Intel® Server System H2000WP Family Technical Product Specification Intel order number: G52418-006 Revision 1.
Intel® Server System H2000WP Family TPS Revision History Revision History Date Revision Number January, 2012 1.0 April, 2012 1.1 Modifications Initial release. Updated Table 66 PCI Express* Slot Pinout on Riser Card. Updated System Level Environmental Limits. Updated node cooling fan redundancy features. Updated system Power Supply redundancy features. Updated environmental specifications with ASHRAE specification. Updated Processor TDP to conditional support 135W.
Intel® Server System H2000WP Family TPS Disclaimers Disclaimers INFORMATION IN THIS DOCUMENT IS PROVIDED IN CONNECTION WITH INTEL PRODUCTS. NO LICENSE, EXPRESS OR IMPLIED, BY ESTOPPEL OR OTHERWISE, TO ANY INTELLECTUAL PROPERTY RIGHTS IS GRANTED BY THIS DOCUMENT.
Table of Contents Intel® Server System H2000WP Family TPS Table of Contents 1. Introduction ........................................................................................................................1 1.1 Chapter Outline ......................................................................................................1 1.2 Server Board Use Disclaimer .................................................................................2 2. Product Overview .....................................
Intel® Server System H2000WP Family TPS 3.2.10 3.2.11 3.2.12 3.2.13 3.2.14 3.2.15 3.2.16 3.2.17 3.2.18 3.3 3.3.1 3.3.2 3.3.3 3.3.4 3.3.5 3.3.6 3.3.7 3.3.8 3.3.9 3.3.10 3.3.11 3.3.12 3.3.13 3.3.14 3.3.15 3.4 3.4.1 3.4.2 3.4.3 3.5 3.5.1 3.5.2 3.5.3 3.6 3.6.1 3.6.2 3.6.3 3.7 3.7.1 3.7.2 3.8 Revision 1.6 Table of Contents ElectroStatic Discharge Susceptibility ..................................................................24 Fast Transient/Burst ...........................................................
Table of Contents Intel® Server System H2000WP Family TPS 4. Cooling Sub-System.........................................................................................................36 4.1 Processor Heatsink ..............................................................................................36 4.2 Node cooling Fans ...............................................................................................37 4.3 Power Supply Fan ..............................................................
Intel® Server System H2000WP Family TPS Table of Contents 8.5 Reset BIOS Settings (J1D5) .................................................................................73 9. PCI Express* Riser Card and Assembly .........................................................................75 9.1 PCI Express* Riser for Slot 1 ...............................................................................75 9.1.1 Overview of PCI-Express Riser .....................................................................
List of Figures Intel® Server System H2000WP Family TPS List of Figures Figure 1. System Overview (Air Duct is removed) .......................................................................5 Figure 2. Compute Node Scheme (Rear View) ...........................................................................5 Figure 3. Fan Speed Control Structure ......................................................................................12 Figure 4. Intel® Server System H2312WP Drive Bay Overview .............
Intel® Server System H2000WP Family TPS List of Figures Figure 40. Hard Drive Carrier LED ............................................................................................61 Figure 41. Front Control Panel ..................................................................................................65 Figure 42. Jumper Locations and Functions..............................................................................69 Figure 43. PCI Express* Riser for Riser Slot 1 ........................
List of Tables Intel® Server System H2000WP Family TPS List of Tables Table 1. System Feature Set.......................................................................................................3 Table 2. System SKU matrix .......................................................................................................4 Table 3. Chassis Dimension (SKU: H2312WPJR).......................................................................5 Table 4. Chassis Dimension (SKU: H2216WPJR).................
Intel® Server System H2000WP Family TPS List of Tables Table 40. Node Fan Connector .................................................................................................42 Table 41. Main Power Output Connector ..................................................................................43 Table 42. Card Edge Connector Pinout .....................................................................................44 Table 43. AHCI SATA0 DOM Connector Pinout ....................................
List of Tables Intel® Server System H2000WP Family TPS Table 81. POST Error Beep Codes ...........................................................................................99 xii Intel order number: G52418-006 Revision 1.
Intel® Server System H2000WP Family TPS List of Tables Revision 1.
Intel® Server System H2000WP Family TPS 1. Introduction Introduction This Technical Product Specification (TPS) provides system specific information detailing the features, functionality, and high-level architecture of the Intel® Server System H2000WP family. You should also reference the Intel® Server Board S2600WP Family Technical Product Specification to obtain greater detail of functionality and architecture of the server board integrated in this server system.
Intel® Server System H2000WP Family TPS Introduction 1.2 Server Board Use Disclaimer Intel Corporation server boards support add-in peripherals and contain a number of high-density VLSI and power delivery components that need adequate airflow to cool. Intel® ensures through its own chassis development and testing that when Intel® server building blocks are used together, the fully integrated system will meet the intended thermal requirements of these components.
Intel® Server System H2000WP Family TPS 2. Product Overview Product Overview The Intel® Server System H2000WP family includes two major SKUs: H2312WP and H2216WP, which are rack mount 2U 4-node server systems, purpose-built for high-density and lowest total cost of ownership in dense computing applications, such as HPC and IPDC. The system is integrated with four units of Intel® Server Board S2600WP or S2600WPQ/S2600WPF, supports up to twelve 3.5" or sixteen 2.
Intel® Server System H2000WP Family TPS Product Overview Feature On-board Video Description Hard Disk Drive On-board Server Engines* LLC Pilot III Controller Integrated 2D Video Controller 128 MB DDR3 Memory 12x 3.5-inch SATA/SAS HDD bays (SKU: H2312WP) supported 16x 2.
Intel® Server System H2000WP Family TPS 2.1 Product Overview System Views A B C D Compute Node 3 Tray (upper left) Compute Node 1 Tray (lower left) Compute Node 4 Tray (upper right) Compute Node 2 Tray (lower right) E F G H Common Redundant Power Supply HDD bays with Hot Swap Backplane Upper and Lower Power Distribution Boards Front Control Panel Figure 1. System Overview (Air Duct is removed) Figure 2. Compute Node Scheme (Rear View) 2.2 System Dimensions Table 3.
Intel® Server System H2000WP Family TPS Product Overview Table 4. Chassis Dimension (SKU: H2216WPJR) Height 87.9mm 3.46" Width 438mm 17.24" Depth Weight 733mm Kg. 29 32 28.86" Lbs. 63.93 70.55 Chassis – basic configured (2 PSU, 0 drives) Chassis – fully configured (2 PSU, 16 drives) 2.3 System Level Environmental Limits The following table defines the Intel® Server Board S2600WP operating and non-operating environmental limits.
