Supermicro X13DGU User Manual
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Supermicro X13DGU User Manual

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X13DGU
USER'S MANUAL
Revision 1.0a

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Summary of Contents for Supermicro X13DGU

  • Page 1 X13DGU USER'S MANUAL Revision 1.0a...
  • Page 2 State of California, USA. The State of California, County of Santa Clara shall be the exclusive venue for the resolution of any such disputes. Supermicro's total liability for all claims will not exceed the price paid for the hardware product.
  • Page 3 (Socket E LGA 4677) with four UPIs (20GT/s max.) and a thermal design power (TDP) of up to 350W. Built with the Intel C741 chipset, the X13DGU supports up to 8TB 3DS RDIMM/ RDIMM DDR5 ECC memory with speeds up to 5600MT/s (1DPC) or 4400MT/s (2DPC) in 32 DIMM slots (Note below).
  • Page 4 Super X13DGU User's Manual Contacting Supermicro Headquarters Address: Super Micro Computer, Inc. 980 Rock Ave. San Jose, CA 95131 U.S.A. Tel: +1 (408) 503-8000 Fax: +1 (408) 503-8008 Email: marketing@supermicro.com (General Information) Sales-USA@supermicro.com (Sales Inquiries) Government_Sales-USA@supermicro.com (Gov. Sales Inquiries) support@supermicro.com (Technical Support) RMA@supermicro.com...

  • Page 5: Table Of Contents

    Preface Table of Contents Chapter 1 Introduction 1.1 Overview ..........................7 1.2 Processor and Chipset Support ..................19 1.3 Special Features ........................20 1.4 System Health Monitoring ....................20 1.5 ACPI Features ........................20 1.6 Power Supply ........................21 1.7 System Reboot ........................21 1.8 Serial Port ...........................21 Chapter 2 Installation 2.1 Static-Sensitive Devices .....................22 2.2 Processor and Heatsink Installation ...................23...
  • Page 6 Super X13DGU User's Manual 4.8 Save & Exit ........................170 Appendix A BIOS POST Codes A.1 BIOS POST Codes ......................172 Appendix B Software B.1 Microsoft Windows OS Installation ...................173 B.2 Driver Installation ......................175 B.3 BMC ..........................176 B.3 Logging into the BMC (Baseboard Management Controller) ...........176...

  • Page 7: Chapter 1 Introduction

    1.1 Overview Congratulations on purchasing your computer motherboard from an industry leader. Supermicro motherboards are designed to provide you with the highest standards in quality and performance. This chapter provides detailed information on the components installed on your system board and the features supported by your system.
  • Page 8 Super X13DGU User's Manual X13DGU Motherboard Image Note: All graphics shown in this manual were based upon the latest PCB revision available at the time of publication of the manual. The motherboard you received may or may not look exactly the same as the graphics shown in this manual.
  • Page 9 Chapter 1: Introduction X13DGU Motherboard Layout (not drawn to scale) JCPLD2 JSWID1 JSWID2 JMCIO10 JMCIO16 JMCIO15 JMCIO14 JMCIO13 JMCIO24 JMCIO9 JMCIO12 JMCIO11 JMCIO32 JMCIO31 JMCIO23 JRSC_PWR1 JRSC_PWR2 JRSC_PWR3 JAIOM_PWR1 X13DGU REV:1.02 DESIGNED IN USA MAC CODE M.2-C2 NVME ONLY JPDB1...
  • Page 10 Super X13DGU User's Manual Quick Reference FAN5A JCPLD2 JSWID1 JSWID2 FAN3A FAN5B FAN3B JMCIO10 JMCIO12 JMCIO11 JMCIO16 JMCIO15 JMCIO14 JMCIO13 JMCIO32 JMCIO31 JMCIO24 JMCIO23 JMCIO9 JRSC_PWR1 JRSC_PWR2 P12V JMCIO2 JMCIO19 P12V JAIOM_PWR1 JRSC_PWR4 JRSC_PWR3 JRSC_PWR3 JMCIO5 P1-DIMMH1 JAIOM_PWR1 JAIOM_PWR2 P1-DIMMH2 JMCIO20 X13DGU REV:1.02...
  • Page 11 JMCIO10 JMCIO9 JMCIO12 JMCIO11 JMCIO14 JMCIO13 JMCIO32 JMCIO31 JMCIO23 BIOS IPMI JRSC_PWR1 JRSC_PWR2 JVRM2 JRSC_PWR3 JVRM1 JAIOM_PWR1 X13DGU REV:1.02 DESIGNED IN USA MAC CODE M.2-C2 NVME ONLY JPDB1 CPLD DUALBOOT CPU2 CPU1 MH12 MH13 LEDPWR MH14 IPMI BIOS JPME2 JVRM2...
  • Page 12 Super X13DGU User's Manual Quick Reference Table Jumper Description Default Setting Open: Normal JBT1 CMOS Clear On-board 10G LAN device Enable JPTG1 Pins 1/2: Enable 10G LAN Jumper JRU1 UID LED/BMC Reset Jumper Pins 1/2: UID LED (Default), Pins 3/4: BMC Reset JVRM1 BMC I²C/SCL to VRM...
  • Page 13 VROC RAID Configuration User's Guide posted on the web page under the link: http://www.supermicro.com/support/manuals/. Note 2: For details on how to configure Network Interface Card (NIC) settings, please refer to the Network Interface Card Configuration User's Guide posted on our website under the link: http://www.supermicro.com/support/manuals/.
  • Page 14 Super X13DGU User's Manual Memory Slots This motherboard contains 32 DIMM slots which supports up to 8TB of DDR5 memory in 32 slots. Please refer to the layout drawing below for the locations of the DIMM slots: DIMM Slots Supported by CPU1...
  • Page 15 JSWID1 JSWID2 JMCIO10 JMCIO16 JMCIO15 JMCIO14 JMCIO13 JMCIO32 JMCIO31 JMCIO24 JMCIO23 JMCIO9 JMCIO12 JMCIO11 JRSC_PWR1 JRSC_PWR2 JRSC_PWR3 JAIOM_PWR1 X13DGU REV:1.02 DESIGNED IN USA MAC CODE NVME ONLY M.2-C2 JPDB1 CPU2 CPU1 MH12 MH13 LEDPWR MH14 IPMI BIOS JPME2 JPME1 JVRM2...
  • Page 16 Super X13DGU User's Manual Motherboard Features Motherboard Features • Supports dual 4th/5th Gen Intel Xeon Scalable Processors (Socket E LGA 4677) with four UPIs (20GT/s max.) and a thermal design power (TDP) of up to 350W • Max Series (HBM) SKUs are supported.
  • Page 17 Note 1: The CPU maximum thermal design power (TDP) is subject to chassis and heatsink cooling restrictions. For proper thermal management, please check the chas- sis and heatsink specifications. Note 2: For BMC configuration instructions, please refer to the Embedded BMC Con- figuration User's Guide available at http://www.supermicro.com/support/manuals/.
  • Page 18 Super X13DGU User's Manual X13DGU CPU1-D1/D2 CPU1-C1/C2 CPU1-B1/B2 CPU1-A1/A2 CPU2-A1/A2 CPU2-B1/B2 CPU2-C1/C2 CPU2-D1/D2 CPU2 CPU1 CPU1-H1/H2 CPU1-G1/G2 CPU1-F1/F2 CPU1-E1/E2 CPU2-E1/E2 CPU2-F1/F2 CPU2-G1/G2 CPU2-H1/H2 MCIO x8 VERT MCIO x8 VERT MCIO x8 MCIO x8 Intel VERT RJ45 VERT 10G LAN X710...

