Table of Contents
Advertisement
Quick Links
Advertisement
Chapters
Table of Contents
Related Manuals for Inventec P47 series
Summary of Contents for Inventec P47 series
- Page 1 2U Server System Service Manual P/N: 2017-MNU-000016 June, 2018 (Revision A)
- Page 2 Inventec. Trademarks All product names or brands mentioned herein are the trademarks of Inventec, its subsidiaries or other respective owners in Taiwan, United States and other countries. Disclaimer This manual provides the information in relation to the set-up and installation of the product herein.
-
Page 4: Table Of Contents
Contents About This Manual ........................ i Conventions ............................i Safety Symbols ............................. ii Safety Precautions ..........................iii Operation Safety ..........................iii Electrical Safety ..........................iv Battery Replacement Safety ......................iv Laser Peripherals or Devices Safety ....................v Intended Application Uses ....................... v Site Selection ........................... - Page 5 System Memory ........................2-15 2.8.1 To remove the system memory ..................2-17 2.8.2 To install the system memory ..................2-17 Power Supplies ........................2-18 2.9.1 To remove the power supply ..................2-19 2.9.2 To install the power supply ................... 2-19 2.10 System Fans ........................
-
Page 6: About This Manual
About This Manual Conventions Safety Symbols Safety Precautions Regulatory and Integration Information Rack Mount Instructions... - Page 7 Quick Start Guide About This Manual Conventions To make sure that you perform certain tasks properly, take note of the following symbols used throughout this manual. Information to prevent injury to yourself when trying to complete a Warning: task. Information to prevent damage to the components when trying to Caution: complete a task.
- Page 8 Quick Start Guide Safety Symbols Before troubleshooting, you must be familiar with the safety information listed below. In order to avoid any potential hazards, the following symbols may be placed on some components of the server. The shape and the color of symbols shown below are mainly for your reference. Please take the actual shipment as standard.
-
Page 9: Operation Safety
Quick Start Guide Safety Precautions Observe the following safety precautions when you are connecting or disconnecting any device. Regarding the standards of workstation regulations, do not place the server in the visual field of the user, because of the glossy front of the case. ... -
Page 10: Electrical Safety
Quick Start Guide Electrical Safety Before installing or removing signal cables, ensure that the power cords for the system unit and all attached devices are unplugged. To prevent electric shock hazard, disconnect the power cable from the electrical outlet before relocating the system. -
Page 11: Laser Peripherals Or Devices Safety
Quick Start Guide This server contains an internal Lithium Manganese Dioxide, or a Vanadium Pentoxide, or an alkaline battery pack. There is risk of fire and burns if the battery pack is not handled properly. To reduce the risk of personal injury: ... -
Page 12: Site Selection
Quick Start Guide Site Selection Restricted Access Location: location for equipment is intended for installation only in a Server Room or Computer Room where both of the following apply: Access can only be gained by SERVICE PERSONS about the reasons for the restrictions applied to the location and about any precautions that shall be taken. -
Page 13: Regulatory And Integration Information
Quick Start Guide Regulatory and Integration Information Regulatory Compliance Identification Numbers For the purpose of regulatory compliance certifications and identification, this server is assigned a serial number. This server serial number can be found on the product label, along with the required approval markings and information. When requesting certification information for this product, always refer to this serial number. - Page 14 Quick Start Guide installed in a business or commercial environment. Class B devices are those that may reasonably be expected to be installed in a residential environment (for example, personal computers). The FCC requires devices in both classes to bear a label indicating the interference potential of the device, as well as additional operating instructions for the user.
-
Page 15: Power Cords
Quick Start Guide Canadian Notice (Avis Canadien) Class A Equipment Japanese Notice Taiwanese Notice Power Cords The power cord set included in the server meets the requirements for use in the country where the server was purchased. If this server is to be used in another country, purchase a power cord that is approved for use in that country. -
Page 16: Rack Mount Instructions
Quick Start Guide Route power cords so that they will not be walked on or pinched by items placed upon or against them. Pay particular attention to the plug, electrical outlet, and the point where the cords exit from the product. Rack Mount Instructions The following or similar rack-mount instructions are included with the installation instructions: ... -
Page 17: Introduction
Chapter 1 Introduction Audience Assumptions Manual Organization Packing Checklist Specifications Product Features System Overview... - Page 18 1.1 Audience Assumptions This document is for the person who installs, administers, and troubleshoots servers and storage systems. Inventec assumes you are qualified in the servicing of computer equipment and trained in recognizing hazards in products with hazardous energy levels.
-
Page 19: Specifications
Introduction 1.4 Specifications The table below is the technical specifications for the server. Table 1-3 Specifications Height: 8.69cm Dimensions Width: 43.69cm Length: 73.66cm Max. Weight: 24.96KG Weight Operating System: +5°C ~ +35°C Temperature Non-operating System: -40°C ~ +70°C ... - Page 20 Introduction Figure 1-2 Product Introduction without OCP Card Table 1-4 Product Features Chassis 2U rack-mounted chassis 1x 1600W/2000W Platinum power supply Power Or 2x1600W/2000W redundant Platinum power supplies Storage 8x2.5” hot-pluggable HDDs Backplane 8x2.5” HDD Passive Backplanes System Fan ...