Intel® Server System H2000WP Family TPS Parameter Product Overview Limits Air Discharged 8.0 kV Contact Discharge 8.0 kV Operating -16 to 3048 m (-50 to 10,000 ft) Note: For altitudes above 2950 feet, the maximum operating temperature is derated 1°F/550 ft. Altitude Storage Acoustics Sound Power Measured – Air Flow Operation -16 to 10,600 m (-50 to 35,000 ft) – H2312xxKR: 8 to 41 CFM per node H2216xxKR: 8 to 61 CFM per node Power in Watts Servers/Rack Mount BA All range - 3.5" HDD SKU: 6.
Product Overview Intel® Server System H2000WP Family TPS The system can operate up to 40ºC (ASHRAE Class A3) for up to 900 hours per year o The system can operate up to 45ºC (ASHRAE Class A4) for up to 90 hours per year o System performance may be impacted when operating within the extended operating temperature range o There is no long term system reliability impact when operating at the extended temperature range within the approved limits Specific configuration requirements and limitations are document
Intel® Server System H2000WP Family TPS Product Overview Table 6. Ambient Temperature Versus System Configuration Notes: 1. 2. 3. 4. 5. 6. 7. 8. 25°C is limited to elevations of 900m or less Quad Port IO Modules cannot be installed simultaneously with PCI Cards. Processor - 130W-4C and 135W-8C may have some performance impact. Processors - There may be some performance impact during fan failures. For A3/A4 individual PS selection: i.
Intel® Server System H2000WP Family TPS Product Overview ® ® ● ® ® ● ● ● ● ● ● ● <-- see note 4 ® ® ● ● ● ● ● ● ● <-- see note 4 ® ® ● ● ● ● Intel Xeon processor E5-2690, 135w, 8C Intel Xeon processor E5-2637, 80w, 2C Intel Xeon processor E5-2603, E5-2609, 80w, 4C Memory Type (See note 6 and 7) Add-in Cards (See note 2) Module (See note 2) 2.3.
Intel® Server System H2000WP Family TPS 2.3.3 Product Overview Altitude This option is used to select the proper altitude that the system will be used in. Available settings include: [300m or less], [301m-900m], [901m-1500m], [Above 1500m]. Selecting an altitude range that is lower than the actual altitude the system will be operating at, can cause the fan control system to operate less efficiently, leading to higher system thermals and lower system performance.
Intel® Server System H2000WP Family TPS Product Overview Chipset Temperature Sensor 4, 6 On-board Ethernet Controller Temperature Sensors 4, 6 Add-In Intel® SAS/IO Module Temperature Sensors 4, 6 Power Supply Thermal Sensor 4, 9 Processor VR Temperature Sensors 4, 7 DIMM VR Temperature Sensors 4, 7 BMC Temperature Sensor 4, 7 Global Aggregate Thermal Margin Sensors 8 Notes: ® 1. For fan speed control in Intel chassis 2. For fan speed control in third party chassis 3.
Intel® Server System H2000WP Family TPS Product Overview ® Figure 4. Intel Server System H2312WP Drive Bay Overview ® Figure 5. Intel Server System H2216WP Drive Bay Overview 2.5 Server Board Overview The chassis is mechanically and functionally designed to support half-width server board, including Intel® Server Board S2600WP. The following sections provide an overview of the server board feature sets. ® Figure 6.
Intel® Server System H2000WP Family TPS Product Overview A Description 2x7 fan control connector I Description PCH C600-A Q Description Dual port 1GbE NIC chip Y Description SATA port 1 B CPU2 DIMM slots (8 total) J Riser Slot 2 (PCIe Gen3x16) R NIC port 2 Z Storage Upgrade key C Riser Slot 4 (PCIe Gen3x16) K Infiniband* QDR S NIC Port 1 AA CPU 1 D Riser Slot 3 (PCIe Gen3x16) L InfiniBand* status and Diagnostic LED T Serial Port A AB CPU 2 E CPU1 DIMM slots (8 total) M Q
Intel® Server System H2000WP Family TPS Product Overview Note: The Intel® Server System H2312WP and H2216WP requires the use of shielded LAN cable to comply with Emission/Immunity regulatory requirements. Use of non-shield cables may result in product non-compliance. A Diagnostic LED Group B QSFP Link/Activity LED Figure 9. Light-Guided Diagnostic LED Locations Revision 1.
Intel® Server System H2000WP Family TPS Product Overview 2.6 Front Bezel Support ® Intel Server System H2000WP family provides front panel bezel. The bezel provides protection to system HDD bays with a lock to chassis. The front view of the bezel is shown as below. Figure 10. System Bezel Front View 2.7 Rack and Cabinet Mounting Options The chassis was designed to support 19 inches wide by up to 30 inches deep server cabinets. The system bundles with the following Intel® rack mount option.
Intel® Server System H2000WP Family TPS 3. Power Sub-System Power Sub-System The system supports AC 1+1 hot swap power supply module and two power distribution board which can support 2U rack high density server system. Two different power supply units are supported: 1200W and 1600W. The single power supply module has Platinum level energy efficiency, demonstrating climate saver with silver rating. 3.
Intel® Server System H2000WP Family TPS Power Sub-System Table 8. Specification Data for AC Power Supply Unit Wattage Voltage Heat Dissipation Maximum Inrush Current 1200W/1600W (Energy Smart) 90 – 264 VAC, auto-ranging, 47 Hz-63 Hz 2560 BTU/hr Under typical line conditions and over the entire system ambient operating range, the inrush current may reach 65 A per power supply for 5 ms Platinum Platinum 80 Plus rating Climate Saver (CS) rating 3.1.
Intel® Server System H2000WP Family TPS Power Sub-System PSU Output Connector B18 +12V A18 +12V A19 PMBus* SDA B19 A0* (SMBus* address) A20 PMBus* SCL B20 A1* (SMBus* address) A21 PSON B21 12V STBY A22 SMBAlert# B22 Cold Redundancy Bus* A23 Return Sense B23 12V load share bus A24 +12V Remote Sense B24 No Connect A25 PWOK B25 CRPS Compatibility Check pin* *: Refer to the spec of CRPS: Common Requirements Specification. 3.1.