  • Page 19: Processor And Chipset Support

    1.2 Processor and Chipset Support Built upon the functionality and capability of the 4th/5th Gen Intel Xeon Scalable Processors (Socket E LGA 4677) and the Intel C741 PCH, the X13DGU motherboard offers critical, pivotal technological breakthroughs that unleash unprecedented computing capabilities and provides a scalable platform optimized for applications used in Artificial Intelligence (AI) Acceleration, Deep Learning Boost, Network Interconnectivity, and Platform Manageability technologies.

  • Page 20: Special Features

    System Health sensors monitor temperatures and voltage settings of onboard processors and the system in real time via the BMC interface. Whenever the temperature of the CPU or the system exceeds Supermicro’s pre-defined threshold, the system and CPU cooling fan speed will increase to prevent the CPU or system from overheating.

  • Page 21: Power Supply

    1.8 Serial Port The X13DGU motherboard supports one serial port via a header on the I/O board. COM Port (JCOM1) is used for input/output. The UART provides legacy speeds with a baud rate of up...

  • Page 22: Chapter 2 Installation

    Super X13DGU User's Manual Chapter 2 Installation 2.1 Static-Sensitive Devices Electrostatic Discharge (ESD) can damage electronic com ponents. To avoid damaging your motherboard, it is important to handle it very carefully. The following measures are generally sufficient to protect your equipment from ESD.

  • Page 23: Processor And Heatsink Installation

    Thermal grease is pre-applied on a new heatsink. No additional thermal grease is needed. • Refer to the Supermicro website for updates on processor and memory support. • All graphics in this manual are for illustrations only. Your components may look different.
  • Page 24 Super X13DGU User's Manual The 4th Gen Intel Xeon Scalable Processor Note: 4th and 5th Gen Intel Xeon Scalable processors share the same installation procedures. Please use the 4th Gen Intel Xeon Scalable processor installation process as a reference. 1. The 4th Gen Intel Xeon Scalable Processor...
  • Page 25 Chapter 2: Installation 2. The Processor Carrier Pin 1 Pin 1 Pin 1 Carrier Top View Carrier E1C Carrier E1A Carrier E1B = Cutout = CPU Key = Pin 1 = Cutout = Pin 1 = CPU Key Carrier Bottom View...
  • Page 26 Super X13DGU User's Manual 3. Heatsink 1U Heatsink 2U Heatsink 4U Heatsink and Heatsink Fan Note: Exercise extreme care when handling the heatsink. Pay attention to the edges of heatsink fins, which can be sharp! To avoid damaging the heatsink, please do not...
  • Page 27 Chapter 2: Installation Overview of the CPU Socket The CPU socket is protected by a plastic protective cover. Plastic Protective Cover CPU Socket...
  • Page 28 Super X13DGU User's Manual Overview of the Processor Carrier Assembly The processor carrier assembly contains a 4th Gen Intel Xeon Scalable processor and a processor carrier. Carefully follow the instructions given in the installation section to place a processor into the carrier to create a processor carrier.
  • Page 29 Chapter 2: Installation 2. CPU Carrier (Top View) CPU Carrier (2D) CPU Carrier (3D) Carrier E1A Carrier E1C Carrier E1B Carrier E1A Carrier E1B Carrier E1C 3. CPU Carrier Assembly SP XCC series CPU in Max series (HBM) CPU SP MCC series CPU in Carrier Carrier E1A in Carrier E1C (with Processor Seated inside the Carrier)
  • Page 30 Super X13DGU User's Manual Overview of the Processor Heatsink Module (PHM) The Processor Heatsink Module (PHM) contains a heatsink, a processor carrier, and a 4th Gen Intel Xeon Scalable processor. 1. Heatsink (Bottom View Shown Below) 1U Heatsink 2U Heatsink 4U Heatsink 2.
  • Page 31 Chapter 2: Installation 1. Heatsink (Bottom View Shown Below) 1U Heatsink 2U Heatsink 4U Heatsink 2. Processor Carrier E1C 3. The 4th Gen Intel Xeon Scalable Processor (Max series (HBM)) (Component Side) 4. Processor Heatsink Module (PHM) (Bottom View Shown Below) 1U Heatsink 2U Heatsink 4U Heatsink...
  • Page 32 Super X13DGU User's Manual 1. Heatsink (Bottom View Shown Below) 1U Heatsink 4U Heatsink 2U Heatsink 2. CPU Carrier E1B 3. The 4th Gen Intel Xeon Scalable Processor (SP MCC) (Component Side Shown Below) 4. Processor Heatsink Module (PHM) (Bottom View Shown Below)
  • Page 33 Chapter 2: Installation Creating the Processor Carrier Assembly The processor carrier assembly contains a 4th Gen Intel Xeon Scalable processor and a processor carrier. To create the processor carrier assembly, please follow the steps below: Note: Before installation, be sure to follow the instructions given on pages 1 and 2 of this chapter to properly prepare for installation.
  • Page 34 Super X13DGU User's Manual 2. First, turn over the processor carrier and locate Pin 1 on the CPU and Pin 1 on the carrier. Then, turn the processor over with component side (including the gold contacts) facing up and locate CPU keys on the processor. Finally, locate the CPU keys and four latches on the carrier as shown below.
  • Page 35 Chapter 2: Installation 3. Locate the lever on the CPU socket and press it down as shown below. Lever Lever Carrier E1B Carrier E1A 4. Using Pin 1 as a guide, carefully align the CPU keys (A and B) on the processor against the CPU keys on the carrier (a and b) as shown in the drawing below.
  • Page 36 Super X13DGU User's Manual 6. After the processor is placed inside the carrier, examine the four sides of the processor, making sure that the processor is properly seated on the carrier. SP XCC Series (Top View) (Component View) CPU Carrier Assembly...
  • Page 37 Chapter 2: Installation Creating the PHM After creating the processor carrier assembly, please follow the instructions below to mount the processor carrier into the heatsink to form the PHM. Note: If this is a new heatsink, the thermal grease has been pre-applied on the un- derside.
  • Page 38 Super X13DGU User's Manual CPU Carrier Assembly (for 1U Heatsink) (CPU Component Side and Heatsink Bottom Side) Max Series (HBM) SP XCC Series Pin 1 Pin 1 SP MCC Series Pin 1 Processor Heatsink Module (PHM) 1U Heatsink...
  • Page 39 Chapter 2: Installation CPU Carrier Assembly (for 2U Heatsink) (CPU Component Side and Heatsink Bottom Side) SP XCC Series Max Series (HBM) Pin 1 Pin 1 SP MCC Series Pin 1 Processor Heatsink Module (PHM) 2U Heatsink...
  • Page 40 Super X13DGU User's Manual CPU Carrier Assembly (for 4U Heatsink) (CPU Component Side and Heatsink Bottom Side) SP XCC Series Max Series (HBM) SP MCC Series Pin 1 Pin 1 Pin 1 Processor Heatsink Module (PHM) 4U Heatsink...
  • Page 41 Chapter 2: Installation Preparing the CPU Socket for Installation This motherboard comes with a plastic protective cover installed on the CPU socket. Remove it from the socket by following the instructions below: 1. Press the tabs inward. 2. Pull up the protective cover from the socket.
  • Page 42 Super X13DGU User's Manual Preparing to Install the PHM into the CPU Socket After assembling the Processor Heatsink Module, you are ready to install it into the CPU socket. To ensure the proper installation, please follow the procedures below: 1. Locate four threaded fasteners (a, b, c, d) on the CPU socket.
  • Page 43 Chapter 2: Installation Rotating Wire Heatsink (Reverse Side) A, B, C, D: PEEK Nut 1, 2, 3, 4: Rotating Wire a, b, c, d: Threaded Fastener Rotating Wire Rotating Wire Rotating Wire Rotating Wire 1 PEEK Nut PEEK Nut (Unlatched) (Latched) CPU Socket 2U Heatsink...
  • Page 44 Super X13DGU User's Manual 3. Check the rotating wires (1, 2, 3, 4) to make sure that they are at unlatched positions as shown in the drawing below before installing the PHM into the CPU socket. Unlatched State Top View...
  • Page 45 Chapter 2: Installation Installing the PHM into the CPU Socket 1. Align PEEK nut A, which is next to the triangle (Pin 1) on the heatsink, against threaded fastener a on the CPU socket. Then align PEEK nuts B, C, and D on the heatsink against threaded fasteners b, c, and d on the CPU socket, making sure that all PEEK nuts on the heatsink are properly aligned with the correspondent threaded fasteners on the CPU socket.
  • Page 46 Super X13DGU User's Manual 3. Press all four rotating wires outwards and make sure that the heatsink is securely latched onto the CPU socket. Latched State 1U Heatsink Latched State 2U Heatsink Latched State 4U Heatsink...
  • Page 47 Chapter 2: Installation 4. With a T30 bit torque driver set to a force of 8.0 in-lbf (0.904 N-m), gradually tighten all PEEK nuts in the sequence of A, B, C, and D with even pressure. Important: Do not use a force greater than 8.0 in-lbf (0.904 N-m). Exceeding this force may over-torque the screw, causing damage to the processor, heatsink, and screw.
  • Page 48 Super X13DGU User's Manual Installing the Fan onto the 4U Heatsink (for 4U Heatsinks Only) 1. Align the aluminum fan shroud against the top of the 4U heatsink. The fan shroud was designed to match perfectly with the top of the heatsink in terms of geometric shape.
  • Page 49 Chapter 2: Installation 3. Insert the torx screw into the screw hole on top the heatsink and turn it clockwise to tighten the screw. torx screw 4. Connect the fan power connector to a 4-pin fan header on the motherboard.
  • Page 50 Super X13DGU User's Manual Uninstalling the Fan Before Removing the PHM (for 4U Heatsinks Only) 1. Loosen the torx screw from the heatsink. Unplug the fan power connector from the fan header. 2. Gently pull the heatsink fan upward to detach it from the heatsink.
  • Page 51 Chapter 2: Installation Removing the PHM from the CPU Socket Before removing the PHM from the motherboard, be sure to shut down the system and unplug the power cables from the power supply. Then follow the steps below: 1. Use a T30 bit driver to loosen the four PEEK nuts on the heatsink in the sequence of A, B, C, and D.
  • Page 52 Super X13DGU User's Manual 2. Once the PEEK nuts are loosened from the CPU socket, press the rotating wires inwards to unlatch the PHM from the socket as shown in the drawings below. Unlatched State 1U Heatsink Unlatched State 2U Heatsink...
  • Page 53 Chapter 2: Installation 3. Gently pull the PHM upwards to remove it from the CPU socket. 2U Heatsink 1U Heatsink 4U Heatsink...
  • Page 54 Super X13DGU User's Manual Removing the Processor Carrier Assembly from the PHM To remove the processor carrier assembly from the PHM, please follow the steps below: 1. Detach the four plastic clips (marked a, b, c, d) on the processor carrier assembly from the four corners of the heatsink (marked A, B, C, D) as shown in the drawings below.
  • Page 55 Chapter 2: Installation 4U Heatsink (View of Component Side and Heatsink Bottom Side) Pin 1 Pin 1 SP XCC series Max Series (HBM) Pin 1 SP MCC series...
  • Page 56 Super X13DGU User's Manual 2. When all plastic clips are detached from the heatsink, remove the processor carrier assembly from the heatsink. 1U Heatsink (View of Component Side and Heatsink Bottom Side) Max Series (HBM) SP MCC series SP XCC series...
  • Page 57 Chapter 2: Installation 4U Heatsink (View of Component Side and Heatsink Bottom Side) SP XCC series Max Series (HBM) SP MCC series...
  • Page 58 Super X13DGU User's Manual Removing the Processor from the Processor Carrier Assembly Once you have removed the processor carrier assembly from the PHM, you are ready to remove the processor from the processor carrier by following the steps below. 1. Unlock the lever from its locked position and push the lever upwards to disengage the processor from the processor carrier as shown in the drawing on the right below.

