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EGX-MXM-RTX5000
NVIDIA Turing™ TU104 Quadro® RTX 5000
Embedded Graphics Module
User’s Manual
Manual Rev.: 1.0
Revision Date: August 17, 2021
Part No: 50M-00043-1000
Revision History
Revision Release Date
1.0
2021-08-17
Description of Change(s)
Initial release ii Revision History
EGX-MXM-RTX5000
Preface
Copyright © 2021 ADLINK Technology Inc.
This document contains proprietary information protected by copyright. All rights are reserved. No part of this manual may be reproduced by any mechanical, electronic, or other means in any form without prior written permission of the manufacturer.
Disclaimer
The information in this document is subject to change without prior notice in order to improve reliability, design, and function and does not represent a commitment on the part of the manufacturer.
In no event will the manufacturer be liable for direct, indirect, special, incidental, or consequential damages arising out of the use or inability to use the product or documentation, even if advised of the possibility of such damages.
Environmental Responsibility
ADLINK is committed to fulfill its social responsibility to global environmental preservation through compliance with the European Union's
Restriction of Hazardous Substances (RoHS) directive and Waste Electrical and Electronic
Equipment (WEEE) directive. Environmental protection is a top priority for ADLINK. We have enforced measures to ensure that our products, manufacturing processes, components, and raw materials have as little impact on the environment as possible.
When products are at their end of life, our customers are encouraged to dispose of them in accordance with the product disposal and/or recovery programs prescribed by their nation or company.
Battery Labels
(for products with battery)
Preface
ᘄ㟁ụㄳᅇᨲ
iii
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. For more information go to www.P65Warnings.ca.gov.
Trademarks
Product names mentioned herein are used for identification purposes only and may be trademarks and/or registered trademarks of their respective companies.
Conventions
Take note of the following conventions used throughout this manual to make sure that users perform certain tasks and instructions properly.
Additional information, aids, and tips that help users perform tasks.
iv
CAUTION:
Information to prevent minor
physical injury, component damage, data loss, and/or program corruption when trying to complete a task.
WARNING:
Information to prevent serious
physical injury, component damage, data loss, and/or program corruption when trying to complete a specific task.
Preface
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
Graphics Module ........................................................ 2
Display Support and Options...................................... 3
Software Support........................................................ 3
Graphics Options........................................................ 3
Functional Block Diagram.................................................... 4
Mechanical Layout............................................................... 5
MXM Connector Pin Definitions........................................... 8
Thermal Policy ................................................................... 13
Fan Control............................................................... 14
Unpacking Checklist .......................................................... 14
2 System Requirements...................................................... 15
Power Sequencing............................................................. 15
Module Power Up and Down ............................................. 16
Reset Requirements .......................................................... 16
Dual Mode DisplayPort Implementation ............................ 17
DVI/HDMI on DisplayPort Interface ................................... 18
Driver Installation ............................................................... 19
Certifications & Agencies................................................... 19
Table of Contents v
Important Safety Instructions............................................... 21
Getting Service ...................................................................... 23
vi Table of Contents
EGX-MXM-RTX5000
List of Tables
Graphics Module Display Options .............................. 3
NVIDIA Link Display Types ........................................ 3
MXM Connector Pin Definitions.................................. 8
Thermal Policy.......................................................... 13
Thermal Policy.......................................................... 14
List of Tables vii
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viii List of Tables
EGX-MXM-RTX5000
List of Figures
EGX-MXM-RTX5000 Functional Block Diagram ........ 4
EGX-MXM-RTX5000 Dimensions .............................. 5
EGX-MXM-RTX5000 Layout - Top and Side Views ... 6
EGX-MXM-RTX5000 Layout - Bottom View............... 7
MXM Connector.......................................................... 7
Power Sequencing ................................................... 15
Module Power Down ................................................ 16
Reset Sequencing .................................................... 16
Dual Mode DisplayPort Implementation ................... 17
DVI/HDMI on DisplayPort Interface .......................... 18
List of Figures ix
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x List of Figures
EGX-MXM-RTX5000
1 Introduction
1.1
Overview
The EGX-MXM-RTX5000 embedded graphics module features the 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 performance to visual graphics and computing applications, fully integrating hardware acceleration for both graphics and computing code, enabling hardware acceleration for a wider class of software applications than ever before.
