Inspur NF5260FM6 User Manual
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Inspur NF5260FM6 User Manual

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Inspur Server NF5260FM6
User Manual
Document Version: V1.0
Release Date: 2021/05/28

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Summary of Contents for Inspur NF5260FM6

  • Page 1 Inspur Server NF5260FM6 User Manual Document Version: V1.0 Release Date: 2021/05/28...
  • Page 2 All the other trademarks or registered trademarks mentioned herein are the property of their respective holders. Security Statement Inspur is intensely focused on the product safety of servers and has placed a high priority on this. For better understanding of this product, carefully read through the following security risk statements.
  • Page 3 This manual is only used as a guide. Inspur shall not be liable for any damage, including but not limited to loss of profits, loss of information, interruption of business, personal injury, or any consequential damage incurred before, during, or after the use of our products.
  • Page 4 Please install the product-compatible operating system and use the  driver that comes with the server or provided by Inspur. You can go to our official site, on the Top Navigator, click on Support > Product Support > Drivers, and then find the correct driver of your product based on the prompt.
  • Page 5 BIOS and BMC settings are critical to configuring your server. Unless you  have specific requirements, always use the factory defaults. Do not make unauthorized modifications. Change the BMC password the first time you log in. Symbol Conventions The symbols that may be found in this document are defined as follows. Symbol Description A potential for serious injury, or even death if not...

  • Page 6: Table Of Contents

    Table of Contents Safety Instructions ..................1 Warnings ......................1 Precautions ..................... 2 Product Specifications ................5 Introduction ....................5 2.1.1 Features ....................5 2.1.2 9 × 3.5” Configuration ................6 2.1.3 16 × 2.5” Configuration ................. 6 Features and Specifications ................6 Power Efficiency ....................
  • Page 7 Hardware Components ................25 Introduction ....................25 Processor Components ................. 25 DIMM Components ..................28 5.3.1 How to Populate DIMMs ..............28 5.3.2 DIMM Installation Procedure ............... 29 Hot-swap Drive Components ................ 30 Redundant Hot-Swap Power Supply Components ........31 Expansion Card Components ................
  • Page 8 Battery Replacement ................48 Electrostatic Discharge (ESD) ..............49 ESD Prevention ....................49 Anti-ESD Grounding Methods ................ 49 Server Entrance and Runtime Environment Requirements ......50 Ambient Temperature ................... 50 Reliability ...................... 50 Altitude and Atmospheric Pressure ............... 51 Alternating Temperature and Humidity............51 Extended Operating Temperature ..............

  • Page 9: Safety Instructions

    The power supply units of this system may generate a high voltage and dangerous energy that can result in personal injury. Without the permission of Inspur, do not remove the chassis cover to install, remove, or replace any components in the system. Such work can only be performed by a qualified technician who has been trained by Inspur.

  • Page 10: Precautions

    Before using the product, please carefully read the following precautions to avoid the issues that may cause component damage or data loss. Disconnect the product's power cable from the power socket and contact Inspur Customer Service under any of the following circumstances.
  • Page 11 Close the cover, connect the system's power cable, and power on the system. d. If it cannot operate normally, contact Inspur for support. The wiring layout should ensure that the system cables and power cables will not be stepped on or knocked off. Do not place any objects on the cables.
  • Page 12 b. Allow the product to cool down before removing the chassis cover or touching inner components. c. Discharge static electricity from your body by touching a grounded metal object before installing, removing, or touching any electronic components inside the device. d.

  • Page 13: Product Specifications

    Product Specifications Introduction Inspur NF5260FM6 is a 2U2S rack server built on the new generation Intel Xeon ® ® Scalable processors, which maintains high quality and reliability of Inspur servers. It is designed to maximize the performance, storage capacity, and expansion...

  • Page 14: 3.5" Configuration

    2.1.2 9 × 3.5” Configuration A 3.5” drive tray can accommodate 3.5”/2.5” drives. 9 front 3.5”/2.5” SAS/SATA drives are supported, as shown below. Figure 2-1 9 × 3.5” Configuration 2.1.3 16 × 2.5” Configuration Figure 2-2 16 × 2.5” Configuration Features and Specifications Time to 2021...
  • Page 15 Type DDR4 Registered, NVDIMM, and Barlow Pass DIMM Slots Total Capacity Up to 2 T with 64 G per module (excluding BPS) USB Port 2 USB 3.0 ports VGA Port 1 front VGA port I/O Port Serial Port 1 front serial port UID LED 1 rear UID button with LED Display...
  • Page 16 redundant (1+1) PSUs with PMBus support and Node Manager 4.0 See the power input value labeled on the Power Input nameplate of the chassis outer surface. Packaging 780 mm in length: 295 mm × 651 mm × 1031 mm (h × w × d) Chassis 780 mm in length: 87 mm ×...

