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VPX3G10 Series
Performance Rugged Conduction Cooled
3U VPX GPGPU Blade with NVIDIA GT745M
User’s Manual
Manual Rev.: 0.10 preliminary
Revision Date: April 15, 2015
Part No: 50-15100-1000
Advance Technologies; Automate the World.
Revision History
Revision Release Date
0.10
15/4/2015
Description of Change(s)
Preliminary release
VPX3G10
Preface
Copyright 2015 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.
Trademarks
Product names mentioned herein are used for identification purposes only and may be trademarks and/or registered trademarks of their respective companies.
Preface iii
iv
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.
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
VPX3G10
Table of Contents
Revision History...................................................................... ii
Preface .................................................................................... iii
List of Figures ....................................................................... vii
List of Tables.......................................................................... ix
1 Introduction ........................................................................ 1
Overview.............................................................................. 1
Features............................................................................... 1
Graphics .............................................................................. 1
Display Support ................................................................... 2
Cooling................................................................................. 2
OS Support .......................................................................... 2
Block Diagrams.................................................................... 3
Ruggedization Levels .......................................................... 3
Package Contents ............................................................... 4
2 Specifications ..................................................................... 5
VPX3G10 Blade Specifications ........................................... 5
Power Consumption ............................................................ 6
3 Functional Description ...................................................... 7
GPGPU Features................................................................. 7
GDDR5 Memory .................................................................. 8
Display Interfaces ................................................................ 9
PCI Express Interface........................................................ 10
4 Board Interfaces ............................................................... 11
VPX3G10 Board Layout .................................................... 11
VPX3G10 Mechanical Dimensions.................................... 12
Table of Contents v
Switches............................................................................. 16
5 Driver Installation.............................................................. 17
Important Safety Instructions............................................... 19
Getting Service ...................................................................... 21
vi Table of Contents
VPX3G10
List of Figures
Figure 1-1: VPX3G10 Functional Block Diagram............................... 3
Figure 3-1: Graphics Output Block Diagram ...................................... 9
Figure 3-2: Additional circuitry for DVI output on RTM..................... 10
Figure 4-1: VPX3G10 Board Layout ................................................ 11
Figure 4-2: VPX31G0 Switch and LED locations ............................. 11
Figure 4-3: VPX3G10 Mechanical Drawing ..................................... 12
List of Figures vii
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viii List of Figures
VPX3G10
List of Tables
Table 2-1: VPX3G10 Blade Specifications ....................................... 5
Table 2-2: VPX3G10 Power Consumption ....................................... 6
List of Tables ix
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x List of Tables
VPX3G10
1 Introduction
1.1
Overview
The VPX3G10 is a 3U VPX general-purpose computing on graphics processing unit (GPGPU) blade in single-slot (0.8") form factor featuring the 384 core NVIDIA GeForce GT 745M GPU with high resolution and high performance graphics capabilities for defense and aerospace applications. The VPX3G10 features 2GB of
GDDR5 memory, providing high-bandwidth access to data during
“massively parallel” GPGPU algorithm processing.
The VPX3G10 is rugged conduction cooled with conformal coating, making it ideal for mission critical applications such as military and aerospace platforms.
1.2
Features
X
X
X
X
NVIDIA Kepler architecture GPU
CUDA compute capability 3.0 for parallel computation and graphics processing
High-resolution, high-performance platform for rugged video
I/O and GPGPU applications
Ideal for defense, radar, sonar, UAV and ground vehicles
1.3
Graphics
X
X
X
X
X
X
X
X
X
X
X
NVIDIA GeForce GT 745M GPGPU
384 CUDA cores
548 MHz base clock
Variable voltage
High-Bandwith Digital Content Protection (HDCP) support
OpenCL 1.2
OpenGL 4.4
GPU Boost 2.0
DirectX 11.1
NVIDIA Optimus
Hardware H.264 video encoding
Introduction 1
2
X
X
NVIDIA PureVideo Technology
NVIDIA PhysX-ready
1.4
Display Support
X
X
1x analog output
Z
Z
400 MHz integrated RAMDAC
Up to 2048x1536 30 bpp at 75 Hz
4x DVI outputs.
