Related Manuals for ADLINK Technology EGX-MXM-RTX5000
Summary of Contents for ADLINK Technology EGX-MXM-RTX5000
- Page 1 EGX-MXM-RTX5000 NVIDIA Turing™ TU104 Quadro® RTX 5000 Embedded Graphics Module User’s Manual Manual Rev.: August 17, 2021 Revision Date: 50M-00043-1000 Part No:...
- Page 2 Revision History Revision Release Date Description of Change(s) 2021-08-17 Initial release Revision History...
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Page 3: Preface
EGX-MXM-RTX5000 Preface Copyright © 2021 ADLINK Technology Inc. This document contains proprietary information protected by copy- right. All rights are reserved. No part of this manual may be repro- duced by any mechanical, electronic, or other means in any form without prior written permission of the manufacturer. - Page 4 California Proposition 65 Warning WARNING: This product can expose you to chemicals including acrylamide, arsenic, benzene, cadmium, Tris(1,3-dichloro-2-propyl) phosphate (TDCPP), 1,4- Dioxane, formaldehyde, lead, DEHP, styrene, DINP, BBP, PVC, and vinyl materials, which are known to the State of California to cause cancer, and acrylamide, benzene, cadmium, lead, mercury, phthalates, toluene, DEHP, DIDP, DnHP, DBP, BBP, PVC, and vinyl materials, which are known to the State of California to cause birth defects or other reproductive harm.
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Page 5: Table Of Contents
EGX-MXM-RTX5000 Table of Contents Revision History..............ii Preface ..................iii List of Tables................. vii List of Figures ................ ix 1 Introduction ................ 1 Overview................1 Features................1 Specifications............... 2 1.3.1 Graphics Module ............2 1.3.2 Display Support and Options........3 1.3.3... - Page 6 Important Safety Instructions..........21 Getting Service ..............23 Table of Contents...
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Page 7: List Of Tables
EGX-MXM-RTX5000 List of Tables Table 1-1: Graphics Module Display Options ......3 Table 1-2: NVIDIA Link Display Types ........3 Table 1-3: MXM Connector Pin Definitions........8 Table 1-4: Thermal Policy............13 Table 1-5: Thermal Policy............14 List of Tables... - Page 8 This page intentionally left blank. viii List of Tables...
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Page 9: List Of Figures
Figure 1-1: EGX-MXM-RTX5000 Functional Block Diagram ..4 Figure 1-2: EGX-MXM-RTX5000 Dimensions ......5 Figure 1-3: EGX-MXM-RTX5000 Layout - Top and Side Views ... 6 Figure 1-4: EGX-MXM-RTX5000 Layout - Bottom View....7 Figure 1-5: MXM Connector............7 Figure 2-1: Power Sequencing ........... - Page 10 This page intentionally left blank. List of Figures...
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Page 11: Introduction
NVIDIA Quadro® RTX 5000 GPU based on the advanced NVIDIA Turing™ TU104 architecture in MXM 3.1 Type B+ form factor. The EGX-MXM-RTX5000 brings a new level of perfor- mance to visual graphics and computing applications, fully inte- grating hardware acceleration for both graphics and computing code, enabling hardware acceleration for a wider class of software applications than ever before. -
