 Connector only (no cable) N/a P15 4 Connector only (no cable) N/a P16 4 13.4.2.2.
Intel® Server System P4000CP Power System Options Intel® Server Board S2600CP and Server System P4000CP TPS 3 Pin Signal COM 18 AWG color Black 7 +12V1 White 4 COM Black 8 +12V1 White 13.4.2.2.3 Pin Signal 18 AWG Color Processor#1 Power Connector (P3) Connector housing: 8-Pin Molex* 39-01-2080 or equivalent Contact: Molex* Mini-Fit, HCS Plus, Female, Crimp 44476 or equivalent Table 116.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Power System Options Table 120. P8, P9 Legacy Peripheral Power Connectors Pin 1 Signal +12V3 18 AWG Color Green 2 COM Black 3 COM Black 4 +5 VDC Red Table 121. P7, P10, P11 Legacy Peripheral Power Connectors 13.4.2.2.
Intel® Server System P4000CP Power System Options Intel® Server Board S2600CP and Server System P4000CP TPS Table 124. Remote Sense Requirements 13.4.2.5 Characteristic +3.3V remote sense input impedance Requirement 200 (measure from +3.3V on P1 2x12 connector to +3.3V sense on P20 1x5 signal connector) +3.3V remote sense drop 200mV (remote sense must be able to regulate out 200mV drop on the +3.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Power System Options P8 1x4 1 x 3.5" 8xHDD BP HDD1 8x3.5 8 x 3.5" fixed SATA 2xfixed 8 x 3.5" fixed SAS 2xfixed 13.4.2.
Intel® Server System P4000CP Power System Options Intel® Server Board S2600CP and Server System P4000CP TPS 13.4.2.10 DC/DC Converters Dynamic Loading The output voltages remains within limits specified in table above for the step loading and capacitive loading specified in the table below. The load transient repetition rate is only a test specification. The step load may occur anywhere within the minimum load to the maximum load shown in Table 127 and Table 128. Table 130.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Power System Options Table 132. Ripple and Noise +3.3V 50mVp-p +5V 50mVp-p -12V 120mVp-p +5VSB 50mVp-p The test set-up 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. CONNECT THE PROBES AS SHOWN. 3.
Intel® Server System P4000CP Power System Options Intel® Server Board S2600CP and Server System P4000CP TPS While in Stand-by mode, at no load condition, the residual voltage on each DC/DC converter output does not exceed 100mV. 13.4.3 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).
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Power System Options 13.4.4 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. 13.4.4.1 System PWOK requirements The system will connect the PWOK signal to 3.3V or 5V by a pull-up resistor.
Intel® Server System P4000CP Accessories Intel® Server Board S2600CP and Server System P4000CP TPS 14. Intel® Server System P4000CP Accessories 14.1 Intel® RAID C600 Upgrade Key Intel® RAID C600 Upgrade Keys are used to enable additional storage features on Intel® Server Board S2600CP2/S2600CP4 and Intel® Server System P4000CP that use the Intel® C600 series chipset. Several types of Intel® RAID C600 Upgrade Keys are available.
Intel® Server Board S2600CP and Server System P4000CP TPS Intel® Server System P4000CP Accessories ® Figure 64. Intel RAID C600 Upgrade Key 14.2 Intel® Remote Management Module 4 (Intel® RMM4) Intel® Remote Management Model 4 (RMM4) includes two components, Intel® Remote Management Module 4 Lite (RMM4 Lite) and Intel® Dedicated Server Management NIC (DMN). RMM4 Lite is the key that can enable advance features of server onboard Integrated BMC. DMN can provide a dedicated management LAN interface.
Intel® Server System P4000CP Accessories Intel® Server Board S2600CP and Server System P4000CP TPS For more detail information of RMM4, please refer to Intel® Remote Management Module 4 Technical Product Specification. 14.3 Rack Options Intel® Server System P4308CP4MHEN, P4308CP4MHGC and P4208CP4MHGC can be converted to rack systems with the rack bezel and rack rail options. Figure 66. Optional Rack Bezel Rack rail options include AXXELVRAIL and AXX3U5UPRAIL. Table 140.