-
Page 21: System Overview
Introduction Onboard Slots 3xPCI-E x16 Gen3 slots 1.6 System Overview 1.6.1 Server Chassis Layout Figure 1-3 System Overview with OCP Card Fan Duct System Fans 2.5” HDD Backplane 2.5” HDD Bays Front Panel 2 Front Panel 1 OCP Card (Optional) Motherboard Expansion Card Assembly of GPU 3&4 Expansion Card Assembly of GPU 2... - Page 22 Introduction Figure 1-4 System Overview without OCP Card Fan Duct System Fans 2.5” HDD Backplane 2.5” HDD Bays Front Panel 2 Front Panel 1 Motherboard Expansion Card Assembly of GPU 3&4 Expansion Card Assembly of GPU 2 10 Expansion Card Assembly of GPU 1 11 Power Supply 1 12 Power Supply 2 2017-MNU-000016...
-
Page 23: Motherboard Layout
Introduction 1.6.2 Motherboard Layout The layout of the motherboard is shown below. Each connector and major components are identified by number. Figure 1-5 Connectors and Component Locations of Motherboard Management Port (J34) VGA Connector (J35) UID Button (SW2) Serial Port (J67) Rear Single USB Port (J33) 2017-MNU-000016... - Page 24 Introduction Micro-SD Card Socket (J50) TPM Connector (J58) IPMB Connector (J36) BMC SIO connector (J66) CPU UART 1x4 connector (J45) BMC Intruder Jumper (J68) BIOS Recovery Jumper (J75) Password Clear Jumper (J76) Power Supply Connector (J1) Power Supply Connector (J73) Processor PCI-E X16 Gen3 Slot1 (J21) DIMM Slots (J10, J11, J12, J13, J14, J15, J16, J17)
-
Page 25: Front View
Introduction OCP Power Connector (J99) PCI-E x8 Slimline Connector (G0) (J27) PCI-E x8 Slimline Connector (G0) (J32) PCI-E x8 Slimline Connector (G1) (J26) PCI-E x4 Slimline Connector (P0) (J31) System Battery (BH1) RTC Connector (J56) CPLD JTAG connector (J55) M.2 Connector (J51) M.2 Connector (J72) PCI-E X16 Gen3 Slot2 (J28) PCI-E X16 Gen3 Slot3 (J29) -
Page 26: Back View
Introduction Front Panel 1 HDDs Front Panel 2 1.6.4 Back View The server back view includes the connectors of the external system devices. Figure 1-8 Back View AC Power Connector 2 AC Power Connector 1 Rear Single USB Port QSFP Port 1 QSFP Port 2 Serial Port (For BMC debug use only) UID Button... - Page 27 Introduction Figure 1-9 Front Panel Buttons and LEDs with OCP Card Figure 1-10 Front Panel Buttons and LEDs 1 ID Button/LED 2 Power Button/LED 3 Reset Button 4 USB 3.0 Port 0 5 USB 3.0 Port 1 Figure 1-11 Back View LEDs 1 AC Power LED 2 2 AC Power LED 1 3 UID LED...
- Page 28 Introduction The detailed LED information is shown below: Table 1-5 LED Information Front View LEDs LED Type Color Status Function System is powered on. (S0, DC Green Power LED Amber System is powered off. (S5, DC off) AC power is disconnected. ID LED is turned on by BMC.
-
Page 29: System Thermal Solution
Introduction Standby mode with OTP range 12V Fault (include: OVP, Amber UVP, OCP, SCP, and OTP). Fan locks 15 seconds including standby mode. No AC power. Green Link at first level speed. Speed LED of Amber Link at others speeds. Base-T port 0/1 No link. -
Page 30: Hardware Operations
Chapter 2 Hardware Operations Before You Start Rear Chassis Cover Front Top Cover Cable Guide Stiffener Motherboard Power Supplies System Fans 2.5” HDDs 8x2.5” HDD Backplane Front Panels OCP Card Expansion Cards Fan Duct... -
Page 31: Power Off
Hardware Operations 2 Hardware Operations This chapter describes the hardware setup procedures that you have to perform when replacing system components. It also gives detailed information on the internal components and how to replace them. The components shown in this chapter are mainly for your reference. Please take the actual shipment as standard. -
Page 32: Rear Chassis Cover
Hardware Operations To remove the power cords: First unplug the power cords from the AC outlet and then from the server. Figure 2-2 Unplugging the Power Cords 2.2 Rear Chassis Cover The server is a 2U form factor designed for easy assembly and disassembly, making the replacement of internal components very convenient. -
Page 33: To Install The Rear Chassis Cover
Hardware Operations Pull up the retaining clip completely to the biggest angle. Simultaneously the cover automatically slides backward. Remove the cover from the chassis. Figure 2-4 Removing the Chassis Cover 2.2.2 To install the rear chassis cover Locate the chassis cover onto the chassis. Simultaneously pull up the retaining clip completely with the biggest angle, and align the locking tabs on the cover to the corresponding notches on the chassis. - Page 34 Hardware Operations Secure the retaining clip and simultaneously the cover automatically slides back into place. Figure 2-6 Secure the retaining clip Secure the chassis cover with one screw. Figure 2-7 Tightening the Screw This system must be operated with the chassis cover installed to ensure proper cooling.