Intel® Server System H2000WP Family TPS Power Sub-System The power system overview is shown below: A Power Distribution Board 1 B Power Distribution Board 2 C Power Supply Unit #2 (upper) and #1 (lower) Figure 12. Power Cage Overview 3.1.9 Power Cage Output Pin Assignment The power cage provides +12V and +12V STB output to the system. Each PDB has two 2x9 power output cable to system backplane, together with one 2x8 signal control cable for power management.
Intel® Server System H2000WP Family TPS Power Sub-System A Main Power Output Connector P1 B Power Supply Unit Connector C Control Signal Connector D Main Power Output Connector P2 Figure 13. Power distribution board Table 12. Pin assignment of power output connector Pin Description Pin Description 1 GND 2 +12V 3 GND 4 +12V 5 GND 6 +12V 7 GND 8 +12V 9 GND 10 +12V 11 GND 12 +12V 13 GND 14 +12V 15 GND 16 +12V 17 GND 18 +12V Table 13.
Intel® Server System H2000WP Family TPS Power Sub-System Pin 3.2 3.2.1 Description Pin Description 5 PSON# 6 12V Load Share Bus 7 SMBAlert# 8 Cold Redundancy Bus 9 Return Sense 10 PWOK 11 +12V Remote Sense 12 Compatibility Bus 13 Reserved 14 +12VSB 15 +12VSB 16 Key Pin (removed) AC Input Specification Input Voltage and Frequency The power supply must operate within all specified limits over the following input voltage range.
Intel® Server System H2000WP Family TPS Power Sub-System Table 16. Platinum Efficiency Requirement Loading 100% of maximum 50% of maximum 20% of maximum 10% of maximum 91% 94% 90% 82% Minimum Efficiency 3.2.4 AC Line Fuse The power supply should have one line fused in the single line fuse on the line (Hot) wire of the AC input. The line fusing should be acceptable for all safety agency requirements. The input fuse should be a slow blow type.
Intel® Server System H2000WP Family TPS Power Sub-System The surge-withstand test must not produce damage to the power supply. The supply must meet surge-withstand test conditions under maximum and minimum DC-output load conditions. 3.2.8 Hot Plug Power supply must be designed to allow connection into and removal from the system without removing power to the system.
Intel® Server System H2000WP Family TPS 3.2.14 Power Sub-System AC Line Transient Specification AC line transient conditions should be defined as “sag” and “surge” conditions. “Sag” conditions are also commonly referred to as “brownout”; these conditions will be defined as the AC line voltage dropping below nominal voltage conditions. “Surge” will be defined to refer to conditions when the AC line voltage rises above nominal voltage.
Intel® Server System H2000WP Family TPS Power Sub-System Cable Type Wire Size SJT 16 AWG Temperature Rating 105ºC Amperage Rating 13 A Voltage Rating 125 V Figure 14. AC Power Cord Specification 3.3 3.3.1 DC Output Specification Output Power/Currents The following table defines the minimum power and current ratings. The power supply must meet both static and dynamic voltage regulation requirements for all conditions. Table 21.
Intel® Server System H2000WP Family TPS Power Sub-System Parameter Min Nom Max Unit Tolerance +12V STB +11.40V +12.000V +12.60V Vrms ±5% +12V +11.40V +12.000V +12.60V Vrms ±5% The combined output continuous power of all outputs should not exceed 3200W (1600W from each power supply unit). Each output has a maximum and minimum current rating shown in below table. The power supply must meet both static and dynamic voltage regulation requirements for the minimum dynamic loading conditions.
Intel® Server System H2000WP Family TPS Power Sub-System The power supply must be provided with a reliable protective earth ground. All secondary circuits should be connected to protective earth ground. Resistance of the ground returns to chassis must not exceed 1.0 mΩ. This path may be used to carry DC current. 3.3.8 Closed Loop Stability The power supply must be unconditionally stable under all line/load/transient load conditions including capacitive load ranges specified in Section 4.6.
Intel® Server System H2000WP Family TPS 3.3.14 Power Sub-System Forced Load Sharing The +12V output will have active load sharing. The output will share within 10% at full load. The failure of a power supply should not affect the load sharing or output voltages of the other supplies still operating. The supplies must be able to load share in parallel and operate in a hotswap/redundant 1+1 configurations. The 12VSBoutput is not required to actively share current between power supplies (passive sharing).
Intel® Server System H2000WP Family TPS Power Sub-System AC Input Tvout_holdup Vout Tpwok_low TAC_on_delay Tsb_on_delay PWOK 12Vsb Tpwok_off Tpwok_on Tsb_on_delay Tpwok_on Tpwok_holdup Tsb_vout Tpwok_off Tpson_pwok T5Vsb_holdup Tpson_on_delay PSON AC turn on/off cycle PSON turn on/off cycle Figure 15. Turn On/Off Timing (Power Supply Signals) 3.
Intel® Server System H2000WP Family TPS 3.4.1 Power Sub-System 1200W CRPS Cold Redundancy If the output power is less than 480W (40%), the Cold redundant function is enabled. You will see one PSU working normally. The second PSU will be in CR mode. The Power Supply LED will be blinking green. Table 27. 1200W CRPS Cold Redundancy Threshold Cold Standby 1 (02h) 3.4.2 Enable (V) Percent Power (W) Disable (V) Percent Power (W) 3.2 40.00% 480 (±5%) 1.44 18.
Intel® Server System H2000WP Family TPS Power Sub-System 3.5.1 PSON# Input Signal # The PSON signal is required to remotely turn on/off the power supply. PSON# is an active low signal that turns on the +12V power rail. When this signal is not pulled low by the system, or left open, the outputs (except the +12VSB) turn off. This signal is pulled to a standby voltage by a pull-up resistor internal to the power supply. Refer to the following table for the timing diagram. Table 30.
Intel® Server System H2000WP Family TPS Power Sub-System Table 32. SMBAlert# Signal Characteristics Signal Type (Active Low) Alert# = High Open collector/drain output from power supply. Pullup to VSB located in system. OK Alert# = Low MIN 0V Logic level low voltage, Isink=4 mA Logic level high voltage, Isink=50 µA Sink current, Alert# = low Sink current, Alert# = high Alert# rise and fall time 3.6 Power Alert to system MAX 0.4 V 3.
Intel® Server System H2000WP Family TPS Power Sub-System the power supply temperature drops to within specified limits, the power supply should restore power automatically, while the 12VSB remains always on. The OTP circuit must have built in margin, such that the power supply will not oscillate on and off due to temperature recovering condition. The OTP trip level must have a minimum of 4°C of ambient temperature margin. 3.