Z Internal single-link TMDS
Z Up to 1920x1200 32 bpp at 60 Hz
1.5
Cooling
X
X
Conduction-cooled
Air-cooled
1.6
OS Support
X
X
X
X
Windows 8.1
Windows 8
Windows 7
Linux
Introduction
VPX3G10
1.7
Block Diagrams
Front Panel
VGA
VGA
Splitter
Audio/Video
Decoder
PCIe x1
RS-170 SL-DVI
SL-DVI
SL-DVI
SL-DVI
P2
NVIDIA
GeForce GT 745M
PCIe x16 Gen3
P1
System
Temp.
Vol
IPMC
SMBus
GDDR5
GDDR5
GDDR5
GDDR5
IPMI
GPU
Power
PWM
Power
Input
P0
Figure 1-1: VPX3G10 Functional Block Diagram
1.8
Ruggedization Levels
X
X
X
R1: Conduction cooled version supporting -40°C to +75°C at card edge
R2: Conduction cooled version supporting -40°C to +85°C at card edge
A1: Air cooled version supporting -40°C to +75°C ambient temperature
Introduction 3
4
1.9
Package Contents
The VPX3G10 is packaged with the following components. If any of the items on the contents list are missing or damaged, retain the shipping carton and packing material and contact the dealer for inspection. Please obtain authorization before returning any product to ADLINK. The packing contents of the VPX3G10 are non-standard configurations and may vary depending on customer requests.
GPGPU Blade
X VPX3G10
Z Thermal module is assembled on the board
X ADLINK Driver USB Flash Drive
Rear Transition Module
X VPX-R3G10
X DVI to VGA adapter
Test Backplane
X tBP-VPX3000 test backplane
The contents of non-standard VPX3G10 configurations may vary depending on the customer requirements.
CAUTION:
This product must be protected from static discharge and physical shock. Never remove any of the components except at a static-free workstation. Use the anti-static bag shipped with the product when putting the board on a surface. Wear an anti-static wrist strap properly grounded on one of the system's
ESD ground jacks when installing or servicing system components.
Introduction
VPX3G10
2 Specifications
2.1
VPX3G10 Blade Specifications
VITA Standards
• VITA 46.0 VPX Base Standard
• VITA 46.4 PCI Express on VPX Fabric Connector
• VITA 48.0 Ruggedized Enhanced Design Implementation
• Mechanical Base Specification: VITA 65 OpenVPX
Architecture Framework for VPX
Mechanical
Profiles
• IEEE 1101.1-1998 - Mechanical Core Specifications for
Microcomputers
• IEEE 1101.2-1992 - Conduction Cooled VME Mechanics
• 3U 0.8"
• Board size: 100mm x 160mm
• P0, P1, P2 connectors; alignment key 1 & 2 equipped
• MOD3-PER-2F-16.3.1-3
• SLT3-PER-2F-14.3.1
GPGPU
Memory
Memory
Maximum
Power
• GeForce GT 745M, core clock 548 MHz
• Intel® BD82QM77 Platform Controller Hub (PCH)
• 2 GB GDDR5, 128-bit, 2000 MHz clock
• 23 W
Connectors • VPX P0, P1, P2
• D-SUB
Video-In
• RS-170
IPMI Support
Yes
HDCP Support
Yes
Environmental
• Operating Temperature: -40°C to +75°C
• Storage Temperature: -50°C to 100°C
• Humidity: 20~90%, non-condensing
• Shock: 40G peak-to-peak, 11ms duration, non-operating
• Vibration: Operating 5Grms, 20-2000Hz, each axis
EMI
• CE EN55022
• FCC Class A
Table 2-1: VPX3G10 Blade Specifications
Note: Specifications are subject to change without prior notice.
Specifications 5
2.2
Power Consumption
This section provides information on the power consumption of the
VPX3G10 measured with Unigine Heaven Benchmark 4.0.