-
Page 35: Front Top Cover
Hardware Operations 2.3 Front Top Cover The server is a 2U form factor designed for easy assembly and disassembly, making the replacement of internal components very convenient. Reminder Before you remove or install the front top cover, please follow the step below: Step 1: Make sure the server is not turned on or connected to the AC power. -
Page 36: To Install The Front Top Cover
Hardware Operations 2.3.2 To install the front top cover Locate the front top cover onto the chassis with the locking tabs on the cover snap into the corresponding notches on the chassis. Figure 2-9 Installing the Front Top Cover This system must be operated with the chassis cover installed to ensure proper cooling. -
Page 37: To Remove The Cable Guide
Hardware Operations Reminder Before you remove or install the cable guide, please follow the steps below: Step 1: Make sure the server is not turned on or connected to the AC power. To power off the server, see “2.1.1 Power Off” Remove the rear chassis cover. -
Page 38: Stiffener
Hardware Operations 2.5 Stiffener The locations of stiffener on the server is shown below: Figure 2-12 Stiffener Location Reminder Before you remove or install the stiffener, please follow the steps below: Step 1: Make sure the server is not turned on or connected to the AC power. To power off the server, see “2.1.1 Power Off”... -
Page 39: To Install The Stiffener
Hardware Operations 2.5.2 To install the stiffener Reverse the steps above to install the stiffener. 2.6 Motherboard The location of motherboard on the server is shown below: Figure 2-14 Motherboard Location Reminder Before you remove or install the motherboard, please follow the steps below: Make sure the server is not turned on or connected to the AC power. -
Page 40: To Remove The Motherboard
Hardware Operations 2.6.1 To remove the motherboard Release the retaining clip that secure the system fan cage. Lift the system fan assembly out of the chassis. Figure 2-15 Removing the System Fan Assembly Remove the 8 screws that secure the motherboard. Remove the motherboard out of the chassis along the direction of the arrow. -
Page 41: Processor
Hardware Operations 2.7 Processor This motherboard supports one AMD Naples SP3 processor. The location of processor on the motherboard is shown below: Figure 2-1 Location of Processor Reminder Before you remove or install the processor, please follow the steps below: Step 1: Make sure the server is not turned on or connected to the AC power. -
Page 42: To Remove The Heat Sink
Hardware Operations 2.7.1 To remove the heat sink The heat sink used in the figure below is just for your reference. Please choose an appropriate heat sink depending on the whole system requirement. Loosen the four securing screws. Lift the heat sink up from the installed processor. Figure 2-2 Removing the Heat Sink 2.7.2 To install the heat sink Reverse the steps above to install the heat sink. -
Page 43: To Remove The Processor
Hardware Operations 2.7.3 To remove the processor Remove the screw marked with “3” around it. Remove the screw marked with “2” around it. Remove the screw marked with “1” around it. To release the force frame, you must remove the screws following the sequence of “3”, “2”... -
Page 44: To Install The Processor
Hardware Operations Open the rail frame. Figure 2-5 Opening the Rail Frame Pull the CPU package out of the rail frame. Figure 2-6 Removing the CPU Package 2.7.4 To install the processor Reverse the steps above to install the processor. •... -
Page 45: System Memory
Hardware Operations 2.8 System Memory This motherboard supports sixteen DDR4 1866/2133/2400/2667 ECC registered DIMM/RDIMM. The locations of the DIMM sockets on the motherboard is shown below: Figure 2-7 Locations of System Memories Reminder Before you remove or install the system memory, please follow the steps below: Step 1: Make sure the server is not turned on or connected to the AC power. - Page 46 Hardware Operations There are sixteen DIMMs on the motherboard to support the processor. The DIMM sequence of the sixteen DIMM sockets is respectively shown below. Figure 2-8 DIMM Socket Sequence 2017-MNU-000016 2-16...