  • Page 59: Motherboard Installation

    JSWID1 JSWID2 JMCIO10 JMCIO11 JMCIO16 JMCIO15 JMCIO14 JMCIO13 JMCIO32 JMCIO31 JMCIO24 JMCIO23 JMCIO9 JMCIO12 JRSC_PWR1 JRSC_PWR2 JRSC_PWR3 JAIOM_PWR1 X13DGU REV:1.02 DESIGNED IN USA MAC CODE NVME ONLY M.2-C2 JPDB1 CPU2 CPU1 MH12 MH13 LEDPWR MH14 IPMI BIOS JPME2 JPME1 JVRM2...
  • Page 60 Super X13DGU User's Manual Installing the Motherboard 1. Install the I/O shield into the back of the chassis, if applicable. 2. Locate the mounting holes on the motherboard. See the previous page for the location. 3. Locate the matching mounting holes on the chassis. Align the mounting holes on the motherboard against the mounting holes on the chassis.

  • Page 61: Memory Support And Installation

    Chapter 2: Installation 2.4 Memory Support and Installation Note: Check the Supermicro website for recommended memory modules. Important: Exercise extreme care when installing or removing memory modules to prevent any possible damage. Memory Support This motherboard supports up to 8TB 3DS RDIMM/RDIMM DDR5 (288-pin) ECC memory with speeds up to 5600MT/s (1DPC) or 4400MT/s (2DPC) in 32 DIMM configuration (Note below).
  • Page 62 Super X13DGU User's Manual DDR5 Memory Support for the 5th Gen Intel Xeon Scalable Processors Speed (MT/s); Voltage (V); DIMM Per Channel (DPC) Ranks Per DIMM DIMM Capacity (GB) Type & Data Width 1DPC (Note) 2DPC (Stack) 16Gb 24Gb 1.1V...
  • Page 63 Chapter 2: Installation Memory Population Table for 4th/5th Gen Intel Xeon Scalable Processors DDR5 Memory Population Table for X13DP Motherboards (with 32 DIMMs Installed) 1 CPU: Memory Population Sequence P1-DIMMA1 P1-DIMME1 1 CPU & 1 DIMM P1-DIMMB1 P1-DIMMF1 P1-DIMMA1/P1-DIMMG1 1 CPU & 2 DIMMs P1-DIMMC1/P1-DIMME1 1 CPU &...
  • Page 64 Super X13DGU User's Manual Memory Population Table for Max Series (HBM) Processors DDR5 Memory Population Table for X13DP Motherboards (with Max series (HBM) CPUs and 32 DIMMs Installed) 1 CPU: Memory Population Sequence P1-DIMMA1 1 CPU & 1 DIMM P1-DIMME1 P1-DIMMA1/P1-DIMMG1 1 CPU &...
  • Page 65 JRSC_PWR2 1. Insert the desired number of DIMMs into the memory JRSC_PWR3 slots based on the recommended DIMM population tables JAIOM_PWR1 X13DGU REV:1.02 DESIGNED IN USA MAC CODE M.2-C2 NVME ONLY in the previous section. Locate DIMM memory slots on JPDB1 the motherboard as shown on the right.
  • Page 66 Super X13DGU User's Manual DIMM Removal Press both release tabs on the ends of the memory module to unlock it. Once the memory module has been loosened, remove it from the memory slot. Warning! Please do not use excessive force when pressing the release tabs on the ends of the DIMM socket to avoid causing any damage to the memory module or the DIMM socket.