The EGX-MXM-RTX5000 offers Quadro-level performance, features, SDK and API support, and is suitable for embedded, ruggedized, or mobile system designs. With its 3072 CUDA core Turing
GPU and additional 384 Tensors Cores, the EGX-MXM-RTX5000 supports 4 FHD displays, delivering the latest leading-edge GPU performance for your embedded system with AI capabilities enabled. Its superior graphics performance, GPU computing and video capabilities are the ideal solution for systems such as digital signage, medical image, defense and aerospace application.
1.2
Features
X
X
X
X
X
X
X
X
MXM 3.1 Type B+ FF (82 x 110 mm)
3072 CUDA cores
9.4 TFLOPS SP peak performance
16 GB GDDR6 memory
336 GB/s maximal memory bandwidth
Support for up to 4 DisplayPort 1.4b displays, 110W TGP
5 year performance warranty
NVIDIA Quadro RTX 5000 GPU
Z
Z
Z
Package 37.5 x 37.5 mm
Base Clock @1035 MHz
Boost Clock @1530 MHz
Introduction 1
1.3
Specifications
1.3.1
Graphics Module
Graphics Core
Architecture
GPU
Display Outputs
Signal Interface
GPGPU Computing
NVIDIA® Turing™ TU104
Quadro® RTX 5000
4x DisplayPort 1.4
Max resolution 7680 x4320 @60Hz DSC
MST: 1920x1080 for 4 ports
MXM 3.1, PCI Express Gen3 x16 support
CUDA Support
3072 CUDA cores, 9.4 TFLOPS SP Peak
CUDA Toolkit 8.0, CUDA Compute version 6.1
OpenCL™ 1.2, DirectX® 12, OpenGL 4.6, Vulcan 1.0
Memory
GDDR6 Memory
Configuration
Bandwidth
16GB @14Gbps (7GHz)
256Mb x32
128-bit
336 GB/s data rate x32 GDDR6 DRAM device data width
Status LED
Color
Physical
Dimensions
Locking Mechanism
Environmental
Operating Temp.
Storage Temp.
Operating Systems
Supported OS
Yellow: Normal
Red: Abnormal
82 (W) x 110 (D) x 4.8 (H) mm
Standard MXM 3.1 Type B+
Standard: 0 to 55
-40 ˚ C to 85 ˚ C
˚ C
Windows 10 & Linux Drivers, 64-bit
2 Introduction
EGX-MXM-RTX5000
1.3.2
Display Support and Options
DisplayPort
HDMI 2.0
HDCP Support
X
X
X
1.2/1.3/1.4
Max. pixel clock: 1050 MP/s
Max. bandwidth: 25.9 GB/s/connector
Max. resolution: 4096 x 2160 at 60 Hz
1.3 (DP), 2.2 (DP, HDMI)
1.3.3
Software Support
X
X
X
X
X
X
CUDA Toolkit 8.0 and higher
CUDA Compute version 6.1 and higher
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.
