Inspur NF5688M6 User Manual
  1. Manuals
  2. Brands
  3. Inspur Manuals
  4. Server
  5. NF5688M6
  6. User manual
Inspur NF5688M6 User Manual

Inspur NF5688M6 User Manual

Hide thumbs
Table of Contents

Advertisement

Quick Links

Download this manual
NF5688M6
User Manual
Document Version: V1.7
Release Date: March 23, 2023

Advertisement

Table of Contents
loading
Need help?

Need help?

Do you have a question about the NF5688M6 and is the answer not in the manual?

Questions and answers

Related Manuals for Inspur NF5688M6

Summary of Contents for Inspur NF5688M6

  • Page 1 NF5688M6 User Manual Document Version: V1.7 Release Date: March 23, 2023...

  • Page 2: Environmental Protection

    No part of this document may be reproduced or transmitted in any form or by any means without prior written consent. Environmental Protection Please dispose of product packaging by recycling at a local recycling center for a greener planet. Trademarks All the trademarks or registered trademarks mentioned herein may be the property of their respective holders.
  • Page 3 product functions to protect system operation and security data throughout its lifecycle in strict accordance with relevant laws, regulations and supervision requirements. As the owner of system operation and security data, you are obligated to establish necessary data security policies and take adequate measures in accordance with applicable national/regional laws and regulations to fully protect system operation and security data.

  • Page 4: Intended Audience

    Preface Abstract This manual provides an overview about the system and describes how to administer, maintain and troubleshoot our server systems. Intended Audience This manual is intended for: • Technical support engineers • Product maintenance engineers It is recommended that server installation, configuration, or maintenance is performed only by experienced technicians who know our servers inside and out.

  • Page 5: Symbol Conventions

    please change the user password. 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 properly handled A potential for minor or moderate injury if not properly handled A potential loss of data or damage to equipment if not properly handled...
  • Page 6 Version Date Description of Changes Updated the gross weight value in  Table 2-1 Updated cable routing for 8 SAS  configuration in 4.7 Added Table 2-3 and Table 2-4  Updated all figures  Minor modifications to 4.5 Replacing ...

  • Page 7: Table Of Contents

    Table of Contents Safety Instructions ..................1 Warnings ......................1 Cautions ......................2 Product Specifications ................5 Introduction ....................5 2.1.1 16 × 2.5-inch Drive Configuration ............5 2.1.2 8 × 2.5-inch Drive Configuration ............6 Features and Specifications ................7 PSU Efficiency ....................
  • Page 8 Preparing for Component Replacement ............21 Pulling Out the Motherboard Drawer/Switch Drawer/GPU Drawer from the Server ........................21 Replacing System Components ..............25 4.5.1 Replacing the Top Cover of the Motherboard Drawer ......26 4.5.2 Replacing the Air Duct ................ 27 4.5.3 Replacing a Hot-Swap Fan Module ............
  • Page 9 7.1.3 Front Panel LED Illuminates Red ............59 7.1.4 Stuck in POST Interface or Other Interfaces after Powering on ... 60 7.1.5 PSU LED Off or Amber ................. 60 7.1.6 Drive LED Abnormal ................60 7.1.7 Excessive Noise from System Fans ............61 7.1.8 Alarm Sound from the Server .............
  • Page 10 8.8.6 Recommendations on HVDC Power Supply ........76 Limited Warranty ..................78 Warranty Service ................... 78 9.1.1 Remote Technical Support ..............78 9.1.2 RMA Service ..................79 9.1.3 ARMA Service ..................80 9.1.4 9 × 5 × NBD Onsite Service ..............80 9.1.5 24 ×...

  • Page 11: Safety Instructions

    Safety Instructions Warnings Please follow the instructions below for safety. Failure to do so could result in potential dangers that may cause property loss, personal injury or death.  The system can be serviced only by trained service technicians because of high voltages and energy hazards.