GPU Core
Frequency
548MHz
FB
Frequency
Voltage
(V)
Current (A) Power (W)
Max Mean Max Mean
2000MHz
Table 2-2: VPX3G10 Power Consumption
6 Specifications
VPX3G10
3 Functional Description
The following sections describe the VPX3G10 features and functions.
3.1
GPGPU Features
X
X
X
X
X
X
X
Kepler GPU Architecture: NVIDIA's Kepler GPU architecture has been designed from the ground up for maximum performance with DirectX 11 and optimal performance per watt. The new SMS streaming multiprocessor is twice as efficient as the prior generation and the new geometry engine draws triangles twice as fast. The result is world class performance and the highest image quality.
NVIDIA CUDA Technology: Compute Unified Device
Architecture, is a parallel computing platform and programming model that unlocks the power of the GPU's processor cores to accelerate the most demanding system tasks.
Microsoft DirectX 11 Support: DirectX 11 GPU with
Shader Model 5.0 support designed for ultra high performance with GPU-accelerated tessellation.
NVIDIA PhysX Technology: A powerful physics engine enabling real-time physics that is is optimized for hardware acceleration by massively parallel processors. GeForce
GPUs with PhysX provide an exponential increase in physics processing power.
NVIDIA FXAA Technology: Shader-based antialiasing technology available from the NVIDIA Control Panel that enables ultra-fast antialiasing.
NVIDIA Adaptive Vertical Sync: Adaptive V-Sync is a smarter way to render frames. At high frame rates, V-sync is enabled to eliminate tearing. At low frame rates, it is disabled to minimize stuttering.
HDMI and Blu-Ray 3D support: HDMI output enables both high-definition video and audio signals to an HDTV via a single cable.
Functional Description 7
8
X
X
X
High-Definition Audio Bitstreaming: Full-support for high-definition audio bitstreaming, including Dolby TrueHD and DTS-HD formats.
Hardware Video Decode Acceleration: The combination of high-definition video decode acceleration and post-processing that delivers stutter-free video, stunning picture clarity, accurate color, and precise image scaling with incredible energy efficiency.
PCI Express 3.0 & 2.0 Support: Designed for the PCI
Express 3.0 bus architecture offering the highest data transfer speeds while maintaining backwards compatibility with earlier PCI Express revisions.
3.2
GDDR5 Memory
GDDR5 double data rate type five synchronous graphics random access memory (SGRAM) conforms to the standards which were set out in the GDDR5 specification by JEDEC and it is specifically designed for use in graphics devices for the most demanding and memory-intensive graphics applications, such as 3D gaming and
HD video editing. It is a dedicated memory for the Graphic Processing Unit (GPU). Such memory not only reduces the display and graphics related load on the computer's main memory, but also serves to improve the performance of the GPU and the system's display, providing much better visual experiences than would be possible with just the computer's integrated graphics.
Functional Description
VPX3G10
3.3
Display Interfaces
The VPX3G10 provides four digital output channels and one analog output channel. Four channels can be active at same time. The
VPX3G10 utilizes the P2 rear I/O connector for single-link DVI and analog outputs. A D-sub connector for analog VGA output is available on the air-cooled version.
NVIDIA
GeForce GT 745M
SL-DVI
SL-DVI
SL-DVI
SL-DVI
VGA
Audio/Video
Decoder
PCIe x1 Gen1
RS-170
VPX
P2
Figure 3-1: Graphics Output Block Diagram
Digital Output
The VPX3G10 has 4x single-link DVI to the P2 connector. The maximum resolution over DVI port is 1920 x 1200 x 32 bpp at
60 Hz. Additional circuitry is required on the RTM board for DVI output.
As shown in the schematic below, the DVIn_TX signals must be pulled to ground with two 499 Ω (1%) pull-down resistors and a FET placed as close to the DVI connector as possible, to limit the leakage. Two AC coupling capacitors (0.1uF, 16V, 10%,
X7R) must be placed between the VPX connector and the pull-down resistors.
The DDC channel (source-side) consists of a clock and a data line and operates at 3.3V. A 3.3V to 5V level shifter must be implemented on the RTM with DDC signals pulled high to 3.3V
on the sink side, as shown below.