  • Page 17: Power Efficiency

    Storage: 40 G square wave at 156”/sec along  the positive and negative X-/Y-/Z-axis Power Efficiency Table 2-1 Platinum Power Supply @10% @20% @50% @100% PF@50% Rated Vendor Module Load Load Load Load Load Power DELTA_M_DPS- 800 W 800AB- 58A_800W_1U_P DELTA_M_DPS- 1300 W 1300AB-...
  • Page 18 Table 2-2 EU Regulation 2019/424 Server configurations EU Regulation 2019/424 High-end performance Low-end Server configurations configuration performance configuration (h)idle state power 218.3 183.1 393.68 184.53 (i)list of all components for additional idle power allowances, if any (additional PSU, HDDs or SSDs, additional memory, additional buffered DDR channels, additional I/O devices);...
  • Page 19 (i) List of components for additional power High-end Low-end allowance performance performance configuration configuration Additional I/O < 1 Gb/s: No Allowance devices = 1 Gb/s: 2,0 W/Active Port > 1 Gb/s and < 10 Gb/s: 4,0 W/Active Port ≥ 10 Gb/s and < 25Gb/s: 15,0 W/Active Port ≥...

  • Page 20: Component Description

    Component Description Front Panel Components 3.1.1 9 × 3.5” Bays Figure 3-1 9 × 3.5” Configuration at Front Panel Item Power Button Drive Bay × 9 PCIe0 Slot PCIe1 Slot PCIe2 Slot VGA Port USB 3.0 Port × 2 Mounting Ear Handle OCP 3.0 NIC RJ45 Network Interface UID Button...

  • Page 21: 2.5" Bays

    3.1.2 16 × 2.5” Bays Figure 3-2 16 × 2.5” Configuration at Front Panel Item Power Button Drive Bay × 16 PCIe0 Slot PCIe1 Slot PCIe2 Slot VGA Port USB 3.0 Port × 2 Mounting Ear Handle OCP 3.0 NIC RJ45 Network Interface UID Button System Status LED...

  • Page 22: Drive Tray Leds

    Symbol and Item Description Convention System Status Off = Normal  Solid red = Error  Flashing red = Warning  3.1.4 Drive Tray LEDs Figure 3-4 Drive Tray LEDs Item Description Solid red = Drive error or failed  Drive Fault LED Solid blue = Drive is being located ...

  • Page 23: Rear Panel

    Rear Panel Figure 3-5 Rear Panel Item Fan Slot × 4 PSU0 PSU1 In-depth Detection Switch PSUs...

  • Page 24: Mainboard Layout

    Mainboard Layout Figure 3-6 Mainboard Item Item Riser Power Connector FAN3 LED Connector OCP Power Connector FAN3 Connector OCP 3.0 Connector FAN2 LED Connector USB1/2 Port FAN2 Connector NSCI Connector FAN1 LED Connector (Smart NIC/OCP3.0) M.2_Riser Slot FAN1 Connector...
  • Page 25 Item Item Slimline Slot × 8 FAN0 LED Connector Rear Riser0 Slot Slimline Slot × 4 (SATA4 - 7) Rear Riser0 Power Connector Slimline Slot × 4 (SATA0 - 3) FAN0 Connector Slimline Slot × 4 (sSATA2 - 5) Rear Riser1 Power Connector HDD BP2 Connector Liquid Connector ×...

  • Page 26: Cmos Clear Jumper

    3.3.1 CMOS Clear Jumper Turn off the server and disconnect the power source before clearing the CMOS. Wait for 5 seconds after shorting the Pin2 and Pin3. Then short the Pin1 and Pin2 of the CLR_CMOS jumper via the jumper cap to restore to the default setting. For details about the location of the jumper, see 3.3 Mainboard Layout.
  • Page 27 Item Top: PCIe0/1/2 Slot Bottom: OCP 3.0 NIC Drive Bay × 9...

  • Page 28: Operation

    Operation Powering the Server On Plug in the power plug and press the power button. Powering the Server Off To reduce the risk of personal injury, electric shock, or server damage, unplug the power plug to disconnect the server from the power supply. Pressing the power button on the front panel does not fully turn off the server.