  • Page 12: Cautions

    them to temperatures higher than 60°C (140°F). Do not attempt to open or service batteries. Dispose of batteries properly. Do not dispose of batteries, circuit boards or other components that may contain batteries along with other wastes. For battery recycling, contact the local recycling center. ...
  • Page 13 c. Close the top cover, reconnect the system to the electrical outlet, and then power on. d. In case of operation failure or other abnormal situations, contact us for technical support.  Position system cables and power cords carefully; route cables so that they cannot be stepped on or tripped over.
  • Page 14 b. Allow the product to cool before removing the top cover or touching internal components. c. Discharge static electricity from your body by touching metal grounding objects before accessing any electronic component. d. Avoid applying excessive force to prevent component damage or arm scratches during component installation or removal.

  • Page 15: Product Specifications

    Product Specifications Introduction The NF5688M6 is a high-end 2-socket rack server that features the third generation Intel® Xeon® Scalable processors and is designed for high-end applications such as AI training, reasoning, video encoding and decoding. The server maintains high quality and reliability of our servers and achieves innovation and a breakthrough in compute performance, scalability, configuration elasticity and intelligent management.

  • Page 16: 2.5-Inch Drive Configuration

    Figure 2-1 16 × 2.5-inch Drive Configuration 2.1.2 8 × 2.5-inch Drive Configuration Up to 8 front 2.5-inch SAS/SATA/NVMe drives, as shown in the figure below. Figure 2-2 8 × 2.5-inch Drive Configuration...

  • Page 17: Features And Specifications

    Features and Specifications Table 2-1 Features and Specifications Launch Time 2021/5 Processor Intel Xeon Scalable processors (Up to 2 CPUs with ® ® Type TDP up to 270 W) Processor Socket Chipset Chipset Intel C621A Type Memory RDIMM, LRDIMM and NVDIMM (Only Barlow Pass) Type Memory Memory...

  • Page 18: Psu Efficiency

    T-flash Internal TF card Card 3000 W output power  3+3 redundant  Specificati 6 PSUs  Power Supply PMBus and Node Manager 4.0 functionality  Power Please refer to the power input on the nameplate Input label of the chassis Outer Packaging Dimension...
  • Page 19 Table 2-3 Relevant Information Required by Erp Lot9 EU Regulation 2019/424 High-end Low-end performance performance Server configurations configuration (W) configuration (h) idle state power 200.8 (i) list of all components for 265.32 167.79 additional idle power allowances, if any (additional PSU, HDDs or SSDs, additional memory, additional buffered DDR channels, additional I/O...
  • Page 20 (i) List of components for additional High-end Low-end power allowance performanc performa configuratio configura n (W) tion (W) Additional 4,0 W per buffered DDR buffered DDR channel channel Additional I/O < 1 Gb/s: No Allowance devices = 1 Gb/s: 2,0 W/Active Port >...

  • Page 21: Product Overview

    Product Overview Front Panel 3.1.1 16 × 2.5-inch Drive Configuration Figure 3-1 Front View of 16 × 2.5-inch Drive Configuration Item Feature Item Feature MB Drawer Handle × 2 Screw Cover × 4 OCP NIC 3.0 Module Drive Bay × 16 PCIe Cards (Up to 6) Ear Latch ×...

  • Page 22: 2.5-Inch Drive Configuration

    3.1.2 8 × 2.5-inch Drive Configuration Figure 3-2 Front View of 8 × 2.5-inch Drive Configuration Item Feature Drive Bay × 8 PCIe Cards (Up to 12)

  • Page 23: Rear Panel

    Rear Panel Figure 3-3 Rear View Item Feature PSU × 6 Fan Module × 12 VGA Port USB 3.0 Port Buttons and LEDs 3.3.1 Front Panel Buttons and LEDs Table 3-1 Front Panel Buttons and LEDs Item Icon Item Description Off = No power ...
  • Page 24 Item Icon Item Description Note: Follow the prompt under different OS to shut down the OS. Short press the power button to power on the system in standby state. Off = Normal  Flashing red (1 Hz) = A non-critical ...

  • Page 25: Drive Tray Leds

    Item Icon Item Description Flashing blue = System being  operated remotely Note: The UID LED turns on when activated by the UID button or via ISBMC. Long press the UID button 6s to reset BMC. 3.3.2 Drive Tray LEDs Figure 3-4 Drive Tray LEDs Item Feature...