Intel® Server Board S2600CP and Server System P4000CP TPS Design and Environmental Specifications 15. Design and Environmental Specifications 15.1 Intel® Server Board S2600CP Design Specifications The following table defines the Intel® Server Board S2600CP operating and non-operating environmental limits. Operation of the Intel® Server Board S2600CP at conditions beyond those shown in the following table may cause permanent damage to the system.
Design and Environmental Specifications Intel® Server Board S2600CP and Server System P4000CP TPS 15.2 Intel® Server System P4000CP Environmental Limits The following table defines the Intel® Server System P4000CP system level operating and nonoperating environmental limits. Operation of the Intel® Server System P4000CP at conditions beyond those shown in the following table may cause permanent damage to the system.
Intel® Server Board S2600CP and Server System P4000CP TPS Design and Environmental Specifications 4. System performance may be impacted when operating within the extended operating temperature range. There is no long term system reliability impact when operating at the extended temperature range within the approved limits. ® Table 143.
Design and Environmental Specifications Intel® Server Board S2600CP and Server System P4000CP TPS 1. For A3/A4 individual PS selection: i. For dual power supply configuration, power budget must fit within single power supply rated load and be installed in dual configuration, or ii. For single power supply configuration, power budget must be sized with 30% margin to single power supply rated load. 2.
Intel® Server Board S2600CP and Server System P4000CP TPS Assembly Inductors Connections Misc Design and Environmental Specifications Failure Rate 109.62 623.35 73.08 MTBF 9,122,408 1,604,218 13,682,860 15.5 Server Board Power Distribution This section provides power supply design guidelines for a system using the Intel® Server Board S2600CP. The following diagram shows the power distribution implemented on these server boards.
Appendix A: Integration and Usage Tips Intel® Server Board S2600CP and Server System P4000CP TPS 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.
Intel® Server Board S2600CP and Server System P4000CP TPS Appendix B: Compatible Intel® Server Chassis Appendix B: Compatible Intel® Server Chassis The Intel ® Server Board S2600CP can be used inside Intel ® Server Chassis P4000M family. ® Table 145. Compatible Intel Server Chassis Chassis Name P4308XXMFEN System Fans Two Fixed Fans Storage Drives Eight 3.5" Fixed Drive Trays Power Supply(s) 550W Fixed PSU P4308XXMHEN Two Fixed Fans Eight 3.
Appendix C: BMC Sensor Tables Intel® Server Board S2600CP and Server System P4000CP TPS 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.
Intel® Server Board S2600CP and Server System P4000CP TPS Appendix C: BMC Sensor Tables Rearm Sensors The rearm is a request for the event status for a sensor to be rechecked and updated upon a transition between good and bad states. Rearming the sensors can be done manually or automatically. This column indicates the type supported by the sensor.
Appendix C: BMC Sensor Tables Intel® Server Board S2600CP and Server System P4000CP TPS Note: All sensors listed below may not be present on all platforms. Please check platform EPS section for platform applicability and platform chassis section for chassis specific sensors. Redundancy sensors will be only present on systems with appropriate hardware to support redundancy (for instance, fan or power supply). Table 146.
Intel® Server Board S2600CP and Server System P4000CP TPS Full Sensor Name (Sensor name in SDR) Sensor # Platform Applicability Sensor Type Appendix C: BMC Sensor Tables Event/Reading Type Event Offset Triggers 04 – Nonredundant: sufficient resources. Transition from insufficient state. 05 - Nonredundant: insufficient resources Contrib.
Appendix C: BMC Sensor Tables Full Sensor Name (Sensor name in SDR) Intel® Server Board S2600CP and Server System P4000CP TPS Sensor # Platform Applicability (Physical Scrty) chassisspecific FP Interrupt Chassis specific (FP NMI Diag Int) SMI Timeout 05h 06h (SMI Timeout) System Event Log (System Event Log) 07h All All Sensor Type 08h Button Sensor (Button) 09h BMC Watchdog 0Ah All All All 6Fh 04 - LAN leash lost Critical Interrupt Sensor Specific 13h 6Fh 00 - Front panel NMI/
Intel® Server Board S2600CP and Server System P4000CP TPS Full Sensor Name (Sensor name in SDR) Sensor # Platform Applicability (Fan Redundancy) Sensor Type 04h Appendix C: BMC Sensor Tables Event/Reading Type 0Bh Event Offset Triggers Contrib. To System Status 01 Redundancy lost Degraded 02 Redundancy degraded Degraded Assert/ Deassert Readable Event Data Rearm Standby M X Value/Off sets 03 - Nonredundant: Sufficient Degraded resources.