Intel® Server System H2000WP Family TPS 3.7.2 Power Sub-System Accuracy The sensor commands must meet the following accuracy requirements. The accuracies must be met over the specified ambient temperature and the full range of rated input voltage. Table 36.
Intel® Server System H2000WP Family TPS Cooling Sub-System 4. Cooling Sub-System The chassis cooling system contains the fan cooling sub-system of each node and common fan cooling in the power supply units. Both node fans and PSU fans work together as thermal solution to the chassis. For each node, several components and configuration requirements make up the cooling subsystem. These include processor heatsinks, chipset heatsinks, VR heatsinks, system fan module, CPU air duct, and drive bay population.
Intel® Server System H2000WP Family TPS Cooling Sub-System Figure 18. Processor Heatsink Overview Note: The passive heatsink is Intel® standard thermal solution for 1U/2U rack chassis. 4.2 Node cooling Fans The cooling subsystem for each node consists of three 40 x 40 x 56 dual rotor fan, and CPU air duct. These components provide the necessary cooling and airflow to the system node. To maintain the necessary airflow within the system, the air duct and the top cover must be properly installed.
Cooling Sub-System Intel® Server System H2000WP Family TPS replace the failed fan as soon as possible. However, the system design still reserves limited thermal margin to fan failure. The Intel® Server System H2216WP Family which supports up to 16 units of 2.5" storage drives does support optimal redundant cooling. Certain level of CPU throttling will occur during fan fail but the percent is below 1% which is considered to be acceptable from thermal perspective.
Intel® Server System H2000WP Family TPS Cooling Sub-System The fan connector pin-out definition is as follows: Table 37. 8-pin Connector Pin-Out for Node Dual Rotor Fans 4.
Cooling Sub-System Intel® Server System H2000WP Family TPS IMPORTANT NOTE: If the drive bay is missing or not fully populated, the system will not meet the thermal cooling requirements of the processor, which will most likely result in degraded performance as a result of throttling or thermal shutdown of the system. It is recommended to keep/apply the dummy plastic blocker (as shipped with HDD carrier) on any blank HDD carrier. 40 Intel order number: G52418-006 Revision 1.
Intel® Server System H2000WP Family TPS 5. System Boards in the Node Tray System Boards in the Node Tray The Node tray includes mother board, node docking board, bridge board, and node fan set. A B C D Node Docking Board Node Fan Set Bridge Board Baseboard Figure 21. Compute Node Tray Overview 5.1 5.1.1 Node Docking Board Overview of Node Docking Board The Node Docking Board provides hot swap docking of 12V main power between the compute node and the server.
System Boards in the Node Tray Intel® Server System H2000WP Family TPS The Node Docking Board implements the below features: Main 12V hot swap connectivity between compute node and chassis power. Current sensing of 12V main power for use with node manager. One 2x6pin mini-fit jr high current connectors for cabling to either the HW baseboard or a GPGPU card. Different cable lengths will be needed for the different depth HW baseboards.
Intel® Server System H2000WP Family TPS System Boards in the Node Tray Table 41. Main Power Output Connector Pin 1 2 3 4 5 6 5.2 5.2.1 Signal Description GND GND GND GND GND GND Pin 7 8 9 10 11 12 Signal Description P12V_HS P12V_HS P12V_HS P12V_HS P12V_HS P12V_HS Bridge Board Overview of Bridge Board The Bridge Board provides hot swap interconnect of all electrical signals to the backplane of the server chassis (except for main 12V power).
System Boards in the Node Tray Intel® Server System H2000WP Family TPS 5V_AUX power generated on HSBP and provided to the compute node. 3.3V power generated on HSBP and provided to bridge board to run SAS/SATA redrivers. Global PMBus* alert signal for CLST support. Four SMB bus interfaces: o SMBUS* R1 - For chassis temp sensor and chassis FRU EEPROM device. o SMBUS* R5 - Connectivity for up to two HSBP controllers and one shared 12V current monitoring device.
Intel® Server System H2000WP Family TPS Pin 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49 51 53 55 57 59 61 63 65 67 69 71 73 75 77 79 Signal Description SATA0_TXP GND NODE_PRESENT_N (GND) ALL_NODE_OFF spare GND IPMB-Data IPMB-Clk GND SMBUS_R1 DATA SMBUS_R1 CLK GND SMBUS_R5 DATA SMBUS_R5 CLK GND SMBUS_R7 DATA SMBUS_R7 CLK GND PMBUS Alert_N NODEx_ON_N SGPIO DATA IN SGPIO Data Out SGPIO LD SPKR GND SAS3_RX SAS3_RX GND SAS2_TX SAS2_TX GND SAS1_RX SAS1_RX GND SAS0_TX SAS0_TX GND P3V3 (HSBP
Intel® Server System H2000WP Family TPS System Boards in the Node Tray Pin 2 3 4 5 6 7 Signal Description SATA0_TXP SATA0_TXN GND SATA0_RXN SATA0_RXP P5V_SATA/GND Table 44. USB 2.0 Type-A Connector Pinout Pin 1 2 3 4 Signal Description P5V_USB USB2_P0N USB2_P0P GND Table 45. 5V_AUX Power Connector Pinout Pin 1 2 5.3 Signal Description GND P5V 6Gbs SAS Support Option 1 This bridge board is designed support 6Gbs SAS signal from internal SAS RAID card or SAS ROC.
Intel® Server System H2000WP Family TPS System Boards in the Node Tray Figure 25. SAS 6Gbs Bridge Board Overview This bridge board passes all electrical connectivity through a 2x40pin card edge hot swap interconnect between compute node/SAS RAID card and chassis backplane. The bridge board passes the follow features (per compute node) to the backplane of the server: 4x 6Gb SAS/SATA signals through Mini SAS port to HSBP drives. Two x4 lane 6Gb SAS/SATA re-drivers.
Intel® Server System H2000WP Family TPS System Boards in the Node Tray A 2x40 pin card edge connector (to backplane) B 2x40 pin card edge connector (to baseboard bridge slot) C 4-port Mini SAS Connector Figure 26. Connectors and components on Spare Bridge Board 5.3.2 Pinout definition on SAS 6Gbs Bridge Board The table below lists the connector pin definition on the Bridge Board. Table 46.