  • Page 29: Removing The Server Top Cover

    Figure 4-1 Pulling the Server Out After installation or maintenance, push the server into the rack until it is seated in place. Removing the Server Top Cover Do not touch the drive and internal system components before they cool down to prevent injuries caused by overheating on the server surface.

  • Page 30: Installing The Server Top Cover

    Figure 4-2 Removing the server top cover Installing the Server Top Cover Open the cover locker, align the server top cover with the server installation slot and lower it vertically. Slide the server top cover into the closed position and snap the cover locker downward.

  • Page 31: Installing The Pcie Riser Assembly

    Figure 4-3 Removing the PCIe riser assembly Installing the PCIe Riser Assembly Power off the server. Pull the server out of the rack. Remove the server top cover. Install the PCIe riser assembly. Install the server top cover. Install the server into the rack. Power on the server.
  • Page 32 Figure 4-4 Removing the air director...

  • Page 33: Hardware Components

    Hardware Components Introduction Do not touch the drive and internal system components before they cool down to prevent injuries caused by overheating on the server surface. To prevent damage to electronic components, properly ground the server before starting any installation steps. Improper grounding may cause electrostatic discharge.
  • Page 34 Remove the heatsink. Install the processor as follows: Be sure to evenly coat the contacts with thermal grease between the CPU  and the heatsink. When securing the heatsink, tighten the screws sequentially.  a. Align the clip triangle mark with the corner mark on the CPU, and assemble the clip and the CPU together.
  • Page 35 Figure 5-2 Installing the heat dissipation module c. Install the assembled heat dissipation module vertically on the CPU base, and make sure that the position of the numeral 1 on the heat dissipation module label corresponds to the triangle mark on the CPU base of the mainboard.

  • Page 36: Dimm Components

    DIMM Components Figure 5-4 DIMM slot layout 5.3.1 How to Populate DIMMs RDIMMs cannot be inserted together with LRDIMMs.  Mixed insertion of BPSs is not supported.  BPSs cannot be inserted together with RDIMMs or LRDIMMs.  BPSs need to be used together with normal DIMMs. In the following table, "D" represents DDR4 DIMMs, and "B"...

  • Page 37: Dimm Installation Procedure

    DIMM installation sequence for dual-CPU configuration Table 5-2 DIMM installation sequence for dual-CPU configuration CPU0 CPU1 DDR4 D0 D1 D0 D1 D0 D1 D0 D1 D0 D1 D0 D1 D0 D1 D0 D1 D0 D1 D0 D1 D0 D1 D0 D1 D0 D1 D0 D1 D0 D1 D0 D1 Mixed DIMM and BPS installation sequence for single-CPU configuration Table 5-3 Mixed DIMM and BPS installation sequence for single-CPU configuration...

  • Page 38: Hot-Swap Drive Components

    Figure 5-5 Installing a DIMM Hot-swap Drive Components For proper cooling, do not run the server without the server top cover, air directors, expansion slot covers, or blanks installed. If the server supports hot- swap of components, avoid frequently opening the top cover of the server. Determine the drive operating status by hot-swap drive tray LEDs.

  • Page 39: Redundant Hot-Swap Power Supply Components

    Figure 5-7 Pulling out the drive tray c. Secure the drive to the tray with four drive screws. Figure 5-8 Securing the drive d. Install the drive into the server and secure the drive wrench. Redundant Hot-Swap Power Supply Components Do not touch the server before the power source or the blank filler of the power source cools down to prevent injuries caused by hot surfaces.
  • Page 40 To avoid damage caused by insufficient heat dissipation and high temperature, make sure that all the trays are equipped with components or blank fillers before you run the server. Remove the blank fillers. Install the power module in the power connector. Figure 5-9 Installing the power module Connect the power cable to the power supply.

  • Page 41: Expansion Card Components

    Expansion Card Components To avoid damage to the server or expansion card, power off the server and  remove all AC power plugs before removing or installing the PCIe riser assembly. For proper cooling, do not run the server without the server top cover, air ...

  • Page 42: Air Director Components

    Pull out the expansion card in the direction of the arrow and replace it with a new one. Figure 5-12 Pulling out the expansion card Air Director Components Do not touch the server before the server surface cools down to prevent injuries caused by hot surfaces.

  • Page 43: Fan Module Components

    Figure 5-13 Removing the air director Fan Module Components Be sure to wear work gloves during operation to avoid scratches by sharp parts on the device. Determine the installation slot of the fan module. You can install up to four fan modules.
  • Page 44 Figure 5-16 Installing the fan module Repeat steps 2-3 to install the remaining fan modules.