Appendix C: BMC Sensor Tables Full Sensor Name (Sensor name in SDR) IO Module Presence (IO Mod Presence) SAS Module Presence (SAS Mod Presence) BMC Firmware Health (BMC FW Health) System Airflow (System Airflow) FW Update Status Intel® Server Board S2600CP and Server System P4000CP TPS Sensor # Platform Applicability Sensor Type Event/Reading Type Module/Bo ard Digital Discrete 15h 08h Module/Bo ard Digital Discrete 15h 08h All Mgmt Health Sensor Specific 28h 6Fh 11h All Other Units T
Intel® Server Board S2600CP and Server System P4000CP TPS Full Sensor Name (Sensor name in SDR) IO Module2 Temperature (I/O Mod2 Temp) PCI Riser 3 Temperature (PCI Riser 5 Temp) PCI Riser 4 Temperature (PCI Riser 4 Temp) Baseboard +1.05V Processor3 Vccp Sensor # 16h 17h 18h 19h (BB +1.05Vccp P3) Baseboard +1.05V Processor4 Vccp 1Ah (BB +1.
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) Intel® Server Board S2600CP and Server System P4000CP TPS Sensor # 25h 26h 27h 28h Platform Applicability Platformspecific Platformspecific Platformspecific Platformspecific Hot-swap Backplane 1 Temperature 29h Chassisspecific (HSBP 1 Temp) Hot-swap Backplane 2 Temperat
Intel® Server Board S2600CP and Server System P4000CP TPS Full Sensor Name (Sensor name in SDR) Network Interface Controller Temperature Sensor # 2Fh Platform Applicability All (LAN NIC Temp) Fan Tachometer Sensors (Chassis specific sensor names) Fan Present Sensors (Fan x Present) Power Supply 1 Status (PS1 Status) Power Supply 2 Status (PS2 Status) Power Supply 1 AC Power Input (PS1 Power In) Sensor Type Temperatu re 01h 30h– 3Fh Chassis and Platform Specific 40h– 4Fh Chassis and Platform S
Appendix C: BMC Sensor Tables Full Sensor Name (Sensor name in SDR) Power Supply 2 AC Power Input Intel® Server Board S2600CP and Server System P4000CP TPS Sensor # 55h (PS2 Power In) Power Supply 1 +12V % of Maximum Current Output 58h (PS1 Curr Out %) Power Supply 2 +12V % of Maximum Current Output 59h (PS2 Curr Out %) Power Supply 1 Temperature 5Ch (PS1 Temperature) Power Supply 2 Temperature 5Dh (PS2 Temperature) Platform Applicability Chassisspecific Hard Disk Drive 16 - 24 Status Other
Intel® Server Board S2600CP and Server System P4000CP TPS Full Sensor Name (Sensor name in SDR) Sensor # Platform Applicability (P2 Status) Processor 3 Status (P3 Status) Processor 4 Status (P4 Status) 72h 73h Processor 1 Thermal Margin (P1 Therm Margin) 74h Processor 2 Thermal Margin (P2 Therm Margin) 75h Processor 3 Thermal Margin (P3 Therm Margin) Processor 4 Thermal Margin (P4 Therm Margin) Processor 1 Thermal Control % Platformspecific Platformspecific All All 77h 78h Platformspecific P
Appendix C: BMC Sensor Tables Full Sensor Name (Sensor name in SDR) Processor 1 ERR2 Timeout Intel® Server Board S2600CP and Server System P4000CP TPS Sensor # 7Ch Platform Applicability All (P1 ERR2) Processor 2 ERR2 Timeout 7Dh All (P2 ERR2) Processor 3 ERR2 Timeout 7Eh (P3 ERR2) Processor 4 ERR2 Timeout 7Fh (P4 ERR2) Catastrophic Error (CATERR) Processor1 MSID Mismatch 80h 81h Platformspecific Platformspecific All All (P1 MSID Mismatch) Processor Population Fault (CPU Missing) 82h P