MXM port
NVIDIA Link
DP_A
Link C
DP_B
Link A
DP_C
Link E
DP_D
Link F
Table 1-1: Graphics Module Display Options
LVDS_L
Link B
Link Display Type
Link A DisplayPort, DVI (Single Link or Dual Link with Link B)
Link B DisplayPort, DVI (Dual Link with A)
Link C DisplayPort, HDMI
Link D Not supported
Link E DisplayPort, HDMI
Link F DisplayPort
Table 1-2: NVIDIA Link Display Types
Introduction 3
4
1.4
Functional Block Diagram
PCIE x16 Gen3
DP_B
LVDS_L
DP_A
DP_C
DP_D
DP1.4
DP1.4/disable when virtuallink
DP1.4
DP1.4
DP1.4/Virtuallink
Power Management (PWR_EN PWR_GOOD WAKE#)
PCIE
IFPA
IFPB
IFPC
IFPE
IFPF
NVIDIA Quadro®
RTX 5000 GPU
PM
I2CS
JTAG
8Gb GDDR6
14Gbps
SPI - VBIOS
SPI
SPI
16GB GDDR6
256b, 256Mx16
Power Supply
NVVDD-PH1 NVVDD-PH5
NVVDD-PH2 NVVDD-PH6
NVVDD-PH3 NVVDD-PH7
NVVDD-PH4
Power Supply
FBVDD-PH1 FBVDD-PH2
Power Supply
PEX_VDD
Power Supply
VDD_AON/MAIN
Power Supply
NV3V3
Figure 1-1: EGX-MXM-RTX5000 Functional Block Diagram
Introduction
1.5
Mechanical Layout
All dimensions shown are in mm
82
EGX-MXM-RTX5000
110
Figure 1-2: EGX-MXM-RTX5000 Dimensions
Introduction 5
1.2
1.20
6
3.41
B
B
C
C
C
C
B
B
0
17.79
31.25
31.25
31.26
37.50
44.71
44.71
37.5
54.25
54.25
3.1
0.5
3.20
1.45 MIN
C
C
135x0.35
0.85
135x0.35
0.85
D
D
Top Side
C
C
2x4.82
6
6
3.20
2xR0.50
2xR0.5
2x4.82
2.90
0.85
45° ±10°
A
A
B-Section
Scale 2 : 1
PTH Hole
2 pcs
Top Side: OD=6.0mm; ID=3.2mm
Bottom Side: OD=7.0mm; ID=3.2mm
C-Section
Scale 2 : 1
PTH Hole
4 pcs
1.25
0.50
1
0.50
1.25
0.50
1
0.50
A-Section
Scale 2 : 1
1
D-Section
Scale 2 : 1
E-Section
Scale 2 : 1
Figure 1-3: EGX-MXM-RTX5000 Layout - Top and Side Views
Introduction
EGX-MXM-RTX5000
Pin 281
0
B
C
B
C
3.1±0.08
C
C
E
129x0.35
2x4.82
2.35
1.85
Figure 1-4: EGX-MXM-RTX5000 Layout - Bottom View
39.76
34.74
31.00
28.75
Introduction
Pin 125
Pin 133
(R G5 X G6)
Pin 134 Pin 124
Figure 1-5: MXM Connector
Pin E3
Pin E1
Pin E4
Pin E2
7
8
1.6
MXM Connector Pin Definitions
33
35
37
39
41
43
45
21
23
25
27
29
31
Pin
9
11
5
7
E1
E3
1
3
13
15
Primary Side (bottom side)
Signal
PWR_SRC
GND
5V
5V
5V
5V
5V
GND
GND
GND
PU/PD Pin
6
8
10
12
E2
E4
2
4
14
16
Secondary Side (top side)
Signal
PWR_SRC
GND
PRSNT_R#
RSVD
PWR_GOOD
PWR_EN
27MHZ_REF
GND
RSVD
RSVD
PU/PD
0ohm PD
17
19
GND
RSVD
18
20
PWR_LEVEL
TH_OVERT#
100K PU to
3.3V
100K PU to
3.3V
100K PU to
3.3V
RSVD
RSVD
RSVD
RSVD
RSVD
RSVD
22
24
26
28
30
32
TH_ALERT#
RSVD
RSVD
RSVD
RSVD
SMB_DAT
100K PU to
3.3V
100K PU to
3.3V
RSVD 34 SMB_CLK
RSVD
GND
RSVD
RSVD
RSVD
RSVD
36
38
40
42
44
46
GND
RSVD
RSVD
RSVD
RSVD
GND
Table 1-3: MXM Connector Pin Definitions
Introduction
EGX-MXM-RTX5000
Pin
95
97
99
101
103
105
87
89
91
93
79
81
83
85
71
73
75
77
63
65
67
69
55
57
59
61
47
49
51
53
Primary Side (bottom side)
Signal
PEX_RX10#
PEX_RX10
GND
PEX_RX9#
PEX_RX9
GND
PEX_RX8#
PEX_RX8
GND
PEX_RX7#
PEX_RX7
GND
PEX_RX6#
PEX_RX6
GND
PEX_RX15#
PEX_RX15
GND
PEX_RX14#
PEX_RX14
GND
PEX_RX13#
PEX_RX13
GND
PEX_RX12#
PEX_RX12