-
Page 47: To Remove The System Memory
Hardware Operations 2.8.1 To remove the system memory Unlock a DIMM socket by pressing the retaining clips outward. This action releases the module and partially lifts it out of the socket. Lift out the DIMM. Figure 2-9 Lifting the DIMM out of the Socket 2.8.2 To install the system memory Unlock a DIMM socket by pressing the retaining clips outward. -
Page 48: Power Supplies
Hardware Operations Align the notch on the DIMM to the break on the socket. Carefully insert the DIMM into the socket until the retaining clips snap back in place. Figure 2-11 Inserting the DIMM into the Socket DIMMs fit in only one direction. DO NOT force a DIMM into the socket to avoid damaging the DIMM. -
Page 49: To Remove The Power Supply
Hardware Operations Reminder Before you remove or install the power supply, please follow the steps below: Step 1: Disconnect all necessary cables. 2.9.1 To remove the power supply Press the retaining clip on the right side of the power supply along the direction of the arrow. -
Page 50: System Fans
Hardware Operations 2.10 System Fans Subdividing the motherboard area and the backplane area is a metal cage that holds the system fans. This server contains 6 system fans which are located inside the chassis. These system fans maintain the ideal temperature for the motherboard, backplane and disk drives. The location of system fans is shown below: Figure 2-20 System Fan Locations Reminder... -
Page 51: To Remove The System Fans
Hardware Operations 2.10.1 To remove the system fans Unlock the system fan by clamping the locking clip inward. Take the system fan out of the system fan cage. Figure 2-21 Removing the System Fan 2.10.2 To install the system fans Place the system fan into the system fan cage. -
Page 52: Hdds
Hardware Operations 2.11 2.5” HDDs The server can support 8x2.5” hot-pluggable HDDs. Each HDD is with an adapter bracket. You don’t need to power-off the system when removing or installing a HDD. The location of the 2.5” HDDs on the server is shown below: Figure 2-23 2.5”... -
Page 53: To Install The 2.5" Hdd
Hardware Operations Lift the HDD out of the tray. Figure 2-25 Removing the HDD 2.11.2 To install the 2.5” HDD Place the HDD to the HDD tray. Figure 2-26 Placing the HDD 2017-MNU-000016 2-23... -
Page 54: 8X2.5" Hdds Backplane
Hardware Operations Carefully insert the HDD assembly into the HDD bay with the lever lifted until it completely enters the HDD bay. Push the lever back in place. Figure 2-27 Installing the HDD Assembly Make sure that the HDD is connected to the HDD connector on the backplane. 2.12 8x2.5”... -
Page 55: To Remove The 8X2.5" Hdds Backplane
Hardware Operations Reminder Before you remove or install the 8x2.5” HDDs backplane, please follow the steps below: Make sure the server is not turned on or connected to the AC power. To power off Step 1: the server, see “2.1.1 Power Off”. Step 2: Remove the rear chassis cover. -
Page 56: Front Panels
Hardware Operations 2.13 Front Panels The location of left front panel on the server is shown below: Figure 2-30 Left Front Panel Location The location of right front panel on the server is shown below: Figure 2-31 Right Front Panel Location Reminder Before you remove or install the front panel, please follow the steps below: Step 1:... -
Page 57: To Remove The Front Panel
Hardware Operations 2.13.1 To remove the front panel Unscrew the front panel assembly. Remove the front panel assembly from the chassis. Figure 2-32 Removing the Front Panel Assembly Unscrew the front panel. Remove the front panel. Figure 2-33 Removing the Front Panel 2.13.2 To install the front panel Reverse the steps above to install the front panel. -
Page 58: Ocp Card (Optional)
Hardware Operations 2.14 OCP Card (Optional) The location of OCP card on the server is shown below: Figure 2-34 OCP Card Location Reminder Before you remove or install the OCP card, please follow the steps below: Step 1: Make sure the server is not turned on or connected to the AC power. To power off the server, see “2.1.1 Power Off”. -
Page 59: To Install The Ocp Card
Hardware Operations 2.14.2 To install the OCP card Reverse the steps above to install the OCP card. 2.15 Expansion Cards The locations of expansion card assemblies on the server are shown below: Figure 2-36 Expansion Card Assembly Locations Reminder Before you remove or install the expansion cards, please follow the steps below: Step 1: Make sure the server is not turned on or connected to the AC power. -
Page 60: To Remove The Expansion Card
Hardware Operations 2.15.1 To remove the expansion card Unscrew the expansion card assembly. Lift the expansion card assembly out of the chassis. Figure 2-37 Removing the Expansion Card Assembly Push the locking clip along the direction of the arrow to release the clip. Figure 2-38 Releasing the Clip 2017-MNU-000016 2-30... -
Page 61: To Install The Expansion Card
Hardware Operations Rotate the clip to release the GPU. Unscrew the GPU. Remove the GPU. Install the slot covers. Figure 2-39 Removing the GPU Remove the screw that secures the riser card. Remove the riser card. Figure 2-40 Removing the Riser Card 2.15.2 To install the expansion card Reverse the steps above to install the expansion card. -
Page 62: Fan Duct
Hardware Operations 2.16 Fan Duct The location of fan duct on the server is shown below: Figure 2-41 Fan Duct Location Make sure that the fan duct on the server is installed in place to keep proper cooling. Reminder Before you remove or install the fan duct, please follow the steps below: Step 1: Make sure the server is not turned on or connected to the AC power. -
Page 63: To Install The Fan Duct
Hardware Operations 2.16.2 To install the fan duct Reverse the steps above to install the fan duct. 2017-MNU-000016 2-33... -
Page 64: Connectors
Chapter 3 Connectors Backplane Connectors OCP Card Connectors... - Page 65 Connectors 3 Connectors 3.1 Backplane Connectors Figure 3-1 8x2.5“ HDDs Backplane 2017-MNU-000016...
-
Page 66: Ocp Card Connectors
Connectors 1 SATA HDD Connectors 0-7 Slimline Connector 2 C Connector Slimline Connector 1 3 Slimline Connector 4 Backplane SATA Connectors 2 Backplane SATA Connectors 1 4 Slimline Connector 3 5 Backplane Power Connector 3.2 OCP Card Connectors Figure 3-2 OCP Card 1 QSFP Ports Slimline Connector 1 2 Slimline Connector 2... - Page 67 Chapter 4 Cable Routing...
-
Page 68: Cable Routing
Cable Routing 4 Cable Routing 2017-MNU-000016... -
Page 69: Notices
Appendix 1 China RoHS Regulations Taiwan BSMI Electromagnetic Emissions Notices... -
Page 70: Electromagnetic Emissions Notices
Appendix Appendix 1 Hazardous Substances Free Regulations and Electromagnetic Emissions Notices China RoHS Regulations Figure I China RoHS Regulations 2017-MNU-000010... - Page 71 Appendix Taiwan BSMI Figure II Taiwan BSMI 2017-MNU-000010...