  • Page 26: Motherboard Layout

    Motherboard Layout Figure 3-5 Motherboard Connectors CPU1 CPU0 Item Feature Item Feature TPM Connector Intrusion Switch Connector BMC_TF Card Slot Slimline x8 Connector × 2 BMC Management DIMM Slots (CPU0) Network Port Connector CPU1 CPU0 DIMM Slots (CPU1) SYS_TF Card Slot Slimline x8 Connector ×...

  • Page 27: Motherboard Jumper Introduction

    Item Feature Item Feature OCP 3.0 Power Connector Bridge Module Connector Motherboard Jumper Introduction For your personal safety and protection of the equipment, it is necessary to shut down the system and disconnect the power cables. For the location of CLR_CMOS jumper, see Motherboard Layout.

  • Page 28: System Parts Breakdown

    System Parts Breakdown Figure 3-6 Exploded View (Demonstrated with 8 × 2.5-inch Drive Configuration) Item Feature Item Feature Switch Drawer Mid-plane Board Motherboard Drawer 6U Chassis Motherboard + OCP Module Switch Board + Riser + Drive Modules (8-bay) PSU × 6 NVIDIA HGX GPU Module Fan Module ×...

  • Page 29: Maintenance And Component Replacement

    Maintenance and Component Replacement Installing the Server into the Rack For detailed information on installing the server into the rack with rails supplied by us, see the rack server installation guide. We recommend using rails supplied by us as 6U servers are very heavy. If you would like to use rails not provided by us, please contact us first to ensure the server can be installed to the rack safely and properly.

  • Page 30: Installing Floating Nuts

    4.1.1 Installing Floating Nuts Figure 4-1 Installing a Floating Nut Determine the mounting flange hole for the floating nut based on the position of the mounting ear. Insert one side of the floating nut into the mounting flange hole. Press the other side with a screwdriver until the floating nut is fully seated into the mounting flange hole.

  • Page 31: Preparing For Component Replacement

    Preparing for Component Replacement Read the installation instructions for all the hardware operations before removing or re-installing the components. All prerequisites must be completed prior to installation or maintenance. To reduce the risk of personal injury from hot surfaces, allow the drives and the internal system components to cool before touching.
  • Page 32 Figure 4-2 Loosening the Screws Securing the Drawers Fully open the motherboard drawer handle as indicated by arrow 2, and then grasp and pull out the handle as indicated by arrow 3 to slide the motherboard drawer out.
  • Page 33 Figure 4-3 Pulling Out the Motherboard Drawer Fully open the switch drawer handle as indicated by arrow 4, and then grasp and pull out the handle as indicated by arrow 5 to slide the switch drawer out.
  • Page 34 Figure 4-4 Pulling Out the Switch Drawer Fully open the GPU drawer handle as indicated by arrow 6, and then grasp and pull out the handle as indicated by arrow 7 to slide the switch drawer out a little until the two buttons appear. Press and hold the two buttons as indicated by arrow 8 to slide the drawer out.

  • Page 35: Replacing System Components

    Figure 4-5 Pulling Out the GPU Drawer After installation or maintenance, slide the corresponding drawer all the way back into the server. Close the two handles until they are in place. Then secure each handle with a screw. Replacing System Components When installing or removing system components, always wear anti-static ...

  • Page 36: Replacing The Top Cover Of The Motherboard Drawer

    4.5.1 Replacing the Top Cover of the Motherboard Drawer For proper cooling, do not operate the server without the top cover, air ducts, dummies, or blanks installed. If the server supports hot-swap components, minimize the amount of time the top cover is open. To remove the top cover of the motherboard drawer: Power down the server.

  • Page 37: Replacing The Air Duct

    Slide the top cover toward the front of the chassis until it stops. Ensure the top cover is in the closed position. Push the motherboard drawer back into the server. Close the two handles until they are in place. Then secure each handle with a screw. 4.5.2 Replacing the Air Duct For proper cooling, do not operate the server without the top cover, air ducts, dummies, or blanks installed.

  • Page 38: Replacing A Hot-Swap Fan Module

    To install the air duct: Lower down the air duct vertically into the chassis. Install the top cover of the motherboard drawer. Push the motherboard drawer back into the server. Close the two handles until they are in place. Then secure each handle with a screw. 4.5.3 Replacing a Hot-Swap Fan Module To remove a fan module: Press the latch securing the fan module as indicated by arrow 1.
  • Page 39 Figure 4-9 Installing the Fan Module Make sure the fan module is secured in place.