Intel® Server System H2000WP Family TPS Pin 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 Signal Name GND NODE_PRESENT_N ALL_NODE_OFF 3V3_AUX GND IPMB_DATA IPMB_CLK GND SMB_R1_DATA SMB_R1_CLK GND SMB_HSBP_DATA SMB_HSBP_CLK GND SMB_PMBUS_DATA SMB_PMBUS_CLK GND Pin 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 Signal Name N/C N/C GND N/C N/C GND LED_HDD_ACT_N FP_ACT_LED_N FP_LED_STSA_N FP_LED_STSG_N FP_PWR_LED_N FP_ID_LED_N FP_ID_BTN_R_N FP_RST_BTN_N FP_PWR_BTN_N FP_NMI_BTN__N SPA_SOUT System Board
System Boards in the Node Tray Intel® Server System H2000WP Family TPS Figure 27. Overview of the Bridge Board The main connectors on the bridge board are defined as follows. A 2x40 pin card edge connector (to backplane) B SATA DOM Connector C Auxiliary SATA DOM Power D 2x18 pin card edge connector (to SAS Controller) E 2x40 pin card edge connector ( to bridge slot on baseboard) Figure 28.
Intel® Server System H2000WP Family TPS Pin A6 A7 A8 A9 Signal Name SAS3_TX_P GND GND SAS2_RX_N Pin B6 B7 B8 B9 Signal Name SAS3_RX_N GND GND SAS2_TX_P System Boards in the Node Tray Pin A15 A16 A17 A18 Signal Name GND SAS0_RX_N SAS0_RX_P GND Pin B15 B16 B17 B18 Signal Name SAS0_TX_P SAS0_TX_N GND NC The pin definitions for the SATA DOM and Auxiliary Power connectors are the same as defined in Table 43 and Table 45. 5.4.
Intel® Server System H2000WP Family TPS System Boards in the Node Tray Pin A9 Signal Name Pin Signal Name Pin Signal Name Pin Signal Name RGMII_IBMC_RMM4_RX D_2 RGMII_IBMC_RMM4_RX D_1 RGMII_IBMC_RMM4_RX D_0 RGMII_IBMC_RMM4_RX _CTRL GND A34 B34 GND B35 GND A36 P3E_RX_DP< 3> P3E_RX_DN< 3> GND B36 A37 GND B37 A38 B38 RGMII_IBMC_RMM4_RX _CLK RGMII_IBMC_RMM4_M DC GND A39 B39 GND A40 P3E_RX_DP< 2> P3E_RX_DN< 2> GND P3E_TX_C_D P<3> P3E_TX_C_D N<3> GND B40 A41 GND B41 A42 B42 B43
Intel® Server System H2000WP Family TPS Pin System Boards in the Node Tray Signal Name Pin Signal Name Pin Pin Signal Name RGMII_IBMC_RMM4_T XD_3 GND A11 B36 RGMII_IBMC_RMM4_T X_CLK RGMII_IBMC_RMM4_T X_CTRL RGMII_IBMC_RMM4_ MDIO RST_P3E_N A13 RGMII_IBMC_RMM4_RX D_0 RGMII_IBMC_RMM4_RX _CTRL GND GND A36 B37 GND A37 B38 A38 A39 GND B40 P3E_RX_DP< 2> P3E_RX_DN< 2> GND P3E_TX_C_D P<3> P3E_TX_C_D N<3> GND RGMII_IBMC_RMM4_RX _CLK RGMII_IBMC_RMM4_M DC GND B39 A40 B41 GND A41 B42 A43
System Boards in the Node Tray Intel® Server System H2000WP Family TPS A RJ45 connector for 1GbE RGMII B LSI* 2308 SAS Controller C Riser Slot (with riser card installed) D Bridge Board Slot E HDD LED ACT Header F Mini SAS Connector 1 (Depop) G Mini SAS Connector 2 (Depop) H Voltage Regulator I RAID Key Header (Depop) J UART Debug Header Figure 30. SAS Controller Module Overview 54 Intel order number: G52418-006 Revision 1.
Intel® Server System H2000WP Family TPS 6. Hard Disk Drive Support Hard Disk Drive Support The server system provides two SKUs to support different types of Hard Disk Drives (HDD): H2312WP: Supports 12x 3.5" HDD H2216WP: Supports 16x 2.5" HDD 6.1 Hard Disk Drive Bays scheme The server system H2000 chassis can support up to twelve carrier-mounted SATA/SAS 3.5-inch hard disk drives, or sixteen carrier-mounted SATA/SAS 2.5-inch hard disk drives.
Intel® Server System H2000WP Family TPS Hard Disk Drive Support 6.2 Hard Drive Carrier There are two types of HDD carriers for two chassis SKUs respectively: Figure 33. 3.5-inch HDD Assembly Overview Figure 34. 2.5-inch HDD Assembly Overview Hot-swap drive carriers make insertion and extraction of the drive from the system very simple. Each type of drive carrier has its own latching mechanism, which is used to both insert and extract drives from the chassis and lock the carrier in place.
Intel® Server System H2000WP Family TPS Hard Disk Drive Support The following sections describe the feature and connections between the backplane and server board. 6.3.1 Backplane Feature set: Common HSBP Microcontroller Cypress* PSoC 1 part H2312WP Family: 12x SAS/SATA 3.5" HDDs at 6Gb/s SAS/SATA or slower speeds, divided into four groups of three hot swap hard drives. Each HDD group is associated with one of the four compute nodes respectively in the 2U chassis.
Intel® Server System H2000WP Family TPS Hard Disk Drive Support 6.3.2 Backplane Block Diagram Figure 35. Passive Backplane Block Diagram (for one node) 6.3.3 3.5” Hot Swap Backplane Connector scheme The following diagrams show the layout of major components and connectors for 3.5" Hot Swap backplane. A SATA/SAS connectors for Node 1 B SATA/SAS connectors for Node 2 C SATA/SAS connectors for Node 3 D SATA/SAS connectors for Node 4 Figure 36. 3.
Intel® Server System H2000WP Family TPS A 20-pin Front Panel cable connector for Node 2, 4 B 2-blade Compute Node Power connector for Node 4 C 2x40 pin Bridge Board connector for Node 4 D 2x9 pin Power supply input connector E 2x9 pin Power supply input connector F 2x7 pin Power Control cable connector G 2-blade Compute Node Power connector for Node 3 H 2x40 pin Bridge Board connector for Node 3 I 2x40 pin Bridge Board connector for Node 1 J 20-pin Front Panel cable connector for Node 1,
Intel® Server System H2000WP Family TPS Hard Disk Drive Support A SATA/SAS connectors for Node 1 B SATA/SAS connectors for Node 2 C SATA/SAS connectors for Node 3 D SATA/SAS connectors for Node 4 Figure 38. 2.