-
Page 72: Federal Communications Commission Notice
Appendix Electromagnetic Emissions Notices Federal Communications Commission notice This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. -
Page 73: Notices For European Union
Appendix Notices for European Union European Union Regulatory Notice Products bearing the CE marking comply with applicable EU Directives: Compliance with such directives is assessed using applicable European Harmonized Standards. Notices for Japan VCCI Notice Class A EMI Warning Message Power Cord Statement Notices for Korea Class A EMI Warning Message... -
Page 74: Notices For Taiwan
Appendix Notices for Taiwan BSMI Notices Class A EMI Warning Message Notices for Russia Class A EMI Warning Message 2017-MNU-000010... -
Page 75: Appendix 2 Bios Spec
Appendix 2 BIOS SPEC... - Page 76 BIOS Setup User Manual K800QG4 rev. 0.01 Mar., 2018...
- Page 77 BIOS Setup User Manual Table of Contents Table of Contents Main ........................1 Advanced ........................ 2 Platform........................8 Socket ........................10 BMC ........................19 Security ........................ 20 Boot ........................21 Save & Exit ......................22...
-
Page 78: Main
BIOS Setup User Manual Main 1 Main System brief overview. Project Version The current version of BIOS. Build Date and Time The date that BIOS image was created. Platform Basic info of sytem platform. Processor Basic info of system Processor. ... -
Page 79: Advanced
BIOS Setup User Manual Advanced 2 Advanced Advanced settings. Includes the driver interface, serail port setting, TPM, CSM, NVME configuration and USB setting. iSCSI Configuration Configure the iSCSI parameters. Add an Attempt Use this option to configure an iSCSI boot target. ... - Page 80 BIOS Setup User Manual Advanced Schedule an Operation for the Security Device. NOTE: Your Computer will reboot during restart in order to change State of Security Device. [None]* [TPM Clear] Current Status Information Current Status Information. TPM Enabled Status Enabled Status of TPM.
- Page 81 BIOS Setup User Manual Advanced [VT100+] [VT-UTF8] [ANSI]* Bits per second Selects serial port transmission speed. The speed must be matched on the other side. Long or noisy lines may require lower speeds. [9600] [19200] ...
- Page 82 BIOS Setup User Manual Advanced data flow. Once the buffers are empty, a 'start' signal can be sent to re-start the flow. Hardware flow control uses two wires to send start/stop signals. [None]* [Hardware RTS/CTS] EMS Microsoft Windows Emergency Management Services (EMS) allows for remote management of a Windows Server OS through a serial port.
- Page 83 BIOS Setup User Manual Advanced Enable Ipv6 PXE Boot Support. If disabled IPV6 PXE boot option will not be created. [Enable]* [Disable] Ipv6 HTTP Support Enable Ipv6 HTTP Boot Support. If disabled IPV6 HTTP boot option will not be created.
- Page 84 BIOS Setup User Manual Advanced Storage Controls the execution of UEFI and Legacy Storage OpROM. [UEFI]* [Legacy] Video Controls the execution of UEFI and Legacy Video OpROM. [UEFI] [Legacy]* Note: BIOS would no't display info to monitor under legacy OS if you select UEFI mode.
-
Page 85: Platform
BIOS Setup User Manual Platform 3 Platform Platform and PCH configuration options PCH Configuration PCH Configuration. Restore AC Power Loss Provides the policy whether or not the system should boot once power returns after a power loss event. ... - Page 86 BIOS Setup User Manual Platform Note: The priority of the external video card will be higher than on board device with "Auto" option. RTC Wake system from S4/S5 RTC Wake system from S4/S5. [Disable]* [Enable] Server ME Configuration Intel ME(Management Engine) Configuration.
-
Page 87: Socket
BIOS Setup User Manual Socket 4 Socket Socket and memory features configuration Processor Configuration Processor status & configuration. Hyper-Threading Enables Hyper Threading (Software Method to Enable/Disable Logical Processor threads. [Disable] [Enable]* Enable Intel(R) TXT Enables Intel(R) Trusted Execution Technology. ... - Page 88 BIOS Setup User Manual Socket Select Enable to use the Intel Advanced Encryption Standard (AES) New Instructions (NI) to ensure data security. [Disable] [Enable]* Common RefCode Configuration Displays and provides option to change the Common RefCode Settings. ...
- Page 89 BIOS Setup User Manual Socket [Enable]* Erase-Arm NVDIMMs Enables/Disables Erasing and Arming NVDIMMs. Memory Topology Displays memory topology with Dimm population information. Memory Map Set memory mapping settings. Channel Interleaving Select Channel Interleaving setting. [Auto]* ...
- Page 90 BIOS Setup User Manual Socket If 4G QR memory DIMMs are populated, then in Single Rank Sparing 12.5% (1G / 8G in each DDR Channel) of memory is sacrificed as spare. Rank Sparing Rules: 1. There must be at least 2 ranks in a DDR channel to support rank sparing 2.