  • Page 40: Replacing An M.2 Ssd

    Figure 4-10 When the Fan Module is Secured 4.5.4 Replacing an M.2 SSD To remove an M.2 SSD: Pull out the motherboard drawer of the server. Remove the top cover of the motherboard drawer. Open the snap clip securing the M.2 SSD as indicated by the arrow. One end of the M.2 SSD pops up.
  • Page 41 Figure 4-11 Opening the Snap Clip Securing M.2 Pull out the M.2 SSD. Put it into an anti-static bag. Figure 4-12 Pulling out the M.2 SSD To install the M.2 SSD: Take a new M.2 SSD out from the anti-static bag. Insert the gold finger of the M.2 SSD into the connector as indicated by the arrow.

  • Page 42: Replacing A Dimm

    Figure 4-13 Inserting the Gold Finger of the M.2 SSD into the Connector Lay the M.2 SSD flat. Align the notch of the SSD with the M.2 snap clip as indicated in the dotted circle. Then close the snap clip as indicated by the arrow.
  • Page 43 Mixing of RDIMMs and LRDIMMs is not supported.  Using BPS DIMMs alone is not supported.  Mixing of BPS with RDIMMs or LRDIMMs is supported.  To remove a DIMM: Pull out the motherboard drawer from the server. Remove the top cover of the motherboard drawer. Locate the DIMM you want to replace.
  • Page 44 Figure 4-16 Installing a DIMM Install the top cover of the motherboard drawer. Push the motherboard drawer back into the server. Close the two handles until they are in place. Then secure each handle with a screw. DIMM Slot Layout: Figure 4-17 DIMM Slot Layout 1.

  • Page 45: Replacing A Processor And Heatsink Module (Phm)

    DDR4 DIMMs and BPS are mixed: BPS need to be used with DDR4. In the following table, “D” stands for DDR4, and “B” for BPS. Table 4-2 Mixing Population Sequence of DDR4s and BPS under Dual-CPU Configuration 4.5.6 Replacing a Processor and Heatsink Module (PHM) To help avoid damage to the processor and motherboard, do not install the ...
  • Page 46 To remove a PHM: a. Loosen the four nuts securing the PHM to the CPU socket anticlockwise in the sequence as shown on the heatsink label with a T30 Torx screwdriver. b. Press the four lock-in wires inward with both hands simultaneously. c.
  • Page 47 Figure 4-19 Removing the CPU To remove the CPU Carrier Clip: a. Close the CPU lever. b. Push to release the tab near the triangle. c. Release the rest three tabs. d. Gently lift the CPU Carrier Clip off the heatsink. Figure 4-20 Removing CPU Carrier Clip...
  • Page 48 Use a clean and lint-free cloth to wipe off the old thermal grease first if the  heatsink is to be reused.  Coat thermal grease evenly onto the heatsink before reusing the heatsink. To install a PHM: To install the CPU Carrier Clip: a.

  • Page 49: Replacing The Top Cover Of The Switch Drawer

    Figure 4-22 Installing CPU Grasp the protective cover (if available) by its short edges to remove it from the CPU socket. With the CPU contacts side down, align the triangle mark on the CPU with that on the heatsink to attach the PHM onto the CPU socket. Press the four lock-in wires outward with both hands simultaneously.

  • Page 50: Replacing A Pcie Expansion Card

    Pull out the switch drawer from the server. (See 4.4 Pulling Out the Motherboard Drawer/Switch Drawer/GPU Drawer from the Server for detailed steps). Press the two buttons on the top cover in the direction of arrow 1 in the figure below.
  • Page 51 and remove all power cords before removing or installing the PCIe card. To prevent damage to the PCIe slot pins, be sure to apply even force.  To remove the PCIe expansion card: Power down the server. Pull out the switch drawer from the server. Remove the top cover of the switch drawer.