Intel® Server System H2000WP Family TPS 6.3.5 Hard Disk Drive Support Backplane LED Support The backplanes support both HDD online and activity/fault LEDs for each of the hard drive connectors. A light duct in HDD tray is used to conduct LED light to front panel. General HDD LED functionality is displayed below: Figure 40. Hard Drive Carrier LED The following tables list the LED functionality: Table 52.
Intel® Server System H2000WP Family TPS Hard Disk Drive Support Table 54. Backplane Input Power Connector Pin-out Pin 2 4 6 8 10 12 14 16 18 Signal Description P12V P12V P12V P12V P12V P12V P12V P12V P12V Pin 1 3 5 7 9 11 13 15 17 Signal Description GND GND GND GND GND GND GND GND GND 2. 2-Blade Compute Node Power Connector The backplane provides main power to compute node through 2-blade power connector. Table 55.
Intel® Server System H2000WP Family TPS Pin 23 25 27 29 31 33 35 37 39 41 43 45 47 49 51 53 55 57 59 61 63 65 67 69 71 73 75 77 79 Signal Description SMBUS_R1 DATA SMBUS_R1 CLK GND SMBUS_R5 DATA SMBUS_R5 CLK GND SMBUS_R7 DATA SMBUS_R7 CLK GND PMBUS Alert_N NODEx_ON_N SGPIO DATA IN SGPIO Data Out SGPIO LD SPKR GND SAS3_RX SAS3_RX GND SAS2_TX SAS2_TX GND SAS1_RX SAS1_RX GND SAS0_TX SAS0_TX GND 3.
Intel® Server System H2000WP Family TPS Hard Disk Drive Support Pin 12 13 14 15 16 17 18 19 20 Signal Description FP2_PWR_BTN_N FP2_RST_BTN_N FP2_ID_BTN_N P3V3SB FP2_PWR_LED_N FP2_HEALTH_LEDG_N FP2_HEALTH_LEDA_N FP2_ACTIVITY_LED_N FP2_ID_LED_N 5. 2x7 Pin Power Supply Control Signal Connector The backplanes provide power supply control signals, together with PMBus* functionality integrated. Table 58.
Front Panel Control and Indicators 7. Intel® Server System H2000WP Family TPS Front Panel Control and Indicators The Intel® Server System H2000WP family Front Control Panel is integrated with rack handles at the both sides of the chassis. Each control panel contains two sets of node control buttons and status LEDs. The control panel assembly is pre-assembled and fixed with the rack handles.
Intel® Server System H2000WP Family TPS 7.1 Front Panel Control and Indicators Control Panel Button The following table lists the control panel features and functions. The control panels features a system power button. Table 59. Front Control Button Function Feature Power Button with Power LED System ID Button with ID LED 7.2 Function Toggles the system power on/off. This button also integrates the power LED. Toggles between ID LED on and off.
Intel® Server System H2000WP Family TPS Front Panel Control and Indicators 7.2.1 Power/Sleep LED Table 61. Power LED Operation State Power Off Power On Power Mode Non-ACPI Non-ACPI LED Off Solid On S5 ACPI Off S1 Sleep ACPI Blink S0 ACPI Solid On Description System power is off and the BIOS has not initialized the chipset. System power is on but the BIOS has not yet initialized the chipset. Mechanical is off and the operating system has not saved any context to the hard disk.
Intel® Server System H2000WP Family TPS Color State Criticality 4. Amber Solid on Critical, nonrecoverable Front Panel Control and Indicators Description Minimum number of fans to cool the system are not present or have failed. Fatal alarm – system has failed or shutdown. BIOS Detected 1. DIMM failure when there is one DIMM present and no good 1 memory is present. 1 2. Run-time memory uncorrectable error in non-redundant mode. 3. CPU configuration error (for instance, processor stepping mismatch).
Intel® Server System H2000WP Family TPS Configuration Jumpers 8. Configuration Jumpers The following table provides a summary and description of configuration, test, and debug jumpers on the Intel® Server Board S2600WP, which is used in Intel® Server System H2000WP Family as Compute Node. Figure 42. Jumper Locations and Functions Revision 1.
Intel® Server System H2000WP FamilyTPS Configuration Jumpers Table 63.
Intel® Server System H2000WP Family TPS Configuration Jumpers position. You should only use this jumper setting when the standard firmware update process fails. This jumper should remain in the default/disabled position when the server is running normally. The server board has several 3-pin jumper blocks that can be used to configure, protect, or recover specific features of the server board. 8.
Intel® Server System H2000WP FamilyTPS Configuration Jumpers Steps to perform the password clear: 1. Power down server. Do not unplug the power cord. 2. Open the chassis. For instructions, refer to your server chassis documentation. 3. Move the jumper (J1F2) from the default operating position, covering pins 1 and 2, to the password clear position, covering pins 2 and 3. 4. Close the server chassis. 5. Power up the server, wait 10 seconds or until POST completes. 6. Power down the server. 7.
Intel® Server System H2000WP Family TPS Configuration Jumpers The user should then switch the recovery jumper back to normal operation and restart the system by performing a power cycle. The following steps demonstrate this recovery process: 1. Power OFF the system. 2. Insert recovery media. 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.
Intel® Server System H2000WP FamilyTPS Configuration Jumpers Note: Removing AC Power before performing the BIOS settings Clear operation causes the system to automatically power up and immediately power down, after the procedure is followed and AC power is re-applied. If this happens, remove the AC power cord again, wait 30 seconds, and re-install the AC power cord. Power-up the system and proceed to the BIOS Setup Utility to reset the desired settings.
Intel® Server System H2000WP Family TPS PCI Express* Riser Card and Assembly 9. PCI Express* Riser Card and Assembly Each compute node in Intel® Server System H2000WP Family includes four PCI Express* riser slots that accept dedicated PCI Express* x16 Gen3 Risers to support low profile add-in card and Intel® IO module. Only Riser Slot 1 and Riser Slot 2 are available for risers. Riser Slot 3 and 4 are hidden by bridge board.
Intel® Server System H2000WP FamilyTPS Pin Pin Name Description For wake on LAN PCI Express* Riser Card and Assembly Pin Pin Name A6 GPU_NODE_ON B6 3.