GND
PEX_RX11#
PEX_RX11
GND
PU/PD Pin
96
98
100
102
104
106
88
90
92
94
80
82
84
86
72
74
76
78
64
66
68
70
56
58
60
62
48
50
52
54
Secondary Side (top side)
Signal
PEX_TX10
GND
PEX_TX9#
PEX_TX9
GND
PEX_TX8#
PEX_TX8
GND
PEX_TX7#
PEX_TX7
GND
PEX_TX6#
PEX_TX6
GND
PEX_TX15#
PEX_TX15
GND
PEX_TX14#
PEX_TX14
GND
PEX_TX13#
PEX_TX13
GND
PEX_TX12#
PEX_TX12
GND
PEX_TX11#
PEX_TX11
GND
PEX_TX10#
Table 1-3: MXM Connector Pin Definitions
PU/PD
Introduction 9
10
Primary Side (bottom side)
Pin Signal
131
133
135
137
123
125
127
129
115
117
119
121
107
109
111
113
139
141
143
145
GND
PEX_RX1#
PEX_RX1
GND
147
149
PEX_RX0#
PEX_RX0
151 GND
153 PEX_REFCLK#
155 PEX_REFCLK
157 GND
159
161
RSVD
RSVD
163
165
RSVD
RSVD
GND
PEX_RX5#
PEX_RX5
GND
PEX_RX4#
PEX_RX4
GND
PEX_RX3#
PEX_RX3
GND
KEY
KEY
KEY
GND
PEX_RX2#
PEX_RX2
PU/PD Pin
Secondary Side (top side)
Signal
132
134
136
138
124
126
128
130
116
118
120
122
108
110
112
114
156
158
160
162
164
166
140
142
144
146
GND
PEX_TX1#
PEX_TX1
GND
148
150
PEX_TX0#
PEX_TX0
152 GND
154 PEX_CLK_REQ#
PEX_RST#
RSVD
RSVD
RSVD
RSVD
GND
PEX_TX5#
PEX_TX5
GND
PEX_TX4#
PEX_TX4
GND
PEX_TX3#
PEX_TX3
GND
KEY
KEY
KEY
KEY
GND
PEX_TX2#
PEX_TX2
Table 1-3: MXM Connector Pin Definitions
PU/PD
Introduction
EGX-MXM-RTX5000
Pin
215
217
219
221
223
225
207
209
211
213
199
201
203
205
191
193
195
197
183
185
187
189
175
177
179
181
167
169
171
173
Primary Side (bottom side)
Signal
DP_C_L0#
DP_C_L0
GND
DP_C_L1#
DP_C_L1
GND
DP_C_L2#
DP_C_L2
GND
DP_C_L3#
DP_C_L3
GND
DP_C_AUX#
DP_C_AUX
RSVD
GND
RSVD
RSVD
GND
RSVD
RSVD
GND
RSVD
RSVD
RSVD
GND
RSVD
RSVD
GND
RSVD
PU/PD Pin
216
218
220
222
224
226
208
210
212
214
200
202
204
206
192
194
196
198
184
186
188
190
176
178
180
182
168
170
172
174
Secondary Side (top side)
Signal
RSVD
RSVD
GND
DP_D_L0#
DP_D_L0
GND
DP_D_L1#
DP_D_L1
GND
DP_D_L2#
DP_D_L2
GND
DP_D_L3#
DP_D_L3
RSVD
GND
RSVD
RSVD
GND
RSVD
RSVD
GND
RSVD
RSVD
RSVD
GND
RSVD
RSVD
GND
RSVD
Table 1-3: MXM Connector Pin Definitions
PU/PD
Introduction 11
12
Pin
267
269
271
273
259
261
263
265
275
277
279
281
251
253
255
257
243
245
247
249
235
237
239
241
227
229
231
233
Primary Side (bottom side)
Signal
DP_A_L1#
DP_A_L1
GND
DP_A_L2#
DP_A_L2
GND
DP_A_L3#
DP_A_L3
GND
DP_A_AUX#
DP_A_AUX
PRSNT_L#
RSVD
RSVD
RSVD
RSVD
RSVD
RSVD
RSVD
RSVD
RSVD
RSVD
RSVD
RSVD
GND
DP_A_L0#
DP_A_L0
GND
PU/PD
0 ohm PD
Pin
268
270
272
274
260
262
264
266
276
278
280
252
254
256
258
244
246
248
250
236
238
240
242
228
230
232
234
Secondary Side (top side)
Signal
GND
DP_D_AUX#
DP_D_AUX
DP_C_HPD
DP_D_HPD
RSVD
3V3
3V3
GND
DP_B_L0#
DP_B_L0
GND
DP_B_L1#
DP_B_L1
GND
DP_B_L2#
DP_B_L2
GND
DP_B_L3#
DP_B_L3
GND
DP_B_AUX#
DP_B_AUX
DP_B_HPD
DP_A_HPD
3V3
3V3
Table 1-3: MXM Connector Pin Definitions
PU/PD
PD 100K
PD 100K
PD 100K
PD 100K
Introduction
EGX-MXM-RTX5000
1.7
Thermal Policy
The GPU core clock throttles at temperatures (T
J
) past the thresholds 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.