  • Page 52: Replacing A Hot-Swap Storage Drive

    Insert and tighten the screw securing the PCIe card. Connect the cables of the PCIe card. Install the top cover of the switch drawer. Push the switch drawer back into the server. Close the two handles until they are in place. Then secure each handle with a screw. 4.5.9 Replacing a Hot-Swap Storage Drive For proper cooling, do not operate the server without the top cover, air ducts, dummies, or blanks installed.
  • Page 53 Figure 4-25 Pressing the Release Button b. Hold the handle and pull the drive module out of the drive bay.
  • Page 54 Figure 4-26 Pulling out the Drive Module c. To separate the drive tray and the drive: Remove the four screws securing the drive to the drive tray counterclockwise with a Phillips screwdriver. Figure 4-27 Removing Screws Securing the Drive to the Drive Tray...

  • Page 55: Replacing A Hot-Swap Psu

    To install the drive: Install the drive to the drive tray: a. Orient the drive to the drive tray with the drive connector facing the rear end of the tray. b. Tighten the four screws securing the drive to the drive tray clockwise with a Phillips screwdriver.

  • Page 56: Replacing The Ocp Nic 3.0 Module

    Figure 4-28 Removing the PSU Put it into an anti-static bag. To install the PSU: Take a new PSU out from the anti-static bag. Insert the PSU into the power supply bay until it snaps into a locked position. Verify that the PSU LED is green. 4.5.11 Replacing the OCP NIC 3.0 Module To prevent damage to the server or expansion cards, power down the server and remove all power cords before removing or installing the OCP card.
  • Page 57 Figure 4-29 Loosening the Thumbscrew of the OCP NIC 3.0 Module Pull out the OCP NIC 3.0 module as indicated by arrow 2. Figure 4-30 Pulling out the OCP 3.0 Module Put the OCP NIC 3.0 module into an anti-static bag. To install the OCP NIC 3.0 module:...

  • Page 58: Replacing The Super-Capacitor

    Take a new OCP NIC 3.0 module out from the anti-static bag. Insert the module into the card slot until it snaps into place. Tighten the thumbscrew securing the OCP NIC 3.0 module in place. 4.5.12 Replacing the Super-Capacitor To remove the super-capacitor: Power down the server.

  • Page 59: Replacing The Top Cover Of The 6U Chassis

    Figure 4-32 Installing the Super-Capacitor Connect the cable to it. Install the top cover of the switch drawer. Push the switch drawer back into the server. Close the two handles until they are in place. Then secure each handle with a screw. 4.5.13 Replacing the Top Cover of the 6U Chassis For proper cooling, do not operate the server without the top cover, air ducts, dummies, or blanks installed.

  • Page 60: Firmware Update And Configuration

    Figure 4-33 Removing the Top Cover To install the top cover: Lower down the top cover vertically onto the chassis, with its standoffs aligned with the J-slots on the chassis. Close the hood latch handle and the top cover will slide to the closed position. Tighten the security screw on the hood latch clockwise with a Phillips screwdriver.
  • Page 61 Please route cables based on the configuration of your purchased machine. The following describes backplane cable routing for 8-drive and 16-drive configurations (full configurations). For other configurations with less drives (less than 8 or 16 drives), reduce the cables by referring to the cable routing for full configurations.
  • Page 62 Figure 4-35 Backplane Cable Routing: 16-SAS Drive (2 8i RAID Controller Cards) Configuration/8-SAS (1 8i RAID Controller Card) Configuration...
  • Page 63 Figure 4-36 Backplane Cable Routing: 16-SAS Drive (1 16i RAID Controller Card) Configuration Table 4-3 Cable Details Cable Name Connected A Connector B Connector From Board Location Board Location Switch to Switch Switch Backplane HDBP Power board to Board Cable backplane Switch Switch...
  • Page 64 Cable Name Connected A Connector B Connector From Board Location Board Location Switch Switch Backplane board to Board backplane (4-7) miniSAS to Standard RAID Backplane Slimline x4 RAID controller cable controller card 2 8i RAID card to controller backplane cards: Standard RAID Backplane...