- Page 91 BIOS Setup User Manual Socket [Enable] Patrol Scrub Patrol scrubbing is accomplished using an engine that generates requests to memory addresses in a stride. Usually, the engine is programmed with a frequency. The engine will generate a memory request at the pre-programmed frequency, and the scrubbing flow corrects the error, if any.
- Page 92 BIOS Setup User Manual Socket PCI-E Port Link Max DMI max width. PCI-E Port Link Speed DMI link current speed. Socket 0 PcieBr1D00F0 - Port 1A PCIE port 1A satus. PCI-E Port Enable/Disable the PCIE port. ...
- Page 93 BIOS Setup User Manual Socket Throughput: Improves CPU-network interface integration for better memory-copy performance Scalability: Increases control over interrupt processing, including prioritization and resource allocation Efficiency: Provides an alternative to interrupt and system-to-user memory copy operations for each packet Sck0 IOAT Config Sck0 IOAT Configuration.
- Page 94 BIOS Setup User Manual Socket Volume Management Device (VMD) - An integrated endpoint device that can take control of PCI hierarchies to allow for the aggregation of devices such as PCIe SSD into a RAID array. Intel® VMD for Volume Management Device on Socket 0 Intel®...
- Page 95 BIOS Setup User Manual Socket [Disable] [Enable]* CPU C State Control CPU C State setting. CPU C6 report Enable/Disable CPU C6(ACPI C3) report to OS. [Disable] [Enable] [Auto]* Enhanced Halt State (C1E) Core C1E auto promotion Control.
-
Page 96: Bmc
BIOS Setup User Manual 5 BMC Server management configuration.(Base Management Controller) FRB-2 Timer Enable or Disable FRB-2 timer(POST timer) [Enable]* [Disable] FRB-2 Timer Policy Configure how the system should respond if the FRB-2 Timer expires. Not available if FRB-2 Timer is disabled. -
Page 97: Security
BIOS Setup User Manual Security 6 Security Admin passwaord & user password setting for BIOS boot or enter setup. Administrator Password Set Administrator Password. User Password Set User Password. -
Page 98: Boot
BIOS Setup User Manual Boot 7 Boot System boot settings & boot Priorities. Bootup NumLock State Select the keyboard NumLock state. [on]* [off] Quiet Boot Enables or disables Quiet Boot option. [Disable] [Enable]* Boot Option Priorities Sets the system boot order. -
Page 99: Save & Exit
BIOS Setup User Manual Save & Exit 8 Save & Exit Save & exit options. Save Changes and Exit Exit system setup after saving the changes. Discard Changes and Exit Exit system setup without saving any changes. Save Changes and Reset Reset the system after saving the changes. - Page 100 Appendix 3 BMC SPEC...
- Page 101 K800G4 BMC Specification K800G4 - BMC Specification June 22th, 2018...
- Page 102 K800G4 BMC Specification Table of Contents IPMI Introduction ............................4 Overview of BMC ............................4 Thermal Sensor Allocation ......................4 BMC Self Test Behaviors ......................... 5 BMC Watchdog ............................5 IPMI Standard Watchdog ....................... 5 Automatic System Recovery ......................5 Watchdog Event Logging ........................
- Page 103 K800G4 BMC Specification 11.1. Full Sensor Records ........................13 11.2. Automatic CPU Thresholds (for Intel Platform only) ..............23 12. Supported Standard IPMI Commands ..................... 24 12.1. IPMI Global Commands ....................... 24 12.2. BMC Watchdog Timer Commands ....................24 12.3. BMC Device and Messaging Commands ..................24 12.4.
-
Page 104: Ipmi Introduction
K800G4 BMC Specification IPMI Introduction The IPMI is an abbreviation of Intelligent Platform Management Interface. This industrial standard is supported by INTEL, Hewlett-Packard, NEC, and Dell. Following this specification, we are able to monitor the system health of the server computer, such as fan speed, system and CPU temperature, voltage regulation, watchdog timer, power supply working condition.., etc. -
Page 105: Bmc Watchdog
K800G4 BMC Specification BMC would check those statuses at BMC runtime, while initial/write/delete/read SDR/SEL failed, the error bit would be set accordingly and user can retrieve the status by “Get Self Test Results Command”. BIOS would issue the ‘Get Self Test Results Command’... -
Page 106: Watchdog Event Logging
K800G4 BMC Specification 3.3 Watchdog Event Logging Any BMC watchdog timer expired would result in a SEL event being generated to indicate the watchdog timer timeout occurred and which timer (BMC hardware, OS or FRB2) caused the timeout action. 3.4 FRB2 Timeout Detection The FRB2 timer is implemented with IPMI Watchdog Timer. -