  • Page 45: Cabling

    Cabling Route cables based on the configuration of the server you purchased. Route the SATA/PCIe cables of the 9HDD backplane as shown by the blue lines  below to connect to the SATA/PCIe interfaces on the mainboard. Route the power cable of the 9HDD backplane as shown by the red lines below ...

  • Page 46: Firmware Upgrade And Configuration

    Firmware Upgrade and Configuration For more information about how to upgrade and configure the firmware, see the following manuals: BIOS User Manual  BIOS Upgrade Manual  BMC User Manual  BMC Configuration Manual  BMC Upgrade Manual  BMC Log Collection and Analysis Guide ...

  • Page 47: Fault Diagnosis And Troubleshooting

    PSU is faulty. If the PSU LED turns green but the power LED remains orange, please contact Inspur at 1-844-860-0011 (toll-free)/1-760-769-1847 (DID) or email us at serversupport@inspur.com. All PSU LEDs are green a.

  • Page 48: No Display After Powering-On

    ) to check whether the display is normal. If the KVM can be displayed normally, the VGA port of the mainboard may be abnormal. Please contact the customer service of Inspur. If the KVM cannot be displayed normally, record the specific alarm information.

  • Page 49: Stuck On Self-Test Or Other Screens Upon Boot

    If none of the preceding operations can resolve the problem, call Global Service Hotline 1-844-860-0011 (toll-free)/1-760-769-1847 (DID) or email us at serversupport@inspur.com to inform the specific alarm and problem. 8.1.4 Stuck on Self-test or Other Screens Upon Boot Description: After the power button was pressed, the server failed to boot properly but was stuck on the self-test or other screens.

  • Page 50: Abnormal Drive Status Leds

    If the drives are found offline or none of the preceding operations can resolve the problem, call Global Service Hotline 1-844-860-0011 (toll- free)/1-760-769-1847 (DID) or email us at serversupport@inspur.com. Hot-swap drives allow users to remove or replace drives without shutting ...

  • Page 51: Excessive Noise From Chassis Fans

    GUI to view if all the fans are identified properly and in automatic control. f. If none of the preceding operations can resolve the problem, call Global Service Hotline 1-844-860-0011 (toll-free)/1-760-769-1847 (DID) or email us at serversupport@inspur.com. 8.1.8 Server Alarm Ringing Description: The alarm rang when the server booted or was running.

  • Page 52: Keyboard And Mouse Not Work

    USB drivers for the OS may be abnormal; if not, the mainboard ports may be faulty. Please call Global Service Hotline 1-844-860-0011 (toll-free)/1-760-769-1847 (DID) or email us at serversupport@inspur.com. 8.1.10 USB Port Problem Description: Devices with USB ports are unavailable.

  • Page 53: Faq About System Software

    If you cannot load the RAID driver when you install the OS, please make sure that you use the correct RAID driver. To download the RAID driver that is configured for the server, go to the official website of Inspur: https://en.inspur.com. You may need to load some RAID drivers multiple times.

  • Page 54: Error While Installing Operating System Via Pxe

    If none of the preceding operations can resolve the problem, call Global Service Hotline 1-844-860-0011 (toll-free)/1-760-769-1847 (DID) or email us at serversupport@inspur.com. 8.2.3 Memory Capacity Error Description: The memory capacity shown in the OS is inconsistent with the physical memory capacity.

  • Page 55: System Network Error

    If the network is normal, check whether the network cable or switch port is normal. If the network error persists in the direct connection, go to the official website of Inspur https://en.inspur.com to download the latest NIC driver.

  • Page 56: Battery Replacement

    Battery Replacement If the server clock displays wrong date and time, you may need to replace the battery with one that supplies power for a real-time clock. Improper use of the battery pack may cause fire and burns. To reduce the risk of personal injury: Do not try to recharge the battery.

  • Page 57: Electrostatic Discharge (Esd)

    Electrostatic Discharge (ESD) ESD Prevention To avoid damage to the system, take necessary preventive measures when you install the system or pick up and place components. The static electricity that flows from fingers or other conductors may damage the mainboard or other ESD- sensitive devices.

  • Page 58: Server Entrance And Runtime Environment Requirements

    Server Entrance and Runtime Environment Requirements Ambient Temperature Table 11-1 Ambient Temperature Item Status Specifications 10°C to 35°C (50 F to 95 Continuous operation Transportation (Storage) –40°C to +70°C (–40 F to +158 Temperature Maximum temperature 20°C/h (68 F/h) gradient (operation and storage) Relative humidity: 5% to 90%.