  • Page 65: Replacing The Cmos Battery

    Replacing the CMOS Battery The CMOS battery contains lithium. A risk of fire and burns exists if the battery is not properly handled. To reduce the risk of personal injury: Do not recharge the battery.  Do not expose the battery to temperatures higher than 60°C (140°F). ...
  • Page 66 Figure 5-1 Removing the Battery DO NOT pry or press the battery with excessive force.  Failing to remove the battery properly might damage the socket on the  motherboard. Any damage to the socket might require replacing the motherboard. Dispose of the battery as required by local ordinances or regulations.

  • Page 67: Electrostatic Discharge (Esd)

    Electrostatic Discharge (ESD) ESD Prevention To prevent damaging the system, be aware of the precautions you need to follow when setting up the system or handling components. A discharge of static electricity from a finger or other conductors may damage system boards or other static-sensitive devices.

  • Page 68: Troubleshooting

    Troubleshooting Hardware Issues 7.1.1 Power-On Issue Symptom: After pressing the power button, the power button LED is orange and does not turn green. The drive activity LEDs are off, the monitor screen is blank or shows “No input signal”, and the system fans do not spin. Solution: Be sure that the power cords are plugged into functioning outlets.

  • Page 69: Front Panel Led Illuminates Red

    Be sure that the monitor is cabled to the intended server. Replace the monitor with a known functional monitor to be sure it is not faulty. Log into the BMC Web GUI and launch the BMC remote control. (For more information on BMC Web GUI, refer to the BMC user manual.) a.

  • Page 70: Stuck In Post Interface Or Other Interfaces After Powering On

    7.1.4 Stuck in POST Interface or Other Interfaces after Powering on Symptom: After pressing the power button, the server does not power up normally and is stuck in the POST interface or other interfaces. Solution: If the interface the server is stuck in contains hardware-related error information, such as memory or RAID controller card errors, record the detailed error information.

  • Page 71: Excessive Noise From System Fans

    working properly. Solution: Be sure that the drive is firmly seated in place. Check whether the drive has been plugged or other manual operations have occurred. If above situations have occurred, and the server is configured with RAID controller cards, be sure that the drive is configured properly in the RAID array.

  • Page 72: Alarm Sound From The Server

    Check the server temperature by touching the chassis or viewing sensor temperatures in BMC Web GUI. Be sure that the server room temperature is within the proper range (see Chapter 8 for temperature specifications). Adjust the air conditioner temperature if necessary. Be sure that the front bezel and chassis interior are dust-free.

  • Page 73: Usb Port Issue

    Connect the keyboard and mouse to a notebook or another server to test. Power cycle the server and retest the devices. Restart the server and enter BIOS or RAID configuration interface to test whether the keyboard and mouse can work: If the two devices work properly, then the USB driver has a problem;...

  • Page 74: Pxe Boot Failure

    Go to our official website to download the correct RAID driver. Some RAID drivers need to be loaded several times. If the instructions above do not resolve the problem, contact and inform us of the detailed error information and problems. 2.

  • Page 75: Displayed Memory Capacity Abnormal

    Be sure that there is network link by checking the network port LED. Be sure that the NIC can be identified in BMC Web GUI, BIOS or Shell. Be sure that PXE function is enabled in BIOS. Be sure that the target drive and RAID array can be identified and are large enough for OS installation.
  • Page 76 the network cable or the switch port; if the network is faulty, go to our official website to download the latest NIC driver. Be sure that the NIC can be identified in BMC Web GUI, BIOS or Shell and the MAC address is correct.

  • Page 77: Environmental Specifications

    Environmental Specifications Ambient Temperature Table 8-1 Ambient Temperature and Humidity Item Condition Specifications 10°C to 35°C (50℉ to 95℉) Continuous Operation -40°C to 70°C (-40℉ to 158 Shipping (Storage) ℉) Temperature Maximum temperature gradient (Operating and 20°C/h (36°F/h) storage) Operating 5% to 90% RH Shipping (Storage) 5% to 95% RH...