Intel® Server Board S2600CP and Server System P4000CP TPS Full Sensor Name (Sensor name in SDR) Processor 4 DTS Thermal Margin (P4 DTS Therm Mgn) Processor2 MSID Mismatch Sensor # 86h Platform Applicability All Temperatu re 01h 87h All (P2 MSID Mismatch) Processor 1 VRD Temperature Sensor Type Processor 07h Appendix C: BMC Sensor Tables Event/Reading Type Threshold 01h Digital Discrete 03h All Temperatu re (P1 VRD Hot) 01h 05h Processor 2 VRD Temperature All Temperatu re Digital Discre
Appendix C: BMC Sensor Tables Full Sensor Name (Sensor name in SDR) Processor 3 Memory VRD Hot 0-1 (P3 Mem01 VRD Hot) Processor 3 Memory VRD Hot 2-3 (P4 Mem23 VRD Hot) Processor 4 Memory VRD Hot 0-1 (P4 Mem01 VRD Hot) Processor 4 Memory VRD Hot 2-3 (P4 Mem23 VRD Hot) Power Supply 1 Fan Tachometer 1 (PS1 Fan Tach 1) Power Supply 1 Fan Tachometer 2 (PS1 Fan Tach 2) Power Supply 2 Fan Tachometer 1 (PS2 Fan Tach 1) Power Supply 2 Fan Tachometer 2 (PS2 Fan Tach 2) Processor 1 DIMM Aggregate Thermal Margin 1 (P1
Intel® Server Board S2600CP and Server System P4000CP TPS Full Sensor Name (Sensor name in SDR) Processor 2 DIMM Aggregate Thermal Margin 2 (P2 DIMM Thrm Mrgn2) Processor 3 DIMM Aggregate Thermal Margin 1 (P3 DIMM Thrm Mrgn1) Processor 3 DIMM Aggregate Thermal Margin 2 (P3 DIMM Thrm Mrgn2) Processor 4 DIMM Aggregate Thermal Margin 1 (P4 DIMM Thrm Mrgn1) Processor 4 DIMM Aggregate Thermal Margin 2 (P4 DIMM Thrm Mrgn2) Sensor # B3h Platform Applicability All Sensor Type Temperatu re 01h B4h B5h B6h
Appendix C: BMC Sensor Tables Full Sensor Name (Sensor name in SDR) Intel® Server Board S2600CP and Server System P4000CP TPS Sensor # Platform Applicability Processor 4 DIMM Thermal Trip (P4 Mem Thrm Trip) Global Aggregate Temperature Margin 1 (Agg Therm Mrgn 1) Global Aggregate Temperature Margin 2 (Agg Therm Mrgn 2) Global Aggregate Temperature Margin 3 (Agg Therm Mrgn 3) Global Aggregate Temperature Margin 4 (Agg Therm Mrgn 4) Global Aggregate Temperature Margin 5 (Agg Therm Mrgn 5) C3h C8h C9h
Intel® Server Board S2600CP and Server System P4000CP TPS Full Sensor Name (Sensor name in SDR) Baseboard +5V (BB +5.0V) Baseboard +3.3V (BB +3.3V) Baseboard +5V Stand-by (BB +5.0V STBY) Baseboard +3.3V Auxiliary (BB +3.3V AUX) Baseboard +1.05V Processor1 Vccp Sensor # D1h D2h D3h D4h D6h Platform Applicability All All All All All (BB +1.05Vccp P1) Baseboard +1.05V Processor2 Vccp D7h All (BB +1.05Vccp P2) Baseboard +1.5V P1 Memory AB VDDQ D8h All (BB +1.5 P1MEM AB) Baseboard +1.
Appendix C: BMC Sensor Tables Full Sensor Name (Sensor name in SDR) Baseboard +1.8V Aux (BB +1.8V AUX) Baseboard +1.1V Standby Intel® Server Board S2600CP and Server System P4000CP TPS Sensor # DCh DDh Platform Applicability (BB +3.3V Vbat) Baseboard +1.
Intel® Server Board S2600CP and Server System P4000CP TPS Full Sensor Name (Sensor name in SDR) Sensor # Hard Disk Drive 1 -15 Status F0h (HDD 1 - 15 Status) FEh - Platform Applicability Sensor Type Drive Slot Chassisspecific 0Dh Appendix C: BMC Sensor Tables Event/Reading Type Sensor Specific 6Fh Event Offset Triggers Contrib.