  • Page 67: Rear I/O Connectors/Ports

    JSWID1 JSWID2 JMCIO10 JMCIO16 JMCIO15 JMCIO24 JMCIO9 JMCIO12 JMCIO11 JMCIO14 JMCIO13 JMCIO32 JMCIO31 JMCIO23 JRSC_PWR1 JRSC_PWR2 JRSC_PWR3 JAIOM_PWR1 X13DGU REV:1.02 DESIGNED IN USA MAC CODE M.2-C2 NVME ONLY JPDB1 CPU2 CPU1 MH12 MH13 LEDPWR MH14 IPMI BIOS JPME2 JVRM2 JPME1...
  • Page 68 Super X13DGU User's Manual VGA Connections The rear VGA connection is located on the JVGA1 on the rear side of the motherboard. The VGA connection provides analog interface support between the computer and the video displays. Refer to the layout below for the locations of VGA connections.
  • Page 69 JSWID1 JSWID2 JMCIO10 JMCIO16 JMCIO15 JMCIO14 JMCIO13 JMCIO31 JMCIO24 JMCIO23 JMCIO9 JMCIO12 JMCIO11 JMCIO32 JRSC_PWR1 JRSC_PWR2 JRSC_PWR3 JAIOM_PWR1 X13DGU REV:1.02 DESIGNED IN USA MAC CODE NVME ONLY M.2-C2 JPDB1 CPU1 CPU2 MH12 MH13 LEDPWR MH14 IPMI BIOS JPME2 JPME1 JVRM2...

  • Page 70: Front Control Panels

    1, located at JFP1, contains header pins for various buttons and LED indications with I²C support for front access. These front control panel headers are designed specifically for use with Supermicro chassis. See the figure below for the pin-out descriptions for JFP1. JCPLD2...
  • Page 71 JMCIO13 JMCIO32 JMCIO31 JMCIO24 JMCIO23 JMCIO9 JMCIO12 JMCIO11 JRSC_PWR1 JRSC_PWR2 Power/RoT LED_N P3V3_STBY JRSC_PWR3 JAIOM_PWR1 Ground X13DGU REV:1.02 DESIGNED IN USA MAC CODE NVME ONLY M.2-C2 I2C Data JPDB1 I2C Clock Ground Power Fail LED_P P5V_USB CPU1 CPU2 P5V_USB MH12...
  • Page 72 Super X13DGU User's Manual UID LED The unit identifier LED connection is located on Pin 3 of JFP1. See the figure below for more information on JFP1. Fail LED (Information LED for OH/FF/PF) The Fail LED (Information LED for OH/Fan Fail/PWR Fail) connection is located on Pin 4 of JFP1.
  • Page 73 Chapter 2: Installation LAN1/LAN2 (NIC1/NIC2) The NIC (Network Interface Controller) LED connection for LAN Port 1 is located on Pin 6 of JFP1, and LAN Port 2 is on Pin 5. Refer to the tables below. LAN1/LAN2 LED LED States Color State NIC 2: Blinking green...
  • Page 74 Super X13DGU User's Manual Standby Power LED The LED indicator for standby power is located on Pin 8 of JFP1. If this LED is on, standby power is on. RoT (Root of Trust) Power LED The Power LED for RoT (Root of Trust) connection is located on Pin 9 of JFP1. If this LED is on, power for the RoT chip is on.
  • Page 75 Chapter 2: Installation Standby Power A Standby Power (I C) connection is located on Pin 10 ~ Pin 14 of JFP1 to provide power to the system when it is in standby mode. Refer to the table below for Pin definitions. 3.3V Standby PWR Pin Definitions Pin#...
  • Page 76 Super X13DGU User's Manual FP USB Power Front Panel USB power connections are located on Pin 16 ~ Pin 18 of JFP1 to provide power to front USB devices. Refer to the table below for Pin definitions. FP USB PWR...

  • Page 77: Connectors

    JMCIO11 JMCIO16 JMCIO15 JMCIO14 JMCIO13 JMCIO32 JMCIO31 JMCIO23 JRSC_PWR1 JRSC_PWR2 3. JRSC_PWR1 4. JRSC_PWR2 JRSC_PWR3 JAIOM_PWR1 X13DGU REV:1.02 5. JRSC_PWR3 DESIGNED IN USA MAC CODE M.2-C2 NVME ONLY 6. JRSC_PWR4 JPDB1 7. JAIOM_PWR1 8. JAIOM_PWR2 CPU1 CPU2 MH12 MH13 LEDPWR...
  • Page 78 Super X13DGU User's Manual Stand By Power Connector A 12V stand by power connector is located at JPDB_P12V_STBY. Refer to the table below for Pin definitions. 12V 4-pin Power Pin Definitions Pin# Definition 1 - 2 Ground 3 - 4...
  • Page 79 JSWID1 JSWID2 JMCIO10 JMCIO16 JMCIO15 JMCIO24 JMCIO9 JMCIO12 JMCIO11 JMCIO14 JMCIO13 JMCIO32 JMCIO31 JMCIO23 JRSC_PWR1 JRSC_PWR2 JRSC_PWR3 JAIOM_PWR1 X13DGU REV:1.02 DESIGNED IN USA MAC CODE NVME ONLY M.2-C2 JPDB1 CPU2 CPU1 MH12 MH13 LEDPWR MH14 IPMI BIOS JPME2 JPME1 JVRM2...
  • Page 80 The JTPM1 header is used to connect a Trusted Platform Module (TPM)/Port 80, which is available from Supermicro (optional). A TPM/Port 80 connector is a security device that supports encryption and authentication in hard drives. It allows the motherboard to deny access if the TPM associated with the hard drive is not installed in the system.
  • Page 81 JSWID1 JSWID2 JMCIO10 JMCIO12 JMCIO11 JMCIO16 JMCIO15 JMCIO14 JMCIO13 JMCIO32 JMCIO31 JMCIO24 JMCIO23 JMCIO9 JRSC_PWR1 JRSC_PWR2 JRSC_PWR3 JAIOM_PWR1 X13DGU REV:1.02 DESIGNED IN USA MAC CODE NVME ONLY M.2-C2 JPDB1 CPU2 CPU1 MH12 MH13 LEDPWR MH14 BIOS IPMI JPME2 JVRM2 JPME1...
  • Page 82 Super X13DGU User's Manual 6-pin BMC External I C Header A System Management Bus header for the BMC is located at JIPMB1. Connect the appropriate cable here to use the IPMB I C connection on your system. Refer to the layout for the location of JIPMB1.
  • Page 83 JMCIO9 JMCIO12 JMCIO11 JMCIO16 JMCIO15 JMCIO14 JMCIO13 JMCIO32 JMCIO31 JMCIO23 JRSC_PWR1 JRSC_PWR2 4. MH10 (for JM2_HC2 Slot) JRSC_PWR3 JAIOM_PWR1 X13DGU REV:1.02 DESIGNED IN USA MAC CODE M.2-C2 NVME ONLY JPDB1 CPU1 CPU2 MH12 MH13 LEDPWR MH14 IPMI BIOS JPME2 JVRM2...
  • Page 84 Super X13DGU User's Manual MCIO NVMe Connectors MCIO NVMe connectors, located at JMCIO5/9/10/13/14, provide eight PCIe 5.0 x8 connections on the motherboard. Use these MCIO connectors to support high-speed PCIe storage devices. Note: When installing an NVMe device on a motherboard, please be sure to connect the first NVMe port (JMCIO9/JMCIO13) first for your system to work properly.
  • Page 85 JSWID1 JSWID2 JMCIO10 JMCIO16 JMCIO15 JMCIO24 JMCIO23 JMCIO9 JMCIO12 JMCIO11 JMCIO14 JMCIO13 JMCIO32 JMCIO31 JRSC_PWR1 JRSC_PWR2 JRSC_PWR3 JAIOM_PWR1 X13DGU REV:1.02 DESIGNED IN USA MAC CODE M.2-C2 NVME ONLY JPDB1 CPU1 CPU2 MH12 MH13 LEDPWR MH14 IPMI BIOS JPME2 JPME1 JVRM2...