Page 12: Specifications
1.3 Specifications 1.3.1 Graphics Module Graphics Core Architecture NVIDIA® Turing™ TU104 Quadro® RTX 5000 4x DisplayPort 1.4 Display Outputs Max resolution 7680 x4320 @60Hz DSC MST: 1920x1080 for 4 ports Signal Interface MXM 3.1, PCI Express Gen3 x16 support GPGPU Computing 3072 CUDA cores, 9.4 TFLOPS SP Peak CUDA Support CUDA Toolkit 8.0, CUDA Compute version 6.1... -
Page 13: Display Support And Options
OpenCL™ 1.2 DirectX® 12 OpenGL 4.6 Vulcan 1.0 1.3.4 Graphics Options The EGX-MXM-RTX5000 supports 4xDisplayPort by default, with display options as shown below. LVDS_L (Link B) has no output when using DP_D for Virtual Link design. DP_A DP_B DP_C DP_D... -
Page 14: Functional Block Diagram
NVVDD-PH2 NVVDD-PH6 NVIDIA Quadro® NVVDD-PH3 NVVDD-PH7 RTX 5000 GPU NVVDD-PH4 Power Management (PWR_EN PWR_GOOD WAKE#) Power Supply I2CS FBVDD-PH1 FBVDD-PH2 JTAG Power Supply PEX_VDD Power Supply SPI - VBIOS VDD_AON/MAIN Power Supply NV3V3 Figure 1-1: EGX-MXM-RTX5000 Functional Block Diagram Introduction... -
Page 15: Mechanical Layout
EGX-MXM-RTX5000 1.5 Mechanical Layout All dimensions shown are in mm NOTE: NOTE: Figure 1-2: EGX-MXM-RTX5000 Dimensions Introduction... -
Page 16: Figure 1-3: Egx-Mxm-Rtx5000 Layout - Top And Side Views
PTH Hole 4 pcs 2 pcs Top Side: OD=6.0mm; ID=3.2mm Bottom Side: OD=7.0mm; ID=3.2mm 1.25 0.50 0.50 1.25 0.50 0.50 E-Section D-Section Scale 2 : 1 Scale 2 : 1 Figure 1-3: EGX-MXM-RTX5000 Layout - Top and Side Views Introduction... -
Page 17: Figure 1-4: Egx-Mxm-Rtx5000 Layout - Bottom View
EGX-MXM-RTX5000 39.76 34.74 3.1±0.08 31.00 28.75 129x0.35 2x4.82 2.35 1.85 Figure 1-4: EGX-MXM-RTX5000 Layout - Bottom View (R G5 X G6) Pin 125 Pin 281 Pin E1 Pin 133 Pin E3 Pin E2 Pin 134 Pin 124 Pin E4 Figure 1-5: MXM Connector... -
Page 18: Mxm Connector Pin Definitions
1.6 MXM Connector Pin Definitions Primary Side (bottom side) Secondary Side (top side) Signal PU/PD Signal PU/PD PWR_SRC PWR_SRC PRSNT_R# 0ohm PD RSVD PWR_GOOD PWR_EN 27MHZ_REF RSVD RSVD 100K PU to PWR_LEVEL 3.3V 100K PU to RSVD TH_OVERT# 3.3V 100K PU to RSVD TH_ALERT# 3.3V... - Page 19 EGX-MXM-RTX5000 Primary Side (bottom side) Secondary Side (top side) Signal PU/PD Signal PU/PD PEX_TX15# PEX_RX15# PEX_TX15 PEX_RX15 PEX_TX14# PEX_RX14# PEX_TX14 PEX_RX14 PEX_TX13# PEX_RX13# PEX_TX13 PEX_RX13 PEX_TX12# PEX_RX12# PEX_TX12 PEX_RX12 PEX_TX11# PEX_RX11# PEX_TX11 PEX_RX11 PEX_TX10# PEX_RX10# PEX_TX10 PEX_RX10 PEX_TX9# PEX_RX9# PEX_TX9...
- Page 20 Primary Side (bottom side) Secondary Side (top side) Signal PU/PD Signal PU/PD PEX_TX5# PEX_RX5# PEX_TX5 PEX_RX5 PEX_TX4# PEX_RX4# PEX_TX4 PEX_RX4 PEX_TX3# PEX_RX3# PEX_TX3 PEX_RX3 PEX_RX2# PEX_TX2# PEX_RX2 PEX_TX2 PEX_RX1# PEX_TX1# PEX_RX1 PEX_TX1 PEX_RX0# PEX_TX0# PEX_RX0 PEX_TX0 PEX_REFCLK# 154 PEX_CLK_REQ# PEX_REFCLK PEX_RST# RSVD RSVD...
- Page 21 EGX-MXM-RTX5000 Primary Side (bottom side) Secondary Side (top side) Signal PU/PD Signal PU/PD RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD RSVD DP_C_L0# RSVD DP_C_L0 RSVD DP_C_L1#...