Page 107: Led Indicators
K800G4 BMC Specification LED Indicators Name Color State Before BMC Ready BMC Ready Position On/Off Sensor not all ready; BIOS Post not complete System Green System is Good. No Error Front Control By CPLD Health Panel Critical voltage/temp; Any Fan fail; Any PSU not On/Off detect;... -
Page 108: Lan
K800G4 BMC Specification 6.1 The LAN-Related Information LAN function Description DHCP IP Support RMCP(V1.5)、RMCP+(V2.0) support LAN protocol This function is implemented by BMC. (Default: Enable) Enabled Authentications Administrator[Password] Session timeout 1800s(default) + 10s(tolerance) Multi session Support Max 15 sessions simultaneously Anonymous Login Not Support LAN Alerting... -
Page 109: System Event Log (Sel)
K800G4 BMC Specification System Event Log (SEL) The BMC provides a centralized, non-volatile System Event Log, aka SEL. System Event Logs are special messages that are sent by management controllers when they detect significant or critical system management events. This includes messages for events such as temperature threshold exceeded’, ‘voltage threshold exceeded’, ‘power fault’, and etc. -
Page 110: Serial Interface
K800G4 BMC Specification Serial Interface 8.1 Serial Over LAN (SOL) Serial over LAN provides a mechanism that enables the serial controller of a managed system to be redirected over an IPMI session over IP. This enables remote console applications to provide access to text-based interfaces for BIOS, utilities, operating systems, and applications while simultaneously providing access to IPMI platform management functions. -
Page 111: Rmcp(Ipmi V1.5)/Rmcp+(Ipmi V2.0) And Payload Support
K800G4 BMC Specification RMCP(IPMI v1.5)/RMCP+(IPMI v2.0) and Payload Support "Payloads" are a capability specified for RMCP+ that enable an IPMI session to carry types of traffic that are in addition to IPMI Messages. In this project we support following payload type, Authentication Algorithm, Integrity Algorithm, and Confidentiality Algorithm. -
Page 112: Remote Kvm
K800G4 BMC Specification 10. Remote KVM The Keyboard, Video and Mouse (KVM) of server are able to redirect to remote system. Remote KVM provides greater control of hardware including access to power controls and monitoring functions through the Baseboard Management Controller (BMC). - Page 113 K800G4 BMC Specification Step 4. Select Remote Control from menu bar. Browser pops new window for KVM Step 5. Click button Start KVM. If you want to terminate the KVM service, pleaser click "Stop KVM" button.
-
Page 114: Sensors Configurations
K800G4 BMC Specification 11. Sensors Configurations 11.1 Full Sensor Records Sensor Number 0x75 0x7A 0x7B 0x78 0x76 0x77 0x79 Sensor Name AMBIENT_TEMP_01 AMBIENT_TEMP_02 AMBIENT_TEMP_03 OCP_TEMP_01 OCP_TEMP_02 OCP_TEMP_03 PCH_Temp_01 Sensor Type 0x01 0x01 0x01 0x01 0x01 0x01 0x01 Event Type 0x01 0x01 0x01 0x01... - Page 115 K800G4 BMC Specification or Record Sensor Number 0x47 0x30 0x31 0x32 0x33 0x34 0x35 Sensor Name CPU_TEMP_04 FAN_SPEED_01 FAN_SPEED_02 FAN_SPEED_03 FAN_SPEED_04 FAN_SPEED_05 FAN_SPEED_06 Sensor Type 0x01 0x04 0x04 0x04 0x04 0x04 0x04 Event Type 0x01 0x01 0x01 0x01 0x01 0x01 0x01 Entity ID 0x03...
- Page 116 K800G4 BMC Specification , Full Sensor Record Sensor Number 0x2A 0x2B 0x2E 0x2F 0x51 0x52 0x54 Sensor Name MEM_VOLTS_01 MEM_VOLTS_02 MEM_VOLTS_03 MEM_VOLTS_04 MEM_VOLTS_05 MEM_VOLTS_06 MEM_VOLTS_07 Sensor Type 0x02 0x02 0x02 0x02 0x02 0x02 0x02 Event Type 0x01 0x01 0x01 0x01 0x01 0x01 0x01...
- Page 117 K800G4 BMC Specification Sensor Number 0x20 0x68 0x69 0x6A 0x6B 0x40 0x41 Sensor Name SYS_VOLTS_03 INPUT_VOLTS_01 INPUT_VOLTS_02 OUTPUT_VOLTS_01 OUTPUT_VOLTS_02 CPU_STATUS_01 CPU_STATUS_02 Sensor Type 0x02 0x02 0x02 0x02 0x02 0x07 0x07 Event Type 0x01 0x01 0x01 0x01 0x01 0x6F 0x6F Entity ID 0x07 0x0A 0x0A...
- Page 118 K800G4 BMC Specification Sensor Number 0x81 0x82 0x83 0x84 0x85 0x86 0x87 Sensor Name MEM_TEMP_01_A1 MEM_TEMP_01_B0 MEM_TEMP_01_B1 MEM_TEMP_01_C0 MEM_TEMP_01_C1 MEM_TEMP_01_D0 MEM_TEMP_01_D1 Sensor Type 0x01 0x01 0x01 0x01 0x01 0x01 0x01 Event Type 0x01 0x01 0x01 0x01 0x01 0x01 0x01 Entity ID 0x08 0x08 0x08...
- Page 119 K800G4 BMC Specification Sensor Number 0x8F 0x90 0x91 0x92 0x93 0x94 0x95 Sensor Name MEM_TEMP_02_B1 MEM_TEMP_02_C0 MEM_TEMP_02_C1 MEM_TEMP_02_D0 MEM_TEMP_02_D1 MEM_TEMP_02_E0 MEM_TEMP_02_E1 Sensor Type 0x01 0x01 0x01 0x01 0x01 0x01 0x01 Event Type 0x01 0x01 0x01 0x01 0x01 0x01 0x01 Entity ID 0x08 0x08 0x08...