  • Page 86: Jumper Settings

    Super X13DGU User's Manual 2.8 Jumper Settings Connector Pins How Jumpers Work To modify the operation of the motherboard, jumpers can Jumper be used to choose between optional settings. Jumpers create shorts between two pins to change the function of the Setting connector.
  • Page 87 JMCIO15 JMCIO13 JMCIO24 JMCIO23 JMCIO9 JMCIO12 JMCIO11 JMCIO14 JMCIO32 JMCIO31 JRSC_PWR1 JRSC_PWR2 JRSC_PWR3 JAIOM_PWR1 1. Clear CMOS (JBT1) X13DGU REV:1.02 DESIGNED IN USA MAC CODE M.2-C2 NVME ONLY 2. JVRM1 JPDB1 3. JVRM2 CPU1 CPU2 MH12 MH13 LEDPWR MH14 BIOS...
  • Page 88 Super X13DGU User's Manual UID LED and BMC_Reset Button Select Jumper Jumper JRU1 is used in conjunction with Pin 2 of Front Control Panel header 1 (JFP1) to function as a BMC_Reset button or a UID LED button. To configure Pin 2 of JFP1 for front UID button use in a chassis that supports front UID connection, close Pins 1 and 2 of jumper JRU1.

  • Page 89: Led Indicators

    JMCIO13 JMCIO32 JMCIO31 JMCIO24 JMCIO23 JMCIO9 JMCIO12 JMCIO11 JRSC_PWR1 JRSC_PWR2 1. BMC LAN LEDs JRSC_PWR3 2. UID LED (LED29) JAIOM_PWR1 X13DGU REV:1.02 DESIGNED IN USA MAC CODE NVME ONLY M.2-C2 JPDB1 CPU2 CPU1 MH12 MH13 LEDPWR MH14 IPMI BIOS JPME2...
  • Page 90 Super X13DGU User's Manual Onboard Power LED The Onboard Power LED is located at LEDPWR on the motherboard. When this LED is on, the system power is on. Be sure to turn off the system power and unplug the power cords before removing or installing components.
  • Page 91 JMCIO10 JMCIO16 JMCIO15 JMCIO24 JMCIO23 JMCIO9 JMCIO12 JMCIO11 JMCIO14 JMCIO13 JMCIO32 JMCIO31 2. LED31 JRSC_PWR1 JRSC_PWR2 JRSC_PWR3 JAIOM_PWR1 X13DGU REV:1.02 DESIGNED IN USA MAC CODE M.2-C2 NVME ONLY JPDB1 CPU1 CPU2 MH12 MH13 LEDPWR MH14 IPMI BIOS JPME2 JPME1 JVRM2...

  • Page 92: Chapter 3 Troubleshooting

    Super X13DGU User's Manual Chapter 3 Troubleshooting 3.1 Troubleshooting Procedures Use the following procedures to troubleshoot your system. If you have followed all of the procedures below and still need assistance, refer to the ‘Technical Support Procedures’ and/ or ‘Returning Merchandise for Service’ section(s) in this chapter. Always disconnect the AC power cord before adding, changing or installing any non hot-swap hardware components.
  • Page 93 Chapter 3: Troubleshooting No Video 1. If the power is on, but you do not have video, remove all add-on cards and cables. 2. Remove all memory modules and turn on the system (if the alarm is on, check the specs of memory modules, reset the memory, or try a different one).
  • Page 94 Super X13DGU User's Manual When the System Becomes Unstable A. If the system becomes unstable during or after OS installation, check the following: 1. CPU/BIOS support: Make sure that your CPU is supported and that you have the latest BIOS installed in your system.

  • Page 95: Technical Support Procedures

    Before contacting Technical Support, please take the following steps. Also, please note that as a motherboard manufacturer, Supermicro also sells motherboards through its channels, so it is best to first check with your distributor or reseller for troubleshooting services. They should know of any possible problems with the specific system configuration that was sold to you.

  • Page 96: Frequently Asked Questions

    BIOS before downloading. Note 1: The SPI BIOS chip used on this motherboard cannot be removed. Send your motherboard back to our RMA Department at Supermicro for repair. Note 2: For BIOS Update and Recovery instructions, please refer to the Firmware Update and Recovery Instructions for Supermicro's X13 Motherboards User's Guide posted at https://www.supermicro.com/support/manuals/.

  • Page 97: Battery Removal And Installation

    Chapter 3: Troubleshooting 3.4 Battery Removal and Installation Battery Removal To remove the onboard battery, follow the steps below: 1. Power off your system and unplug your power cable. 2. Locate the onboard battery as shown below. 3. Using a tool such as a pen or a small screwdriver, push the battery lock outwards to unlock it.

  • Page 98: Returning Merchandise For Service

    Super X13DGU User's Manual 3.5 Returning Merchandise for Service A receipt or copy of your invoice marked with the date of purchase is required before any warranty service will be rendered. You can obtain service by calling your vendor for a Returned Merchandise Authorization (RMA) number.

  • Page 99: Chapter 4 Uefi Bios

    Chapter 4: UEFI BIOS Chapter 4 UEFI BIOS 4.1 Introduction This chapter describes the AMIBIOS™ Setup utility for the motherboard. The BIOS is stored on a chip and can be easily upgraded using the BMC WebUI or the SUM utility. Note: Due to periodic changes to the BIOS, some settings may have been added or deleted and might not yet be recorded in this manual.

  • Page 100: Main Setup

    Super X13DGU User's Manual 4.2 Main Setup When you first enter the AMI BIOS Setup utility, you will see the Main setup screen. You can always return to the Main setup screen by selecting the Main tab on the top of the screen.
  • Page 101 Chapter 4: UEFI BIOS Memory Information Total Memory This feature displays the total size of memory available in the system.