Intel® Server System H2000WP Family TPS PCI Express* Riser Card and Assembly Pin Pin Name Description Pin Pin Name Description B48 GND A48 PERxP7 Rx Lane 7+ B49 GND A49 PERxN7 Rx Lane 7- B50 PETxP8 Tx Lane 8+ A50 GND B51 PETxN8 Tx Lane 8- A51 GND B52 GND A52 PERxP8 Rx Lane 8+ B53 GND A53 PERxN8 Rx Lane 8- B54 PETxP9 Tx Lane 9+ A54 GND B55 PETxN9 Tx Lane 9- A55 GND B56 GND A56 PERxP9 Rx Lane 9+ B57 GND A57 PERxN9 Rx Lane 9- B58 PETxP10 Tx Lane 10+ A
Intel® Server System H2000WP FamilyTPS Pin-Side B 79 78 PCI Spec Signal HSON15 PCI Express* Riser Card and Assembly Pin-Side A 79 GND PCI Spec Signal 78 HSOP15 78 GND 77 GND 77 HSIN14 76 GND 76 HSIP14 75 HSON14 75 GND 74 HSOP14 74 GND 73 GND 73 HSIN13 72 GND 72 HSIP13 71 HSON13 71 GND 70 HSOP13 70 GND 69 GND 69 HSIN12 68 GND 68 HSIP12 67 HSON12 67 GND 66 HSOP12 66 GND 65 GND 65 HSIN11 64 GND 64 HSIP11 63 HSON11 63 GND 62 HSOP11 62 GND
PCI Express* Riser Card and Assembly Pin-Side B 33 9.2 9.2.
Intel® Server System H2000WP FamilyTPS PCI Express* Riser Card and Assembly Riser slot 2 on baseboard provides standard PCI Express* x16 Gen3 signals, together with specific power pins to support high-power Graphic/GPGPU add-in card. Note: Riser Slot 2 on baseboard only supports Intel® 1U/2U Risers. It will cause damage to any PCI-E based add-in card, which is directly plugged into the Riser Slot 2. The PCI-E slot on Riser is x16 mechanically with x8 electrically.
Intel® Server System H2000WP Family TPS PCI Express* Riser Card and Assembly LED Dedicated NIC Activity 9.2.2 Color Green Condition On Functionality LAN link and no access Green Blink LAN access Off Idle Pinout definition on Slot 2 Riser and IOM Carrier Below is a list of pin definition for Slot 2 Riser and IOM Carrier. Table 72.
Intel® Server System H2000WP FamilyTPS PCI Express* Riser Card and Assembly Side Even 126 124 122 120 118 116 114 112 110 108 106 104 102 100 98 96 94 92 90 88 86 84 82 80 78 76 74 72 70 68 66 Signal GND T04+ T04GND T05+ T05GND T06+ T06GND T07+ T07GND IB_T00+ IB_T00GND IB_T01+ IB_T01GND IB_T02+ IB_T02GND IB_T03+ IB_T03GND IB_T04+ IB_T04GND IB_T05+ IB_T05GND Side Odd 125 123 121 119 117 115 113 111 109 107 105 103 101 99 97 95 93 91 89 87 85 83 81 79 77 75 73 71 69 67 65 Signal R04+ R04GND R05+ R05GND R
Intel® Server System H2000WP Family TPS PCI Express* Riser Card and Assembly Side Even 30 28 26 24 22 20 18 16 14 12 10 8 6 4 2 Signal T11+ T11GND T12+ T12GND T13+ T13GND T14+ T14GND T15+ T15- Side Odd 29 27 25 23 21 19 17 15 13 11 9 7 5 3 GND Signal R11GND R12+ R12GND R13+ R13GND R14+ R14GND R15+ R15GND 1 Riser ID Riser ID Table 73. PCI Express* Slot Pinout on Riser Card Description Pin B1 Pin 12V Pin Name 20W 3.3V generated on riser A1 12V 20W 3.
Intel® Server System H2000WP FamilyTPS Pin Pin Name B25 GND B26 PETxP2 B27 PETxN2 B28 Description PCI Express* Riser Card and Assembly Pin Pin Name Description A25 PERxN1 Tx Lane 2+ A26 GND Tx Lane 2- A27 GND GND A28 PERxP2 Rx Lane 2+ B29 GND A29 PERxN2 Rx Lane 2- B30 PETxP3 Tx Lane 3+ A30 GND B31 PETxN3 Tx Lane 3- A31 GND B32 GND A32 PERxP3 Rx Lane 3+ B33 GND A33 PERxN3 Rx Lane 3- B34 PETxP4 Tx Lane 4+ A34 GND B35 PETxN4 Tx Lane 4- A35 GND B36 GN
Intel® Server System H2000WP Family TPS PCI Express* Riser Card and Assembly Pin Pin Name Description Pin Pin Name B68 GND B69 GND B70 PETxP13 Tx Lane 13+ B71 PETxN13 Tx Lane 13- B72 GND B73 GND B74 PETxP14 Tx Lane 14+ B75 PETxN14 Tx Lane 14- B76 GND B77 REFCLK+ Clock pair 2 B78 REFCLK- Clock pair 2 B79 GND B80 PETxP15 Tx Lane 15+ B81 PETxN15 Tx Lane 15- B82 GND A82 Riser ID Description A68 PERxP12 Rx Lane 12+ A69 PERxN12 Rx Lane 12- A70 GND A71 GND A
Intel® Server System H2000WP FamilyTPS Pin 86 Signal PCI Express* Riser Card and Assembly Pin Signal 45 PCIe Gen3 Tp [5] 46 PCIe Gen3 Rn [5] 47 GND 48 PCIe Gen3 Rp [5] 49 PCIe Gen3 Tn [4] 50 GND 51 PCIe Gen3 Tp [4] 52 PCIe Gen3 Rn [4] 53 GND 54 PCIe Gen3 Rp [4] 55 PCIe Gen3 Tn [3] 56 GND 57 PCIe Gen3 Tp [3] 58 PCIe Gen3 Rn [3] 59 GND 60 PCIe Gen3 Rp [3] 61 PCIe Gen3 Tn [2] 62 GND 63 PCIe Gen3 Tp [2] 64 PCIe Gen3 Rn [2] 65 GND 66 PCIe Gen3 Rp [2] 67 PCIe Gen3
Appendix A: Integration and Usage Tips Intel® Server System H2000WP Family TPS Appendix A: Integration and Usage Tips Before attempting to integrate and configure your system, you should reference this section, which provides a list of useful information. After the system is integrated with processors, memory, and peripheral devices, the FRUSDR utility must be run to load the proper Sensor Data Record data to the integrated Server Management subsystem.