Functional Description 9
10
Figure 3-2: Additional circuitry for DVI output on RTM
Hot Plug
The VPX3G10 supports Hot Plug detect for four digital monitors.
Analog Output
The analog output ports provide Red, Green, Blue, Horizontal-Sync and Vertical-Sync and are routed to the P2 connector and D-sub by VGA splitter (not availability simultaneously). Display resolutions up to 2048 x 1536 x 30 bpp at 75 Hz are supported.
3.4
PCI Express Interface
The GeForce GT 745M has a native PCI Express x16 Gen3 bus interface supporting x16, x8, x4, x1 lane widths.
Functional Description
4 Board Interfaces
4.1
VPX3G10 Board Layout
VGA
Switches
Info LEDs
(bottom side)
Figure 4-1: VPX3G10 Board Layout
SW2 SW1
VPX3G10
P0
P1
P2
Info LEDs
Figure 4-2: VPX31G0 Switch and LED locations
Board Interfaces 11
4.2
VPX3G10 Mechanical Dimensions
Dimensions: mm
12
Figure 4-3: VPX3G10 Mechanical Drawing
Board Interfaces
VPX3G10
Information LEDs
LED
LED 1
LED 2
LED 3
LED 4
LED 5
Color
Green
Green
Red
Red
Yellow
LED 6 Yellow
Function
All power is good
GPU is running
Critical temperature shutdown
(GPU)
Failure of input power rail
High temperature of GPU
(From GPU internal thermal diode)
High temperature of GPU
(From IPMI, Option)
VGA Connector
Signal Name Pin # Pin # Signal Name
Red
Blue
GND
Green_RET
DDC_5V
N.C.
HSYNC
DDC_CLK
1
3
5
7
9
11
13
15
10
12
14
6
8
2
4
Green
N.C.
Red_RET
Blue_RET
GND
DDC_DATA
VSYNC
Board Interfaces 13
VPX Connectors
P0 Connector
Pin G F E D C B A
1
2
3
Rsvd
Rsvd
P5V
Rsvd
Rsvd
P5V
6
7
4 GPU_I2CS_CLK GPU_I2CS_DAT
5 IPMI_GAP IPMI_GA4
8
IPMI_GA3
TCLK
GND
IPMI_GA2
GND
REF_CLKN
Rsvd
Rsvd
P5V
GND
GND
GND
TDO
REF_CLKP
No PAD
No PAD
No PAD
Rsvd
Rsvd
P5V
Rsvd
Rsvd
P5V
Rsvd
Rsvd
P5V
Rsvd GND
P3V3_AUX GND
Rsvd
TDI
GND
GND
GND
Rsvd
SYSRST
SMCLK
NVMRO
SMDAT
IPMI_GA1 IPMI_GA0
TMS
Rsvd
TRST
GND
P1 Connector
Pin G
6
7
4
5
1
2
3
IPMI_PLD_TX
GND
Rsvd
GND
Rsvd
GND
Rsvd
8
9
GND
DDC3V_CLK
10 GND
11 DDC3V_DATA
12 GND
13 NODE_RESET
14 GND
15 IPMI_PLD_RX
16 GND
F
GND
L1-TX-
GND
L3-TX-
GND
L5-TX-
GND
L7-TX-
GND
L9-TX-
GND
L11-TX-
GND
L13-TX-
GND
L15-TX-
E
L0-TX-
L1-TX+
L2-TX-
L3-TX+
L4-TX-
L5-TX+
L6-TX-
L7-TX+
L8-TX-
L9-TX+
L10-TX-
L11-TX+
L12-TX-
L13-TX+
L14-TX-
L15-TX+
D
L0-TX+
GND
L2-TX+
GND
L4-TX+
GND
L6-TX+
GND
L8-TX+
GND
L10-TX+
GND
L12-TX+
GND
L14-TX+
GND
C
GND
L1-RX-
GND
L3-RX-
GND
L5-RX-
GND
L7-RX-
GND
L9-RX-
GND
L11-RX-
GND
L13-RX-
GND
L15-RX-
B
L0-RX-
L1-RX+
L2-RX-
L3-RX+
L4-RX-
L5-RX+
L6-RX-
L7-RX+
L8-RX-
L9-RX+
L10-RX-
L11-RX+
L12-RX-
L13-RX+
L14-RX-
L15-RX+
A
L0-RX+
GND
L2-RX+
GND
L4-RX+
GND
L6-RX+
GND
L8-RX+
GND
L10-RX+
GND
L12-RX+
GND
L14-RX+
GND
14 Board Interfaces
VPX3G10