  • Page 78: Altitude Specifications

    Item Condition Specifications shocks in every direction of the negative and positive x, y and z axes respectively with an interval of 3 s) Altitude Specifications Table 8-3 Altitude Item Condition Specifications Operating 0 to 3,048 m (0 to 10,000 ft) Altitude Shipping 0 to 12,192 m (0 to 40,000 ft)

  • Page 79: Thermal Restrictions

    Thermal Restrictions Table 8-5 Thermal Restrictions Configur Front Internal Rear Temperatur ation Drive Drive Drive 8 × 2.5- SXM4 × 35℃ (95℉) Storage inch or 16 supporte support higher 8 (400 Configur × 2.5-inch than ation 270 W Operational Requirements This section specifies the requirements for temperature, humidity, organisms, chemical substances and mechanically active substances in the server room when the server is operating.
  • Page 80 Generally, a small quantity of common corrosive gaseous contaminants exist in indoor and outdoor atmospheric environments. Chemical reactions may occur due to long-term contact between these mixed corrosive gaseous contaminants or contaminants of one single corrosive gas and other environmental factors (such as temperature or relative humidity), which may pose a risk of IT equipment failure from corrosion and damage circuit boards of IT equipment and system component units with weak oxidation resistance.
  • Page 81 Severity Copper Silver Reactivity Description Level Reactivity Level Level packaged equipment would be expected to survive. See corrosive gas groups and concentration limits provided in the table below and make sure the copper and silver coupon corrosion rates meet the requirements of the corrosion concentration levels specified in the Gaseous Corrosivity Levels per ANSI/ISA-71.04-2013 table.

  • Page 82: Electromagnetic And Safety Standard Requirements

    Table 8-8 Requirements for Concentration of Mechanically Active Substances Mechanically Active Unit Concentration Substances Sand mg/m ≤30 Dust (suspension) mg/m ≤0.2 Dust (sedimentation) mg/(m ≤1.5 To meet these requirements, take the following measures in the server room:  Use dustproof materials on the ground, wall, and ceiling of the server room. ...
  • Page 83 Electromagnetic Phenomenon Specifications Continuous %AM (1 kHz) Induced RF Conduction Meanwhile, we recommend you to take the following measures to suppress interference signals:  Take effective measures against power grid interference to the power supply system.  Keep away from electrical equipment such as magnetic resonance devices, heliarc welding machines, and radio frequency electric heaters.

  • Page 84: Power Supply Requirements

    Multi-power safety protection:  Figure 8-2 Multi-Power Safety Protection Caution: Shock Hazard! Disconnect all power supply cords before servicing. Power Supply Requirements 8.8.1 AC Power Supply Requirements An AC power supply that consists of mains supply, uninterruptible power supply (UPS), and self-supplied electric generator set can be used as an integrated power supply.

  • Page 85: Recommendations On Ac Power Supply

    The upstream DC power supply equipment should meet the following requirements:  YD∕T 731 48 V rectifier for telecommunications  YD/T 2378 240 V DC power supply system for telecommunications  YD/T 3089 336 V DC power supply system for telecommunications 8.8.3 Recommendations on AC Power Supply Recommendations on the AC power supply are as follows: ...

  • Page 86: Recommendations On Hvdc Power Supply

    Storage: -40℃ to 85°C (-40℉ to 185℉)  Relative humidity: Operating: ≤ 90% RH (40 ± 2°C) (104 ± 3.6°F) Storage: ≤ 95% RH (40 ± 2°C) (104 ± 3.6°F)  Vibration performance: Ability to withstand sinusoidal frequencies between 10 Hz to 55 Hz and amplitude of 0.35 mm.
  • Page 87  Do not use a branch circuit breaker to connect to or control multiple power modules through a multi-purpose electrical outlet.  Choose DC circuit breakers based on the rated current of the equipment. The 10 A or 16 A DC breakers are recommended. ...

  • Page 88: Limited Warranty

    Limited Warranty This limited warranty applies only to the original purchasers of our products who are direct customers or distributors of us (“Customer”). We warrant all our hardware products, if properly used and installed, to be free from defects in material and workmanship within the warranty period. The term “Hardware Product”...

  • Page 89: Rma Service

    Table 9-1 Support Contact Information Support Type Description Window Technical Support: serversupport@aivres.com  Email 24 × 7 × 365 RMA/ARMA Support:  serversupportusa@aivres.com Service Portal: 24 × 7 × 365 service.aivres.com 9.1.2 RMA Service Standard Replacement: When a hardware failure occurs, Customer may submit an RMA request to us via e-mail or Service Portal* .