- Page 22 Primary Side (bottom side) Secondary Side (top side) Signal PU/PD Signal PU/PD RSVD RSVD DP_D_AUX# RSVD DP_D_AUX RSVD DP_C_HPD PD 100K RSVD DP_D_HPD PD 100K RSVD RSVD RSVD RSVD RSVD RSVD DP_B_L0# RSVD DP_B_L0 RSVD DP_B_L1# DP_A_L0# DP_B_L1 DP_A_L0 DP_B_L2# DP_A_L1# DP_B_L2 DP_A_L1...
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Page 23: Thermal Policy
EGX-MXM-RTX5000 1.7 Thermal Policy The GPU core clock throttles at temperatures (T ) past the thresh- olds shown with the behaviors as listed. Thermal throttling ensures that the highest temperature on the die does not exceed the sense temperature for prolonged periods of time. -
Page 24: Fan Control
Retain the shipping carton and packing materials for inspection. Obtain authorization from your dealer before returning any product to ADLINK. Ensure that the fol- lowing items are included in the package. EGX-MXM-RTX5000 embedded graphics module Introduction... -
Page 25: System Requirements
EGX-MXM-RTX5000 System Requirements 2.1 Power Sequencing For initial power on, or to Resume from S3 and S4, this sequence must be followed. PV-PE PE-PG PV-PE PE-PG Figure 2-1: Power Sequencing System Requirements... -
Page 26: Module Power Up And Down
2.2 Module Power Up and Down Issuing the PWR_EN signal powers the MXM module down, and the system designer can decide whether to keep the module input power when the MXM module is powered down. MODULE INPUT POWER PWR_EN MODULE INTERNAL POWER PWR_GOOD Figure 2-2: Module Power Down... -
Page 27: Dual Mode Displayport Implementation
EGX-MXM-RTX5000 2.4 Dual Mode DisplayPort Implementation The EGX-MXM-RTX5000 supports four dual mode DisplayPorts by default. HDMI is supported via dongle (see “Display Support and Options” on page 3.). The system requires a switch circuit to determine whether the AUX or DDC signal is output from the MXM module, and AC coupling capacitors should be placed on the sys- tem board. -
Page 28: Dvi/Hdmi On Displayport Interface
2.5 DVI/HDMI on DisplayPort Interface DVI and HDMI connectors can both be implemented through the DisplayPort interface by using the circuit shown below on the sys- tem board (up to 1080p supported). Two 499Ω (1%) pulldown resistors to ground on the DP lanes must placed on the DVI/HDMI connector side of the AC coupling, gated by a MOSFET to limit leakage. -
Page 29: Driver Installation
EGX-MXM-RTX5000 2.6 Driver Installation Drivers can be downloaded from https://www.adlinktech.com/ Products/Embedded_Graphics/Embedded_MXM_Modules/EGX- MXM-RTX5000. 2.7 Certifications & Agencies Windows Hardware Quality Lab (WHQL) certified for Windows 10 EU Reduction of Hazardous Substances (EU-RoHS) Conformité Européenne (CE) Federal Communications Commission (FCC) System Requirements... - Page 30 This page intentionally left blank. System Requirements...
- Page 31 EGX-MXM-RTX5000 Important Safety Instructions For user safety, please read and follow all instructions, Warnings, Cautions, and Notes marked in this manual and on the associated device before handling/operating the device, to avoid injury or damage. S'il vous plaît prêter attention stricte à tous les avertissements et mises en garde figurant sur l'appareil , pour éviter des blessures...
- Page 32 Never attempt to repair the device, which should only be serviced by qualified technical personnel using suitable tools The device must be serviced by authorized technicians when: The power cord or plug is damaged Liquid has entered the device interior The device has been exposed to high humidity and/or moisture The device is not functioning or does not function...
- Page 33 San Jose, CA 95138, USA Tel: +1-408-360-0200 Toll Free: +1-800-966-5200 (USA only) Fax: +1-408-360-0222 Email: info@adlinktech.com ADLINK Technology (China) Co., Ltd. 300 Fang Chun Rd., Zhangjiang Hi-Tech Park Pudong New Area, Shanghai, 201203 China Tel: +86-21-5132-8988 Fax: +86-21-5132-3588 Email: market@adlinktech.com...
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