  • Page 102: Advanced Setup Configurations

    Super X13DGU User's Manual 4.3 Advanced Setup Configurations Use the arrow keys to select the Advanced submenu and press <Enter> to access the submenu items: Warning: Take caution when changing the Advanced settings. An incorrect value, an improper DRAM frequency, or a wrong BIOS timing setting may cause the system to malfunction. When this occurs, restore the setting to the manufacturer default setting.
  • Page 103 USB ports without rebooting the system. The options are Enabled, Disabled, and Enabled (Dynamic). Note: To fully utilize the functionality and features supported by Supermicro Manage- ment software and utilities, please use the Supermicro DataCenter Management Suite per Node License Key (SFT-DCMS-SINGLE), which is the license to the Supermicro’s...
  • Page 104 Super X13DGU User's Manual Rear USB Port(s) (This feature will display only when DCMS key is activated) Select Enabled to allow the specific type of USB devices to be used in the rear USB ports. Select Enabled (Dynamic) to allow or disallow this particular type of USB devices to be used in the rear USB ports without rebooting the system.
  • Page 105 Chapter 4: UEFI BIOS Processor Configuration The following CPU information is displayed: • Processor BSP Revision • Processor Socket • Processor ID • Processor Frequency • Processor Max Ratio • Processor Min Ratio • Microcode Revision • L1 Cache RAM (Per Core) •...
  • Page 106 Super X13DGU User's Manual may consume more power as energy is needed to fuel the processors for operation. The options are Performance, Balanced Performance, Balanced Power, and Power. (Please note that the options of "Extreme Performance" and "Max Power Efficient" will be supported when supported by the motherboard.)
  • Page 107 Chapter 4: UEFI BIOS CPU C State Control  Enable Monitor MWAIT Select Enable to support Monitor and Mwait, which are two instructions in Streaming SIMD Extension 3 (SSE3), to improve synchronization between multiple threads for CPU performance enhancement. The options are Disable, Enable, and Auto. CPU C1 Auto Demotion Select Enable to allow the CPU to automatically demote to C1 State.
  • Page 108 Super X13DGU User's Manual Hardware Prefetcher If this feature is set to Enable, the hardware prefetcher will prefectch data from the main system memory to Level 2 cache to help expedite data transaction to enhance memory performance. The options are Enable and Disable.
  • Page 109 Chapter 4: UEFI BIOS maximize system resources for performance enhancement. The options are Disable and Enable. Note: Please reboot the system for any change of the setting to take effect. Enable SMX Select Enable to support Safer Mode Extensions (SMX) which provides a programming interface for system software to establish a controlled environment to support the trusted platform configured by the end user and to verify a virtual machine monitor before it is allowed to run.
  • Page 110 Super X13DGU User's Manual Use this feature to enable TME-MT memory integrity protection for memory transactions. The options are Disabled and Enabled. Key stock amount (Available when "Memory Encryption (TME)" is set to Enabled) Use this feature to set the number of unique keys per system, which also indicates the number of tenants per platform.
  • Page 111 Chapter 4: UEFI BIOS ---------------------------------------------------------------- Software Guard Extension (SGX) ---------------------------------------------------------------- *The following SGX features are available when "Memory Encryption (TME)" is set to Enabled and when your CPU supports Intel SGX. Note: Each memory channel must have at least one DIMM populated on the mother- board to support the Intel SGX features.
  • Page 112 Super X13DGU User's Manual Software Guard Extensions Epoch 0 (Available when "SW Guard Extensions (SGX)" is set to Enabled and "Select Owner EPOCH input type" is set to Manual User Defined Owner EPOCHs) Use this feature to enter the EPOCH value. The default is 0.
  • Page 113 Chapter 4: UEFI BIOS Chipset Configuration  Warning: Setting the wrong values in the following features may cause the system to malfunc- tion. North Bridge This feature allows you to configure the following North Bridge settings. Uncore Configuration  The following information is displayed. •...
  • Page 114 Super X13DGU User's Manual Link L1 Enable Select Enable for the BIOS to activate Link L1 support which will power down the UPI links to save power when the system is idle. This feature is available for the system that uses Intel processors with UPI technology support.
  • Page 115 Chapter 4: UEFI BIOS return the modified data. However, it may be the case that a line "reads" in an A state, and all the snoops come back with a "miss". This can happen if another socket reads the line earlier and then has silently dropped it from its cache without modifying it. If "Stale AtoS"...
  • Page 116 Super X13DGU User's Manual Memory Topology  This feature displays the information of onboard memory modules as detected by the BIOS, for example: P1-DIMMA1: 4800MT/s Micron DRx4 64GB RDIMM ~ P2-DIMMA1: 4800MT/s Micron DRx4 64GB RDIMM Page Policy  Page Policy Use this feature to set your memory page policy.
  • Page 117 Chapter 4: UEFI BIOS Leaky Bucket Low Bit Use this feature to set the Low Bit value for the Leaky Bucket algorithm which is used to check the data transmissions between CPU sockets and the memory controller. The default setting is 11. Leaky Bucket High Bit Use this feature to set the High Bit value for the Leaky Bucket algorithm which is used to check the data transmissions between CPU sockets and the memory controller.
  • Page 118 Super X13DGU User's Manual Memory PFA Support (Available when the DCMS key is activated) Select Enabled to enable memory Predictive Failure Analysis (PFA) support. PFA can be used to avoid uncorrectable faults in the same memory page. The options are Disabled and Enabled.
  • Page 119 Chapter 4: UEFI BIOS Link Speed Use this feature to select the link speed for the PCIe port specified by the user. The op- tions are Auto, Gen 1 (2.5 GT/s), Gen 2 (5 GT/s), Gen 3 (8 GT/s), and Gen 4 (16 GT/s). The following information is displayed: •...
  • Page 120 Super X13DGU User's Manual Pre-boot DMA (Direct Memory Access) Protection Select Enable to enable DMA protection support in the pre-boot environment, which is available when the DMAR table is installed in the DXE (Driver Execution Environment), and the VID_INF0_PPI is installed in PEI. The options are Enable and Disable.
  • Page 121 Chapter 4: UEFI BIOS VMD Config for PCH ports / VMD Config for IOU 0 / VMD Config for IOU 1 / VMD Config for IOU 2 / VMD Config for IOU 3 / VMD Config for IOU 4 / VMD Config for IOU 5 / VMD Config for IOU 6 Enable/Disable VMD Select Enable to enable the Intel Volume Management Device (VMD) technology support...
  • Page 122 Super X13DGU User's Manual VMD Config for IOU 3 Socket0 IOU3 VMD port A/Socket0 IOU3 VMD port C/Socket0 IOU3 VMD port E/ Socket0 IOU3 VMD port G (Available when the device is detected by the system and "Enable/Disable VMD" above is set to Enable) Select Enable to enable the Intel VMD technology support for the root port specified.
  • Page 123 Chapter 4: UEFI BIOS Hot Plug Capable (Available when the device is detected by the system and "Enable/Disable VMD" above is set to Enable) Select Enable to enable Hot Plug support for the root ports specified, which allows you to change the devices on those root ports without shutting down the system. The options are Disable and Enable.
  • Page 124 Super X13DGU User's Manual VMD Config for IOU 5 Socket0 IOU5 VMD port A/Socket0 IOU5 VMD port C/Socket0 IOU5 VMD port E/ Socket0 IOU5 VMD port G (Available when the device is detected by the system and "Enable/Disable VMD" above is set to Enable) Select Enable to enable the Intel VMD technology support for the root port specified.
  • Page 125 Chapter 4: UEFI BIOS VMD Config for IOU 1 Socket0 IOU1 VMD port A/Socket0 IOU1 VMD port C/Socket0 IOU1 VMD port E/ Socket0 IOU1 VMD port G (Available when the device is detected by the system and "Enable/Disable VMD" above is set to Enable) Select Enable to enable the Intel VMD technology support for the root port specified.
  • Page 126 Super X13DGU User's Manual VMD Config for IOU 6 Socket0 IOU6 VMD port A/Socket0 IOU6 VMD port C/Socket0 IOU6 VMD port E/ Socket0 IOU6 VMD port G (Available when the device is detected by the system and "Enable/Disable VMD" above is set to Enable) Select Enable to enable the Intel VMD technology support for the root port specified.