Intel® Server System H2000WP Family TPS Appendix B: POST Code LED Decoder Appendix B: POST Code LED Decoder During the system boot process, the BIOS executes a number of platform configuration processes, each of which is assigned a specific hex POST code number. As each configuration routine is started, the BIOS displays the POST code to the POST Code Diagnostic LEDs on the back edge of the server board.
Intel® Server System H2000WP Family TPS Appendix B: POST Code LED Decoder Each POST code is represented by the eight amber diagnostic LEDs. The POST codes are divided into two nibbles, an upper nibble and a lower nibble. The upper nibble bits are represented by diagnostic LEDs #4, #5, #6, and #7. The lower nibble bits are represented by diagnostics LEDs #0, #1, #2, and #3. If the bit is set in the upper and lower nibbles, then the corresponding LED is lit.
Intel® Server System H2000WP Family TPS Appendix B: POST Code LED Decoder Table 78.
Intel® Server System H2000WP Family TPS Appendix B: POST Code LED Decoder Progress Code Description 0x07 Early SB initialization during Sec Phase 0x08 Early NB initialization during Sec Phase 0x09 End Of Sec Phase 0x0E Microcode Not Found 0x0F Microcode Not Loaded PEI Phase 0x10 PEI Core 0x11 CPU PEIM 0x15 NB PEIM 0x19 SB PEIM MRC Progress Codes At this point the MRC Progress Code sequence is executed See Table 78.
Intel® Server System H2000WP Family TPS Progress Code 92 Appendix B: POST Code LED Decoder Description 0x79 DXE CSM Init 0x90 DXE BDS Started 0x91 DXE BDS connect drivers 0x92 DXE PCI Bus begin 0x93 DXE PCI Bus HPC Init 0x94 DXE PCI Bus enumeration 0x95 DXE PCI Bus resource requested 0x96 DXE PCI Bus assign resource 0x97 DXE CON_OUT connect 0x98 DXE CON_IN connect 0x99 DXE SIO Init 0x9A DXE USB start 0x9B DXE USB reset 0x9C DXE USB detect 0x9D DXE USB enable 0xA1 DXE IDE
Intel® Server System H2000WP Family TPS Appendix B: POST Code LED Decoder Progress Code Description 0xB2 DXE Legacy Option ROM init 0xB3 DXE Reset system 0xB4 DXE USB Hot plug 0xB5 DXE PCI BUS Hot plug 0xB6 DXE NVRAM cleanup 0xB7 DXE Configuration Reset 0x00 INT19 S3 Resume 0xE0 S3 Resume PEIM (S3 started) 0xE1 S3 Resume PEIM (S3 boot script) 0xE2 S3 Resume PEIM (S3 Video Repost) 0xE3 S3 Resume PEIM (S3 OS wake) BIOS Recovery Revision 1.
Intel® Server System H2000WP Family TPS Appendix C: Video POST Code Errors Appendix C: Video POST Code Errors Whenever possible, the BIOS outputs the current boot progress codes on the video screen. Progress codes are 32-bit quantities plus optional data. The 32-bit numbers include class, subclass, and operation information. The class and subclass fields point to the type of hardware being initialized. The operation field represents the specific initialization activity.
Appendix C: Video POST Code Errors Intel® Server System H2000WP Family TPS 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 Processor 0
Intel® Server System H2000WP Family TPS Appendix C: Video POST Code Errors Error Code 8536 DIMM_H2 failed test/initialization Response Major 8537 DIMM_H3 failed test/initialization Major 8538 DIMM_J1 failed test/initialization Major 8539 DIMM_J2 failed test/initialization Major 853A DIMM_J3 failed test/initialization Major 853B DIMM_K1 failed test/initialization Major 853C DIMM_K2 failed test/initialization Major 853D DIMM_K3 failed test/initialization Major 853E DIMM_L1 failed te
Appendix C: Video POST Code Errors Intel® Server System H2000WP Family TPS Error Code 8561 Error Message DIMM_A2 encountered a Serial Presence Detection (SPD) failure Response Major 8562 DIMM_A3 encountered a Serial Presence Detection (SPD) failure 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 encount
Intel® Server System H2000WP Family TPS Appendix C: Video POST Code Errors Error Code 85CD DIMM_T1 failed test/initialization Response Major 85CE DIMM_T2 failed test/initialization Major 85CF DIMM_T3 failed test/initialization Major 85D0 DIMM_L3 disabled Major 85D1 DIMM_M1 disabled Major 85D2 DIMM_M2 disabled Major 85D3 DIMM_M3 disabled Major 85D4 DIMM_N1 disabled Major 85D5 DIMM_N2 disabled Major 85D6 DIMM_N3 disabled Major 85D7 DIMM_P1 disabled Major 85D8 DIMM_P2 disabl
Intel® Server System H2000WP Family TPS Appendix C: Video POST Code Errors Error Code A100 BIOS ACM Error Error Message Response Major A421 PCI component encountered a SERR error Fatal A5A0 PCI Express component encountered a PERR error Minor A5A1 PCI Express component encountered an SERR error Fatal A6A0 DXE Boot Services driver: Not enough memory available to shadow a Legacy Option ROM. Minor POST Error Beep Codes The following table lists POST error beep codes.
Intel® Server System H2000WP Family TPS Glossary Glossary Term ACPI Advanced Configuration and Power Interface AP Application Processor APIC Advanced Programmable Interrupt Control ASIC Application Specific Integrated Circuit ASMI Advanced Server Management Interface BIOS Basic Input/Output System BIST Built-In Self Test BMC Baseboard Management Controller Bridge Circuitry connecting one computer bus to another, allowing an agent on one to access the other BSP Bootstrap Processor Byte
Intel® Server System H2000WP Family TPS Glossary Term 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 MCH Memory Controller Hub MD2 Message Digest 2 – Hashing Algorithm MD5 Message Digest 5 – Hashing Algorithm –
Intel® Server System H2000WP Family TPS SMI Term Definition Server Management Interrupt (SMI is the highest priority non-maskable interrupt.
Intel® Server System H2000WP Family TPS Reference Documents Reference Documents Refer to the following documents for additional information: Intel® Server Board S2600WP Technical Product Specification (Intel® Order Code: G31608) ACPI 3.0: http://www.acpi.info/spec.htm IPMI 2.0 Data Center Management Interface Specification v1.0, May 1, 2008: www.intel.com/go/dcmi PCI Bus Power Management Interface Specification 1.1: http://www.pcisig.com/ PCI Express* Base Specification Rev 2.