Parameter
Thermal Resistance (Junction to Case, RJC)
Thermal Resistance (Junction to PCB Board, RJB)
GPU Maximum Operating Temperature1
GPU Slowdown Temperature (THERM_ALERT)2
GPU Shutdown Temperature (OVERT)3
Table 1-4: Thermal Policy
Value Units
0.014
°C/W
0.64
°C/W
89
97.5
102.5
°C
°C
°C
X Max.GPU operating temperature is the maximum at which the GPU is guaranteed to operate at target performance (base clock) under total board power level
X THERM_ALERT generates a 50% (÷2) hardware clock slowdown.
X OVERT generates a 87.5% (÷8) hardware clock slowdown
Introduction 13
1.7.1
Fan Control
GPU temperature can be read through the SMBus from the system BIOS in order to control the GPU cooler. The thermal registers can be obtained from I2C Slave addresses 0x9E or 0x9C. Refer to the table below.
Address Offset Register Name
0x00
0xFD
0xFD
0xFF
RLTS
Access Description
Read-Only Holds temperature in degrees Celsius, contained within a single unsigned byte.
VENDOR_ID[15:8] Read-Only Holds the NVIDIA
VENDOR_ID or vendor ID
VENDOR_ID[7:0] Read-Only Holds the NVIDIA
VENDOR_ID or vendor ID
REV_ID Read-Only Holds the GPU REV_ID or revision ID
Table 1-5: Thermal Policy
1.8
Unpacking Checklist
Before unpacking, check the shipping carton for any damage. If the shipping carton and/or contents are damaged, inform your dealer immediately. Retain the shipping carton and packing materials for inspection. Obtain authorization from your dealer before returning any product to ADLINK. Ensure that the following items are included in the package.
X EGX-MXM-RTX5000 embedded graphics module
14 Introduction
EGX-MXM-RTX5000
2 System Requirements
2.1
Power Sequencing
For initial power on, or to Resume from S3 and S4, this sequence must be followed.
T
PV-PE
T
PE-PG
T
PV-PE
PV
T
PE-PG
PV
Figure 2-1: Power Sequencing
System Requirements 15
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
16
2.3
Reset Requirements
T
PVPERL
T
PERST-PG
T
PERST-CLK
MODULE
INPUT POWER
PWR_EN
PWR_GOOD
PEX_REFCLK
PEX_RST#
T
FAIL
Figure 2-3: Reset Sequencing
T
PVPERL
PV
T
PERST-CLK
T
PERST-PG
T
FAIL
V
V
QV
System Requirements
EGX-MXM-RTX5000
2.4
Dual Mode DisplayPort Implementation
The EGX-MXM-RTX5000 supports four dual mode DisplayPorts
determine whether the AUX or DDC signal is output from the MXM module, and AC coupling capacitors should be placed on the system board.
3.3V
AUX_P/DDC_CLK
AUX_N/DDC_DAT
CONFIG1 (CABLE ADAPTOR DETECT)
Hot Plug Detect
DP_x_Lx_P
DP_x_Lx_N
Figure 2-4: Dual Mode DisplayPort Implementation
System Requirements 17
18
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 system board (up to 1080p supported). Two 499 Ω (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. Please contact your local ADLINK technical support representative for HDMI/DVI support.