  • Page 127 Chapter 4: UEFI BIOS VMD Config for IOU 2 Socket0 IOU2 VMD port A/Socket0 IOU2 VMD port C/Socket0 IOU2 VMD port E/ Socket0 IOU2 VMD port G (Available when the device is detected by the system and "Enable/Disable VMD" above is set to Enable) Select Enable to enable the Intel VMD technology support for the root port specified.
  • Page 128 Super X13DGU User's Manual IIO-PCIE Express Global Options ---------------------------------------------------------------- PCIe ASPM Support (Global) Select Enabled to enable ASPM (Active State Power Management) support for a device installed in a PCIe drive specified by the user. The options are Disable and Auto.
  • Page 129 Chapter 4: UEFI BIOS PCIe PLL SSC Select Enabled for PCH PCIe Spread Spectrum Clocking (SSC) support, which allows the BIOS to monitor and attempt to reduce the level of electromagnetic interference caused by the components whenever needed. The options are Disabled, 0.3%, 0.5%, and Auto. Server ME Information ...
  • Page 130 Super X13DGU User's Manual SATA Port 0 - SATA Port 7 (Available when "SATA Controller(s)" is set to Enabled) Note: The SATA port naming may vary based on the related configuration. Hot Plug Select Enabled to support Hot-plugging for the device installed on a selected SATA port to allow you to replace the device installed in the slot without shutting down the system.
  • Page 131 Chapter 4: UEFI BIOS Serial Port 2 Configuration Note: It can be "Serial Port 2 Configuration" or "SOL Configuration" based on your system support. Serial Port/SOL ("Serial Port " or "SOL" based on your system support) Select Enabled to enable serial port 2 (or SOL). The options are Disabled and Enabled. Change Settings (Available when "Serial Port 2/SOL"...
  • Page 132 Super X13DGU User's Manual lower transmission speed may be required for long and busy lines. The options are 9600, 19200, 38400, 57600, and 115200 (bits per second). Data Bits Use this feature to set the data transmission size for Console Redirection. The options are 7 and 8 (bits).
  • Page 133 Chapter 4: UEFI BIOS SOL/COM2 Note: This feature is available when your system supports serial port of COM2 and/or SOL. The "SOL" here indicates a shared serial port, and SOL is used as the default. Console Redirection Select Enabled to use the SOL port for Console Redirection. The options are Disabled and Enabled.
  • Page 134 Super X13DGU User's Manual Flow Control Use this feature to set the flow control for Console Redirection to prevent data loss caused by buffer overflow. Send a "Stop" signal to stop sending data when the receiving buffer is full. Send a "Start" signal to start sending data when the receiving buffer is empty. The options are None and Hardware RTS/CTS.
  • Page 135 Chapter 4: UEFI BIOS Redirect After BIOS POST Use this feature to enable or disable legacy console redirection after BIOS POST. When the option - BootLoader is selected, legacy console redirection is disabled before booting the OS. When the option - Always Enable is selected, legacy console redirection remains enabled upon OS bootup.
  • Page 136 Super X13DGU User's Manual Send a "Start" signal to start sending data when the receiving buffer is empty. The options are None, Hardware RTS/CTS, and Software Xon/Xoff. The following information is displayed: Data Bits EMS / Parity EMS / Stop Bits EMS Network Configuration ...
  • Page 137 Chapter 4: UEFI BIOS MAC:(MAC address)-IPv6 Network Configuration Enter Configuration Menu The following information is displayed: • Interface Name • Interface Type • MAC address • Host address • Route Table • Gateway addresses • DNS addresses Interface ID Use this feature to change/enter the 64-bit alternative interface ID for the device. The string format is colon separated.
  • Page 138 Super X13DGU User's Manual Discard Changes and Exit Press <Enter> to discard changes and exit. The options are Yes and No. Save Changes and Exit Press <Enter> to save changes and exit. The options are Yes and No. MAC:(MAC address)-IPv4 Network Configuration Note 1: This feature is available when "Onboard LAN Option ROM Type"...
  • Page 139 Chapter 4: UEFI BIOS PCIe/PCI/PnP Configuration The following information is displayed: • PCI Bus Driver Version PCI Devices Common Settings: Above 4G Decoding (Available when the system supports 64-bit PCI decoding) Select Enabled to decode a PCI device that supports 64-bit in the space above 4G Address. The options are Disabled and Enabled.
  • Page 140 The other option, AMI Native Support, is offered by the AMI BIOS with a generic method. (Please use the AMI Native Support option for Supermicro Security Erase Configuration support available in the Security menu.)
  • Page 141 Chapter 4: UEFI BIOS ACPI Settings  NUMA Select Enabled to enable Non-Uniform Memory Access (NUMA) to enhance system performance. The options are Disabled and Enabled. UMA-Based Clustering When this feature is set to Hemisphere, Uniform Memory Access (UMA)-based clustering will support 2-cluster configuration for system performance enhancement.
  • Page 142 Super X13DGU User's Manual Trusted Computing (Available when a TPM device is installed  and detected by the BIOS) When a Trusted-Platform Module (TPM) device is detected by your system, the following information is displayed: • TPM 2.0 Device Found •...
  • Page 143 The options are Disabled and Enabled. Supermicro BIOS-Based TPM Provision Support If this feature is set to Enabled, Supermicro BIOS-based TPM provision will be supported. The options are Disabled and Enabled. Note: Enabling this feature will lock your TPM on the production platform, and you will not be able to delete the NV indexes.
  • Page 144 Use this feature to enter the second Supermicro KMS server IPv4 address in dotted-decimal notation. Supermicro KMS TCP Port number Use this feature to enter the Supermicro KMS TCP port number. The valid range is 100 - 9999. The default setting is 5696. KMS Time Out Use this feature to enter the KMS server connecting timeout (in seconds).
  • Page 145 Chapter 4: UEFI BIOS Client Private Key For the client private key, use this feature to enroll factory defaults or load the KMS TLS certificates from the file. The options are Update, Delete, and Export. Private Key Password (Available when "Private Key Password" has been set) Use this feature to change the private key password.
  • Page 146 Super X13DGU User's Manual HTTP Boot Configuration  HTTP Boot Policy Use this feature to set the HTTP boot policy. The options are Apply to all LANs, Apply to each LAN, and Boot Priority #1 instantly. HTTPS Boot Checks Hostname Enable this feature for HTTPS boot to check the hostname of the TLS certificates to see if it matches the host name provided by the remote server.
  • Page 147 Chapter 4: UEFI BIOS Intel(R) Ethernet Controller (Ethernet controller)-(MAC address) Note 1: This feature is available when "Onboard LAN Option ROM Type" is set to EFI. Note 2: The Ethernet controller and MAC addresses shown above are based on you system configurations.
  • Page 148 Super X13DGU User's Manual • Device Name • Chip Type • PCI Device ID • PCI Address • Link Status • MAC Address • Virtual MAC Address TLS Authenticate Configuration This submenu allows you to configure Transport Layer Security (TLS) settings.
  • Page 149 Chapter 4: UEFI BIOS Client Certification Configuration This feature allows you to configure the client certificate to be used by the server. Enroll Certification  This feature allows you to enroll the certificate in the system. Enroll Certification Using File ...
  • Page 150 Super X13DGU User's Manual Create RAID Volume Name: This feature allows you to enter the unique name of RAID volume. RAID Level: This feature allows you to select the RAID level. The options are RAID0(Stripe), RAID1(Mirror), RAID5(Parity), and RAID10(RAID0+1). Select Disks: Select the desired RAID disks one by one by setting them to X.
  • Page 151 Chapter 4: UEFI BIOS Create RAID Volume Name: This feature allows you to enter the unique name of RAID volume. RAID Level: This feature allows you to select the RAID level. The options are RAID0(Stripe), RAID1(Mirror), RAID5(Parity), and RAID10(RAID0+1). Select Disks: Select the desired RAID disks one by one by setting them to X.
  • Page 152 Super X13DGU User's Manual Create RAID Volume Name: This feature allows you to enter the unique name of RAID volume. RAID Level: This feature allows you to select the RAID level. The options are RAID0(Stripe), RAID1(Mirror), RAID5(Parity), and RAID10(RAID0+1). Select Disks: Select the desired RAID disks one by one by setting them to X.
  • Page 153 Chapter 4: UEFI BIOS VLAN Configuration Enter Configuration Menu  Create New VLAN This feature allows the user to create a new VLAN. VLAN ID Use this feature to create a new LAN ID by using an existing VLAN or creating a new VLAN ID. Enter a valid value between 0 ~ 4094.