  • Page 59: Altitude And Atmospheric Pressure

    Altitude and Atmospheric Pressure Table 11-3 Altitude and Atmospheric Pressure Item Status Specifications Operating 0 to 3,048 m (10,000 feet) Altitude Transportation (Storage) 0 to 12,192 m (40,000 feet) Alternating Temperature and Humidity Table 11-4 Alternating Temperature and Humidity Item Status Specifications Relative humidity: 5% to 90%.

  • Page 60: Cooling Limits

    Only specified types of PCIe cards are supported.  PCIe SSDs are not supported.  NVDIMMs are not supported.  Middle drives are not supported.  Rear drives are not supported.  GPU configuration is not supported.  Cooling Limits Table 11-6 Cooling Limits Configuration Front...
  • Page 61 Biological Conditions Animals and plants are strictly prohibited in the server room. This prevents rats and ants from causing damage to the device. To meet the requirements, you must take the following measures for the server room: Make sure that the humidification system (if any) in the server room is safe. ...
  • Page 62 ANSI/ISA-71.04-2013 Environmental Conditions for Process Measurement and  Control Systems: Airborne Contaminants classifies gaseous corrosivity levels into G1 (mild), G2 (moderate), G3 (hash), and GX (severe). Table 11-8 shows the Gaseous Corrosivity Levels per ANSI/ISA-71.04-2013. Table 11-8 Gaseous Corrosivity Levels per ANSI/ISA-71.04-2013 Gaseous Copper Silver Reactivity...
  • Page 63 Corrosive Gas Unit Concentration Group Hydrogen < 1 fluoride (HF) Ammonia < 500 Group B Ozone (O < 2 a: Parts per billion (ppb) is a unit of concentration, and 1 ppb represents 1 part per billion. The corrosive gases in Group A or Group B in Table 11-9 are common in data centers.

  • Page 64: Electromagnetic Requirements

    Electromagnetic Requirements Table 11-11 lists the electromagnetic requirements per GB/T 17626.3 (IEC 61000-4-3), GB/T 17626.6 (IEC 61000-4-6), and GB/T 17626.8 (IEC 61000-4-8). Table 11-11 Electromagnetic Requirements Electromagnetic Phenomenon Specification Power frequency Frequency (Hz) magnetic field A/m (root-mean-square value) Amplitude- Frequency (MHz) 80 to 1000 modulated RF V/m (root-mean-square...

  • Page 65: Power Supply Requirements

    Figure 11-1 Safety protection from fan blades Caution: Keep your body away from fan blades. b. Safety protection from multiple power supplies Figure 11-2 Safety protection from multiple power supplies Caution: Shock Hazard! Disconnect all power supply cords before servicing. Power Supply Requirements The following describes the power supply requirements for running the system.

  • Page 66: Requirements For Dc Power Supply

    restart or resetting of devices. 11.10.2 Requirements for DC Power Supply DC power supply should operate at the nominal voltage of 240 V DC. 11.10.3 Considerations on AC Power Supply During the use of AC power supplies: Use a voltage stabilizer or voltage regulator to respond to voltage fluctuations. ...

  • Page 67: Considerations On Hvdc Power Supply

    Vibration resistance: withstands a sinusoidal vibration with a frequency  between 10 Hz to 55 Hz and amplitude of 0.35 mm. Battery capacity: ensures the UPS backup time supports the power supply to  servers when the cabinet is fully loaded. The battery backup time should be 15 minutes if a diesel generator is used as the source of power supply.

  • Page 68: Dc Power Supply

    A front-end surge protector should be installed in the power supply system to  protect the system against a voltage surge of 10/700 us, 5 kV and a current surge of 8/20 us, 20 kA. All cables in the power distribution frame (PDF) should comply with YD/T 1173- ...

  • Page 69: Service Terms

    Service Terms Please visit Inspur official website at https://en.inspur.com/ and navigate to Support > Support Center > Warranty & Configuration, and enter the product model, part model, serial number or keywords to learn relevant information and check the warranty status and configuration of related product. You can also call our global service hotline 1-844-860-0011 (toll-free)/1-760-769-1847 (DID) to consult about relevant server by model or serial number.