P2 Connector
Pin G F E D C B A
1 HOTPLUG1
2
3
4
5 HOTPLUG2
6
7
8
9
10
11
12
13
14
15
16
GND
DDC1_5V
GND
GND
DDC3_5V
GND
RTM_DET
GND
RS-170_
PCIE_RST
GND
SEQ_IN
GND
SEQ_OUT
GND
GND
DVI1_
TX1N
GND
DVI2_
CLKN
DVI1_
CLKN
DVI1_
TX1P
DDC4_
DATA
DVI2_
CLKP
GND
DVI2_
TX1N
DDC2_5V DDC4_5V
GND
RS-170_
LUMA
GND
DVI3_
TX0N
DVI1_CLK
P
GND
DDC4_CLK
GND
DVI2_TX1P
VSYNC3 HSYNC3
RS-170_
CHROM
GND
DVI3_
CLKN
DVI3_
TX0P
GND
DVI3_
CLKP
GND
GND
DVI3_
TX2N
GND
DVI4_
TX0N
GND
DVI4_
TX2N
DVI3_
TX1N
DVI3_
TX2P
DVI4_
CLKN
DVI4_
TX0P
DVI4_
TX1N
DVI4_
TX2P
DVI3_TX1P
GND
DVI4_
CLKP
GND
DVI4_TX1P
GND
GND
DVI1_TX2N
GND
DVI2_
TX0N
GND
RSVD
GND
DDC1_CLK
GND
VGA3_
RED RET
GND
VGA3_
BLUE RET
GND
DVI1_TX0N
DVI1_TX2P
DDC3_DATA
DVI2_TX0P
DVI2_TX2N
RSVD
DDC1_DATA
DDC2_DATA
HOTPLUG3
VGA3_RED
VGA3_
GREEN RET
VGA3_BLUE
GND
DVI1_TX0P
GND
DDC3_CLK
GND
DVI2_TX2P
GND
DDC2_CLK
GND
HOTPLUG4
GND
VGA3_
GREEN
GND
FPSD
RS-170_PCIE
_RX0N
GND
RS-170_PCIE
_CLKN
RS-170_PCIE
_RX0P
RS-170_PCIE
_TX0N
RS-170_PCIE
_CLKP
GND
RS-170_PCIE
_TX0P
GND
Board Interfaces 15
4.3
Switches
Display Output Mode (SW1)
This switch sets the display output from either the display port(s) of the VGX3G10 or from the display outputs of the processor blade. In both settings, graphics processing is handled by the
VGX3G10.
Setting
Left
Right
Function
Display output from VPX3G10 (default)
Display output from processor blade
VGA Front/Rear Output (SW2)
Sets the VGA display output of the VGX3G10 to either the rear or front VGA port (front VGA only available on air-cooled version)
Setting
Left
Right
Function
Rear VGA output (default)
Front VGA output
16 Board Interfaces
VPX3G10
5 Driver Installation
The VPX3G10 drivers are available from the ADLINK website: www.adlinktech.com/PD/web/PD_detail.php?cKind=&pid=1372 .
ADLINK provides validated drivers for Windows 7. We recommend using these drivers to ensure compatibility.
Install the Windows operating system before installing any driver.
Most standard I/O device drivers are installed during Windows installation.
1. Install the chipset driver by extracting the contents of
NVIDIA_Graphic_WIN7_64_V_R340.52.zip
and running the program setup.exe
.
2. The driver package will auto-extract to the default location. Change the path if desired.
3. Continue the driver installation as instructed.
Driver Installation 17
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18 Driver Installation
VPX3G10
Important Safety Instructions
For user safety, please read and follow all instructions ,
WARNINGS , CAUTIONS, and NOTES marked in this manual and on the associated equipment before handling/operating the equipment.