  • Page 154: Event Logs

    Super X13DGU User's Manual 4.4 Event Logs Use this feature to configure Event Logs settings. Note: After you've made any changes in this section, please be sure to reboot the system for the changes to take effect. Change SMBIOS Event Log Settings...
  • Page 155 Chapter 4: UEFI BIOS SMBIOS Event Log Standard Settings Log System Boot Event (Available when "SMBIOS Event Log" is set to Enabled) Select Enabled to log system boot events. The options are Enabled and Disabled. MECI (Available when "SMBIOS Event Log" is set to Enabled) Enter the increment value for the multiple event counter.

  • Page 156: Bmc

    Super X13DGU User's Manual 4.5 BMC Use this feature to configure BMC settings. BMC Firmware Revision This feature indicates the BMC firmware revision used in your system. BMC STATUS This feature indicates the status of the BMC firmware installed in your system.
  • Page 157 Chapter 4: UEFI BIOS When SEL is Full This feature allows you to determine what the BIOS should do when the system event log is full. Select Erase Immediately to erase all events in the log when the system event log is full.
  • Page 158 Super X13DGU User's Manual Station MAC Address (Available when "Configuration Address Source" is set to Static) This feature displays the Station MAC address for this computer. Mac addresses are six two-digit hexadecimal numbers. Gateway IP Address (Available when "Configuration Address Source" is set to Static) This feature displays the Gateway IP address for this computer.
  • Page 159 Chapter 4: UEFI BIOS Advanced Settings The default setting is Auto obtain DNS server IP. This default setting allows your system to obtain the DNS server IP automatically. Preferred DNS server IP This feature displays the preferred DNS server IP. It can be configured via Redfish. Alternative DNS server IP This feature displays the alternative DNS server IP.

  • Page 160: Security

    Super X13DGU User's Manual 4.6 Security This feature allows you to configure the following security settings for the system. Disable Block Sid (Available when your storage devices support TCG) Select Enabled to allow SID authentication of TCG Storage device. The options are Disabled and Enabled.
  • Page 161 BIOS and the NVMe Firmware Sources feature in PCIe/PCI/PnP is set to AMI Native Support) Note: To configure Supermicro Security Erase settings, please follow the instructions below to enable Security Erase feature support in the BIOS.
  • Page 162 Super X13DGU User's Manual 5. When AMI BIOS screen displays, using arrow keys, select Security from the BIOS menu bar on the top of the screen. The Supermicro Security Erase Configuration submenu will display on the Security menu as shown below.
  • Page 163 Note 3: The option of Set Password is not available when "Password" below has been set. Password Use this feature to set the SATA user password which allows you to configure the Supermicro Security Erase settings by using the SATA user password. HDD Security Configuration: P4: (Storage Device Name)
  • Page 164 Super X13DGU User's Manual Set User Password (Available when "Security Frozen:" above is No) Select Enabled to support Lockdown Mode that will prevent existing data or keys stored in the system from being altered or changed in an effort to preserve system integrity and security.
  • Page 165 Chapter 4: UEFI BIOS Key Management (Available when "Secure Boot Mode" is set to Custom) The following information is displayed. • Vendor Keys Provision Factory Defaults Select Enabled to install provision factory default settings after a platform reset while the system is in the Setup Mode.
  • Page 166 Super X13DGU User's Manual Key Exchange Keys  Use this feature to enter and configure a set of values to be used as Key-Exchange-Keys for the system. These values also indicate the sizes, keys numbers, and the sources of the authorized signatures. Select Update to update your "Key Exchange Keys". Select Append to append your "Key Exchange Keys".
  • Page 167 Chapter 4: UEFI BIOS TCG Storage Security Configuration: (Storage Device Name) (Available when the storage device is compliant with TCG specifications) Select this device. Press <Enter> and the following information is displayed: • TCG Storage Security Password Description: • PASSWORD CONFIGURATION: •...

  • Page 168: Boot

    Super X13DGU User's Manual 4.7 Boot Use this feature to configure Boot settings: Boot Mode Select Use this feature to select the type of devices from which the system will boot. The options are Legacy, UEFI, and Dual. Note: When "Boot Mode Select" is set to Dual, all OPROM-related features will be set to Legacy.
  • Page 169 Chapter 4: UEFI BIOS Add New Boot Option (Available when any storage device is detected by the BIOS) This feature allows you to add a new boot option to the boot priority features for system boot. Add boot option This feature allows you to specify the name for the new boot option. Path for boot option Use this feature to enter the path for the new boot option in the format fsx:\path\filename.efi.

  • Page 170: Save & Exit

    Super X13DGU User's Manual 4.8 Save & Exit Select Save & Exit from the BIOS Setup screen to configure the settings below. Save Options Discard Changes and Exit Use this feature to exit from the BIOS Setup utility without making any permanent changes to the system configuration and reboot the computer.
  • Page 171 Chapter 4: UEFI BIOS Default Options Restore Optimized Defaults Select this feature and press <Enter> to load manufacturer optimized default settings which are intended for maximum system performance but not for maximum stability. Save as User Defaults Select this feature and press <Enter> to save all changes on the default values specified to the BIOS Setup utility for future use.

  • Page 172: Appendix A Bios Post Codes

    Super X13DGU User's Manual Appendix A BIOS POST Codes A.1 BIOS POST Codes The AMI BIOS supplies additional checkpoint codes, which are documented online at http:// www.supermicro.com/support/manuals/ ("AMI BIOS POST Codes User's Guide"). For information on AMI updates, please refer to http://www.ami.com/products/.

  • Page 173: Appendix B Software

    USB/SATA DVD drive, or a USB flash drive, or the BMC KVM console. 2. Retrieve the proper RST/RSTe driver. Go to the Supermicro web page for your motherboard and click on "Download the Latest Drivers and Utilities", select the proper driver, and copy it to a USB flash drive.
  • Page 174 Super X13DGU User's Manual 4. During Windows Setup, continue to the dialog where you select the drives on which to install Windows. If the disk you want to use is not listed, click on “Load driver” link at the bottom left corner.

  • Page 175: Driver Installation

    The Supermicro website contains drivers and utilities for your system at https://www. supermicro.com/wdl/driver. Some of these must be installed, such as the chipset driver. After accessing the website, go into the CDR_Images (in the parent directory of the above link) and locate the ISO file for your motherboard. Download this file to a USB flash drive or a DVD.

  • Page 176: Bmc

    When logging in to the BMC for the first time, please use the unique password provided by Supermicro to log in. You can change the unique password to a user name and password of your choice for subsequent logins.

  • Page 177: Appendix C Standardized Warning Statements

    The following statements are industry standard warnings, provided to warn the user of situations where a potential bodily injury may occur. Should you have questions or experience difficulty, contact Supermicro's Technical Support department for assistance. Only certified technicians should attempt to install or configure components.
  • Page 178 Super X13DGU User's Manual Attention Danger d'explosion si la pile n'est pas remplacée correctement. Ne la remplacer que par une pile de type semblable ou équivalent, recommandée par le fabricant. Jeter les piles usagées conformément aux instructions du fabricant. ¡Advertencia! Existe peligro de explosión si la batería se reemplaza de manera incorrecta.
  • Page 179 Appendix C: Standardized Warning Statements Product Disposal Warning! Ultimate disposal of this product should be handled according to all national laws and regulations. 製品の廃棄 この製品を廃棄処分する場合、 国の関係する全ての法律 ・ 条例に従い処理する必要があります。 警告 本产品的废弃处理应根据所有国家的法律和规章进行。 警告 本產品的廢棄處理應根據所有國家的法律和規章進行。 Warnung Die Entsorgung dieses Produkts sollte gemäß allen Bestimmungen und Gesetzen des Landes erfolgen.

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