  • Page 70: Appendices

    Appendices Reference Tables of Neodymium Content in HDDs Table 13-1 Reference Range of Neodymium Content in Seagate HDDs Neodymium Content Range Product Series Name < 5 g 5 g - 25 g > 25 g Cimarron √ (2 T/4 T) Cimarron √...

  • Page 71: Glossary

    Table 13-3 Reference Range of Neodymium Content in Toshiba HDDs Neodymium Content Range Product Series Name < 5 g 5 g - 25 g > 25 g AL14SE-Lite √ AL15SE √ AL14SX √ MG04 Tomcat-R SAS √ MG04 Tomcat-R SATA √...
  • Page 72 Barlow Pass This Intel's next generation persistent memory module offers an unprecedented memory capacity and allows access to persistent data at the fastest rate. BTU/hr British Thermal Unit Per Hour, which is a unit of heat input. CPLD Complex Programmable Logic Device A digital integrated circuit that can build logic functions as needed.
  • Page 73 Gigabit Ethernet It is an extension and enhancement of traditional shared media Ethernet standards. It is compatible with 10 M and 100 M Ethernet and complies with IEEE 802.3z standards. Intel ME Intel Management Engine It is a microprocessor that runs independently of CPU and operating system in Intel chips.
  • Page 74 MAC Address Media Access Control Address MAC address, also known as LAN address, MAC bit address, Ethernet address or physical address, is used to locate each device on a given network. MAC address is used to uniquely identify a NIC in the network. If a device has one or more NICs, each NIC requires and has a unique MAC address.
  • Page 75 PCIe Peripheral Component Interconnect express A type of PCI computer bus that uses existing PCI programming concepts and communication standards, but is based on a faster serial communication system. The high-speed PCIe can replace almost all existing internal buses, including AGP and PCI.
  • Page 76 System Event Log Immutable storage regions and interfaces that are used to store system event information for fault diagnosis and system recovery. Server A special computer that provides various services for clients in the network environment. Slimline Slimline Connector To provide higher-speed and smaller-size solution on networking equipment and server, Amphenol developed a SlimSAS low-profile connector that conforms to the SFF-8654 specification, which is mainly used in application of UPI1.0,...

  • Page 77: Abbreviations

    Abbreviations Alternating Current ACPI Advanced Configuration and Power Management Interface Advanced Encryption Standard New Instruction Set Artificial Intelligence ANSI American National Standards Institute Active Optical Cables Application Program Interface Address Resolution Protocol Approved Vendor List BIOS Basic Input Output System Baseboard Management Controller Conformite Europeenne Command-Line Interface...
  • Page 78 Direct Current DDR4 Double Data Rate 4 Dhcp Dynamic Host Configuration Protocol DIMM Dual-Inline-Memory-Modules Domain Name System Digital Video Disc Failure Mode Analysis Field-Replaceable Unit File Transfer Protocol Firmware Graphics Processing Unit Graphical User Interface Host Bus Adapter Host Channel Adapter Hard Disk Drive HTML Hyper Text Markup Language...
  • Page 79 Input/Output InfiniBand International Electrotechnical Commission IOPS Input/Output Operations Per Second Internet Protocol IPMB Intelligent Platform Management Bus IPMI Intelligent Platform Management Interface Interrupt ReQuest iSCSI Internet Small Computer System Interface JTAG Joint Test Action Group Keyboard Video Mouse Local Area Network Liquid Crystal Display Light Emitting Diode LRDIMM...
  • Page 80 NEMA National Electrical Manufacturers Association NFPA National Fire Protection Association Network Interface Controller Network Processing Unit Network Time Protocol NVDIMM Non-Volatile Dual In-Line Memory Module NVMe Non-Volatile Memory Express Open Compute Project Operating System Platform Controller Hub Peripheral Component Interconnect PCIe Peripheral Component Interconnect express Power Distribution Unit...
  • Page 81 Random-Access Memory RAID Redundant Arrays of Independent Drives RDIMM Registered Dual In-line Memory Module Relative Humidity Read-Only Memory Real Time Clock Serial Attached SCSI SATA Serial Advanced Technology Attachment SCSI Small Computer System Interface Small Form-factor Pluggable Smart Interface Card Stock Keeping Unit SMTP Simple Mail Transfer Protocol...
  • Page 82 TPCM Trusted Platform Control Module Trusted Platform Module UEFI Unified Extensible Firmware Interface User Identification Ultra Path Interconnect Uninterruptible Power Supply Universal Serial Bus Video Graphics Array VLAN Virtual Local Area Network eXtend Debug Port...

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