Appendix D: Platform Specific BMC Appendix Intel® Server Board S2600CP and Server System P4000CP 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: 4Ah 00h IPMI Channel ID Assignments Below table provides the information of BMC channels’ assignments. Table 147.
Intel® Server Board S2600CP and Server System P4000CP TPS Appendix D: Platform Specific BMC Appendix Intel® Server Chassis P4216XXM (Redundant fans, redundant PSUs) Chassis-specific sensors Table 148.
Appendix D: Platform Specific BMC Appendix Chassis Major Components Cooled (Temperature sensor number) Memory channels A and B (B0h) Memory channels C and D (B1h) Memory channels E and F (B2h) Memory channels G and H (B3h) BB P2 VR Temp (24h) Memory VR (25h) Hot-swap backplane 1 (29h) Hot-swap backplane 2 (2Ah) BMC Temp (23h) Memory VR (25h) Baseboard NIC (2Fh) Server South Bridge (22h) Hot-swap backplane 1 (29h) Hot-swap backplane 2 (2Ah) System Fan 1 (30h)
Intel® Server Board S2600CP and Server System P4000CP TPS Chassis Fan Domain Appendix D: Platform Specific BMC Appendix Major Components Cooled (Temperature sensor number) Memory channels G and H (B3h) BB P2 VR Temp (24h) Hot-swap backplane 1 (29h) Hot-swap backplane 2 (2Ah) Fans (Sensor number) HSC Availability Intel® Server Chassis P4208XXM (Fixed fans, fixed or redundant PSUs) o Intel Server Chassis P4308XXM (Fixed fans, fixed or redundant PSUs) o 8-bay 2.
Appendix D: Platform Specific BMC Appendix Intel® Server Board S2600CP and Server System P4000CP TPS ® Table 152. Intel Server Chassis P4308XXM (Fixed fans, redundant PSUs) PS Module Number PMBus* Product Name (in product area of the FRU) PSU Redundant Cold Redundant Fans in each PS 750W HS Power Supply Supported DPS-750XB A Not supported Not supported 1 PS fan Intel® Server Chassis P4208XXM/P4308XXM (Redundant fans, redundant PSUs) ® Table 153.
Intel® Server Board S2600CP and Server System P4000CP 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.
Appendix E: POST Code Diagnostic LED Decoder Intel® Server Board S2600CP and Server System P4000CP TPS In the following example, the BIOS sends a value of ACh to the diagnostic LED decoder. The LEDs are decoded as follows: Table 155.
Intel® Server Board S2600CP and Server System P4000CP TPS Checkpoint Diagnostic LED Decoder 1 = LED On, 0 = LED Off Upper Nibble Lower Nibble MSB LSB 8h 4h 2h 1h 8h 4h 2h 1h #7 #6 #5 #4 #3 #2 #1 #0 0 1 1 0 1 0 0 0 0 1 1 0 1 0 0 1 0 1 1 0 1 0 1 0 0 1 1 1 0 0 0 0 0 1 1 1 0 0 0 1 0 1 1 1 0 0 1 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 1 1 0 0 1 0 0 0 0 1 0 0 1 0 0 0 1 1 0 0 1 0 0 1 0 1 0 0 1 0 0 1 1 1 0 0 1 0 1 0 0 1 0 0 1 0 1 0 1 1 0 0 1 0 1 1 0 1 0 0 1 0 1 1 1 1 0 0 1 1 0 0 0 1 0 0 1 1 0 0 1 1 0 0 1 1 0 1 0 1 0 0 1 1
Appendix E: POST Code Diagnostic LED Decoder Checkpoint LED # F0h F1h F2h F3h F4h Diagnostic LED Decoder 1 = LED On, 0 = LED Off Upper Nibble Lower Nibble MSB LSB 8h 4h 2h 1h 8h 4h 2h 1h #7 #6 #5 #4 #3 #2 #1 #0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 1 1 1 1 1 0 0 1 0 1 1 1 1 0 0 1 1 1 1 1 1 0 1 0 0 Intel® Server Board S2600CP and Server System P4000CP TPS Description PEIM which detected forced Recovery condition PEIM which detected User Recovery condition Recovery PEIM (Recovery started) Recovery PEIM (Capsule f
Intel® Server Board S2600CP and Server System P4000CP TPS Appendix E: POST Code Diagnostic LED Decoder Table 158.