  • Page 90: Arma Service

    9.1.3 ARMA Service Advanced Replacement: If a problem with our hardware products cannot be resolved via hotline or e-mail support and replacement part(s) are required, we will ship out replacement part(s) in advance within one (1) business day. Customer should return defective part(s) within five (5) business days after receiving the replacement(s).

  • Page 91: Our Service Sla

    24 × 7 × 4: Our service engineer typically arrives at the customer site within 4 hours. Service engineers are available at anytime, including weekends and local national holidays. Our Service SLA We offer a variety of Service Level Agreements (SLA)* to meet customer requirements.
  • Page 92  loss or damage in transit which is not arranged by us;  Hardware Products that have been modified or serviced by non-authorized personnel;  any damage to or loss of any personal data, programs, or removable storage media;  the restoration or reinstallation of any data or programs except the software installed by us when the product is manufactured;...

  • Page 93: Appendix

    Appendix Drive Neodymium Content Reference Table Table A-1 Seagate Drive Neodymium Content Reference Neodymium Content Range Product Series Name < 5 g 5 g - 25 g > 25 g Cimarron (2T/4T) √ Cimarron (6T/8T) √ Evans √ Kestrel √ MakaraBP √...

  • Page 94: Acronyms And Abbreviations

    Table A-3 Toshiba Drive Neodymium Content Reference 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 √ MG04 Tomcat SATA √...
  • Page 95 Address Resolution Protocol Approved Vendor List BIOS Basic Input Output System Baseboard Management Controller Barlow Pass Conformite Europeenne Command-Line Interface CMOS Complementary Metal-Oxide-Semiconductor Transistor CPLD Complex Programmable Logic Device Central Processing Unit CRPS Common Redundant Power Supply Customer Relationship Management Customer-Replaceable Unit Canadian Standards Association Compatibility Support Module...
  • Page 96 DDR4 Double Date Rate 4 DHCP Dynamic Host Configuration Protocol DIMM Dual In-Line Memory Module DMTF Distributed Management Task Force Dead on Arrival DIMMs Per Channel Domain Name System Digital Video Disc Error Checking and Correcting Electromagnetic Compatibility European Standard Enterprise Resources Planning Electrostatic Discharge EVAC...
  • Page 97 FPGA Field Programmable Gate Array Field-Replaceable Unit File Transfer Protocol Firmware Gigabit Ethernet Graphics Processing Unit Graphical User Interface Host Bus Adapter Host Channel Adapter Hard Disk Drive HTML Hyper Text Markup Language HWRAID Hardware Redundant Arrays of Independent Disks Input/Output InfiniBand International Electrotechnical Commission...
  • Page 98 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 JBOD Just a Bunch of Disks JTAG Joint Test Action Group Keyboard Video Mouse Local Area Network Liquid Crystal Display Light Emitting Diode LAN On Motherboard...
  • Page 99 MLAN Management Local Area Network NCSI Network Controller Sideband Interface 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 OCP Accelerator Module O-RAN Open Radio Access Network...
  • Page 100 PCIe Peripheral Component Interconnect express Power Distribution Unit Power Factor Platform Firmware Resilience Processor Heatsink Module Physical PMBus Power Management Bus POST Power On Self Test Power Supply Unit Pre-boot Execution Environment Random-Access Memory RAID Redundant Arrays of Independent Disks RDIMM Registered Dual In-line Memory Module Relative Humidity...
  • Page 101 Serial Attached SCSI SATA Serial Advanced Technology Attachment SCSI Small Computer System Interface System Event Log Small Form-factor Pluggable Smart Interface Card Stock Keeping Unit SMTP Simple Mail Transfer Protocol SNMP Simple Network Management Protocol Serial Over LAN Solid State Drive Streaming SIMD Extensions Secure Shell Serial, USB, VGA...
  • Page 102 TPCM Trusted Platform Control Module Trusted Platform Module UEFI Unified Extensible Firmware Interface Unit Identification Ultra Path Interconnect Uninterruptible Power Supply Universal Serial Bus Video Graphics Array VLAN Virtual Local Area Network Vector Packet Processing eXtend Debug Port...

Table of Contents