3.3V
3.3V
Level
Shifter
Hot Plug Detect
AUX_P/DDC_CLK
AUX_N/DDC_DAT
DP_x_Lx_P
DP_x_Lx_N
1%
1%
PWR_EN
Figure 2-5: DVI/HDMI on DisplayPort Interface
System Requirements
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
X
X
X
X
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 19
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20 System Requirements
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 ou des dommages.
X
X
X
X
X
X
X
Read these safety instructions carefully
Keep the User’s Manual for future reference
Read the Specifications section of this manual for detailed information on the recommended operating environment
The device can be operated at an ambient temperature of
50ºC
When installing/mounting or uninstalling/removing device; or when removal of a chassis cover is required for user servicing:
Z Turn off power and unplug any power cords/cables
Z Reinstall all chassis covers before restoring power
To avoid electrical shock and/or damage to device:
Z
Z
Keep device away from water or liquid sources
Keep device away from high heat or humidity
Z
Z
Z
Z
Keep device properly ventilated (do not block or coverventilation openings)
Always use recommended voltage and power source settings
Always install and operate device near an easily accessible electrical outlet
Secure the power cord (do not place any object on/over the power cord)
Z Only install/attach and operate device on stable surfaces and/or recommended mountings
If the device will not be used for long periods of time, turn off and unplug from its power source
Important Safety Instructions 21
22
X
X
X
X
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:
Z The power cord or plug is damaged
Z
Z
Z
Z
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 according to the User’s Manual
The device has been dropped and/or damaged and/or shows obvious signs of breakage
Disconnect the power supply cord before loosening the thumbscrews and always fasten the thumbscrews with a screwdriver before starting the system up
It is recommended that the device be installed only in a server room or computer room where access is:
Z
Z
Restricted to qualified service personnel or users familiar with restrictions applied to the location, reasons therefor, and any precautions required
Only afforded by the use of a tool or lock and key, or other means of security, and controlled by the authority responsible for the location.
BURN HAZARD
Touching this surface could result in bodily injury.
To reduce risk, allow the surface to cool before touching.
RISQUE DE BRÛLURES
Ne touchez pas cette surface, cela pourrait entraîner des blessures.
Pour éviter tout danger, laissez la surface refroidir avant de la toucher.
Important Safety Instructions
Getting Service
Ask an Expert: http://askanexpert.adlinktech.com
ADLINK Technology, Inc.
No. 66, Huaya 1st Rd., Guishan District
Taoyuan City 333411, Taiwan
Tel: +886-3-216-5088
Fax: +886-3-328-5706
Email: [email protected]
Ampro ADLINK Technology, Inc.
5215 Hellyer Avenue, #110
San Jose, CA 95138, USA
Tel: +1-408-360-0200
Toll Free: +1-800-966-5200 (USA only)
Fax: +1-408-360-0222
Email: [email protected]
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: [email protected]
ADLINK Technology GmbH
Hans-Thoma-Strasse 11
D-68163 Mannheim, Germany
Tel: +49-621-43214-0
43214-30
Email: [email protected]
EGX-MXM-RTX5000
Please visit the Contact page at www.adlinktech.com
for information on how to contact the ADLINK regional office nearest you:
Getting Service 23
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Table of contents
- 1 EGX-MXM-RTX5000
- 2 Revision History
- 3 Preface
- 5 Table of Contents
- 7 List of Tables
- 9 List of Figures
- 11 1 Introduction
- 11 1.1 Overview
- 11 1.2 Features
- 12 1.3 Specifications
- 12 1.3.1 Graphics Module
- 13 1.3.2 Display Support and Options
- 13 1.3.3 Software Support
- 13 1.3.4 Graphics Options
- 14 1.4 Functional Block Diagram
- 15 1.5 Mechanical Layout
- 18 1.6 MXM Connector Pin Definitions
- 23 1.7 Thermal Policy
- 24 1.7.1 Fan Control
- 24 1.8 Unpacking Checklist
- 25 2 System Requirements
- 25 2.1 Power Sequencing
- 26 2.2 Module Power Up and Down
- 26 2.3 Reset Requirements
- 27 2.4 Dual Mode DisplayPort Implementation
- 28 2.5 DVI/HDMI on DisplayPort Interface
- 29 2.6 Driver Installation
- 29 2.7 Certifications & Agencies
- 31 Important Safety Instructions
- 33 Getting Service