Appendix F: POST Error Code Intel® Server Board S2600CP and Server System P4000CP TPS 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).
Intel® Server Board S2600CP and Server System P4000CP TPS Appendix F: POST Error Code Error Code 8161 Error Message Processor 02 unable to apply microcode update Response 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 Processor 02 failed Self Test (BIST) Major 8172 Processor 03 failed Self Test (BIST) Major 8173 Processor 04 failed Self Test (BIST) Major 8180
Appendix F: POST Error Code Intel® Server Board S2600CP and Server System P4000CP TPS Error Code 8537 DIMM_H3 failed test/initialization Error Message Response Major 8538 DIMM_I1 failed test/initialization Major 8539 DIMM_I2 failed test/initialization Major 853A DIMM_I3 failed test/initialization Major 853B DIMM_J1 failed test/initialization Major 853C DIMM_J2 failed test/initialization Major 853D DIMM_J3 failed test/initialization Major 853E DIMM_K1 failed test/initialization Majo
Intel® Server Board S2600CP and Server System P4000CP TPS Appendix F: POST Error Code Error Code 8562 Error Message DIMM_A3 encountered a Serial Presence Detection (SPD) failure Response Major 8563 DIMM_B1 encountered a Serial Presence Detection (SPD) failure Major 8564 DIMM_B2 encountered a Serial Presence Detection (SPD) failure Major 8565 DIMM_B3 encountered a Serial Presence Detection (SPD) failure Major 8566 DIMM_C1 encountered a Serial Presence Detection (SPD) failure Major 8567 DIMM
Appendix F: POST Error Code Intel® Server Board S2600CP and Server System P4000CP TPS Error Code 85CE DIMM_P2 failed test/initialization Error Message Response Major 85CF DIMM_P3 failed test/initialization Major 85D0 DIMM_K3 disabled Major 85D1 DIMM_L1 disabled Major 85D2 DIMM_L2 disabled Major 85D3 DIMM_L3 disabled Major 85D4 DIMM_M1 disabled Major 85D5 DIMM_M2 disabled Major 85D6 DIMM_M3 disabled Major 85D7 DIMM_N1 disabled Major 85D8 DIMM_N2 disabled Major 85D9 DIMM_N
Intel® Server Board S2600CP and Server System P4000CP TPS Appendix F: POST Error Code The following table lists the POST error beep codes. Prior to system video initialization, the BIOS uses these beep codes to inform users on error conditions. The beep code is followed by a user-visible code on the POST Progress LEDs. Table 160. POST Error Beep Codes Beeps 3 1 long Error Message Memory error ® Intel TXT security violation POST Progress Code See Table 156.
Glossary Intel® Server Board S2600CP and Server System P4000CP 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.
Intel® Server Board S2600CP and Server System P4000CP TPS Glossary Term INTR Interrupt Definition IP Internet Protocol IPMB Intelligent Platform Management Bus IPMI Intelligent Platform Management Interface IR Infrared ITP In-Target Probe KB 1024 bytes KCS Keyboard Controller Style LAN Local Area Network LCD Liquid Crystal Display LED Light Emitting Diode LPC Low Pin Count LUN Logical Unit Number MAC Media Access Control MB 1024KB mBMC National Semiconductor© PC87431x mini
Glossary Intel® Server Board S2600CP and Server System P4000CP TPS® Term Definition SEL System Event Log SIO Server Input/Output SMI Server Management Interrupt (SMI is the highest priority nonmaskable interrupt) SMM Server Management Mode SMS Server Management Software SNMP Simple Network Management Protocol TBD To Be Determined TIM Thermal Interface Material UART Universal Asynchronous Receiver/Transmitter UDP User Datagram Protocol UHCI Universal Host Controller Interface UTC U
Intel® Server Board S2600CP and Server System P4000CP TPS Reference Documents Reference Documents See the following document for additional information: BIOS for EPSD Platforms Based on Intel® Xeon Processor E5-4600/2600/2400/1600 Product Families External Product Specification EPSD Platforms Based On Intel Xeon® Processor E5 4600/2600/2400/1600 Product Families BMC Core Firmware External Product Specification Intel® Remote Management Module 4 Technical Product Specification Intelligent Pla