- Page 120 K800G4 BMC Specification Sensor Number 0x9D 0x9E 0x9F 0xA0 0xA1 0xA2 0xA3 Sensor Name MEM_TEMP_03_C1 MEM_TEMP_03_D0 MEM_TEMP_03_D1 MEM_TEMP_03_E0 MEM_TEMP_03_E1 MEM_TEMP_03_F0 MEM_TEMP_03_F1 Sensor Type 0x01 0x01 0x01 0x01 0x01 0x01 0x01 Event Type 0x01 0x01 0x01 0x01 0x01 0x01 0x01 Entity ID 0x08 0x08 0x08...
- Page 121 K800G4 BMC Specification Sensor Number 0xAB 0xAC 0xAD 0xAE 0xAF 0x10 0x11 Sensor Name MEM_TEMP_04_D1 MEM_TEMP_04_E0 MEM_TEMP_04_E1 MEM_TEMP_04_F0 MEM_TEMP_04_F1 HDD_STATUS_01 HDD_STATUS_02 Sensor Type 0x01 0x01 0x01 0x01 0x01 0x0D 0x0D Event Type 0x01 0x01 0x01 0x01 0x01 0x6F 0x6F Entity ID 0x08 0x08 0x08...
- Page 122 K800G4 BMC Specification Sensor Number 0x60 0x61 0xB0 0xB1 0xB2 0xB3 0xB4 Sensor Name PSU_STATUS_01 PSU_STATUS_02 MEM_STATUS_01 MEM_STATUS_02 MEM_STATUS_03 MEM_STATUS_04 MEM_STATUS_05 Sensor Type 0x08 0x08 0x0C 0x0C 0x0C 0x0C 0x0C Event Type 0x6F 0x6F 0x6F 0x6F 0x6F 0x6F 0x6F Entity ID 0x0A 0x0A 0x20...
-
Page 123: Automatic Cpu Thresholds (For Intel Platform Only)
K800G4 BMC Specification Table B3 , Compact Sensor Record Sensor Number 0xB8 0xB9 0xBA 0xBB Sensor Name CPU1_PROCHOT CPU2_PROCHOT CPU3_PROCHOT CPU4_PROCHOT Sensor Type 0x01 0x01 0x01 0x01 Event Type 0x03 0x03 0x03 0x03 Entity ID 0x03 0x03 0x03 0x03 Instance 0x00 0x00 0x00... -
Page 124: Supported Standard Ipmi Commands
K800G4 BMC Specification 12. Supported Standard IPMI Commands Key for Command Privilege Levels Table: b = command only generated by BMC, can be sent prior to a session being established b1 = command only generated by BMC, can only be delivered to a session-less channel, or a channel that has an active session ... -
Page 125: Chassis Device Commands
K800G4 BMC Specification Get Channel Authentication Capabilities 22.13 App(06h) Get Session Challenge 22.15 App(06h) Activate Session 22.17 App(06h) Set Session Privilege Level 22.18 App(06h) Close Session 22.19 App(06h) Get Session Info 22.20 App(06h) Get AuthCode 22.21 App(06h) Set Channel Access 22.22 App(06h) Get Channel Access... -
Page 126: Pef And Alerting Commands
K800G4 BMC Specification 12.6 PEF and Alerting Commands Support Command IPMI Spec Ref. NetFn Get PEF Capabilities 30.1 S/E(04h) Arm PEF Postpone Timer 30.2 S/E(04h) Set PEF Configuration Parameters 30.3 S/E(04h) Get PEF Configuration Parameters 30.4 S/E(04h) Set Last Processed Event ID 30.5 S/E(04h) Get Last Processed Event ID... -
Page 127: Sel Device Commands
K800G4 BMC Specification 12.10 SEL Device Commands Support Command IPMI Spec Ref. NetFn Get SEL Info 31.2 Storage(0Ah) Get SEL Allocation Info 31.3 Storage(0Ah) Reserve SEL 31.4 Storage(0Ah) Get SEL Entry 31.5 Storage(0Ah) Add SEL Entry 31.6 Storage(0Ah) Partial Add SEL Entry 31.7 Storage(0Ah) Delete SEL Entry... -
Page 128: Discovery Commands (Icmb)
K800G4 BMC Specification Get ICMB Connector Info [ICMB] Bridge(02h) Get ICMB Connection ID [ICMB] Bridge(02h) Send ICMB Connection ID [ICMB] Bridge(02h) 12.15 Discovery Commands (ICMB) Support Command IPMI Spec Ref. NetFn PrepareForDiscovery [ICMB] Bridge(02h) GetAddresses [ICMB] Bridge(02h) SetDiscovered [ICMB] Bridge(02h) GetChassisDeviceId [ICMB] Bridge(02h) -
Page 129: Bmc Booting
K800G4 BMC Specification 13. BMC Booting The BMC provide the robust mechanism to make sure the correct firmware to be loaded. 13.1. Redundant Firmware Image Redundant firmware only be supported in SD Card mode. If there is no SD card or SD function is disabled, BMC redundant firmware is disabled.
Need help?
Do you have a question about the P47 series and is the answer not in the manual?
Questions and answers