X
X
X
X
X
Read these safety instructions carefully.
Keep this user’s manual for future reference.
Read the specifications section of this manual for detailed information on the operating environment of this equipment.
When installing/mounting or uninstalling/removing equipment:
Z Turn off power and unplug any power cords/cables.
To avoid electrical shock and/or damage to equipment:
Z Keep equipment away from water or liquid sources;
Z
Z
Z
Z
Z
Z
Z
Keep equipment away from high heat or high humidity;
Keep equipment properly ventilated (do not block or cover ventilation openings);
Make sure to use recommended voltage and power source settings;
Always install and operate equipment near an easily accessible electrical socket-outlet;
Secure the power cord (do not place any object on/over the power cord);
Only install/attach and operate equipment on stable surfaces and/or recommended mountings; and,
If the equipment will not be used for long periods of time, turn off and unplug the equipment from its power source.
Important Safety Instructions 19
X Never attempt to fix the equipment. Equipment should only be serviced by qualified personnel.
A Lithium-type battery may be provided for uninterrupted, backup or emergency power.
WARNING:
Risk of explosion if battery is replaced with one of an incorrect type. Dispose of used batteries appropriately.
X Equipment must be serviced by authorized technicians when:
Z The power cord or plug is damaged;
Z
Z
Liquid has penetrated the equipment;
It has been exposed to high humidity/moisture;
Z
Z
Z
It is not functioning or does not function according to the user’s manual;
It has been dropped and/or damaged; and/or,
It has an obvious sign of breakage.
20 Important Safety Instructions
Getting Service
Contact us should you require any service or assistance.
ADLINK Technology, Inc.
Address: 9F, No.166 Jian Yi Road, Zhonghe District
New Taipei City 235, Taiwan
Tel:
ᄅקؑխࡉ৬ԫሁ 166 ᇆ 9 ᑔ
+886-2-8226-5877
Fax:
Email:
+886-2-8226-5717 [email protected]
Ampro ADLINK Technology, Inc.
Address: 5215 Hellyer Avenue, #110
San Jose, CA 95138, USA
Tel: +1-408-360-0200
Toll Free: +1-800-966-5200 (USA only)
Fax:
Email:
+1-408-360-0222 [email protected]
ADLINK Technology (China) Co., Ltd.
Address: Ϟ⍋Ꮦ⌺ϰᮄऎᓴ∳催⾥ᡔುऎ㢇䏃 300 ো (201203)
300 Fang Chun Rd., Zhangjiang Hi-Tech Park
Tel:
Fax:
Email:
Pudong New Area, Shanghai, 201203 China
+86-21-5132-8988
+86-21-5132-3588 [email protected]
ADLINK Technology Beijing
Address: ࣫ҀᏖ⍋⎔ऎϞഄϰ䏃 1 োⲜ߯ࡼॺ E ᑻ 801 ᅸ (100085)
Rm. 801, Power Creative E, No. 1 Shang Di East Rd.
Tel:
Fax:
Email:
Beijing, 100085 China
+86-10-5885-8666
+86-10-5885-8626 [email protected]
ADLINK Technology Shenzhen
Address: ⏅ഇᏖफቅऎ⾥ᡔುफऎ催ᮄफϗ䘧᭄ᄫᡔᴃು
A1 ᷟ 2 ὐ C ऎ (518057)
2F, C Block, Bldg. A1, Cyber-Tech Zone, Gao Xin Ave. Sec. 7
High-Tech Industrial Park S., Shenzhen, 518054 China
Tel:
Fax:
Email:
+86-755-2643-4858
+86-755-2664-6353 [email protected]
LiPPERT ADLINK Technology GmbH
Address: Hans-Thoma-Strasse 11, D-68163
Tel:
Fax:
Email:
+49-621-43214-0
+49-621 43214-30 [email protected]
Getting Service
VPX3G10
21
22
ADLINK Technology, Inc. (French Liaison Office)
Address: 6 allée de Londres, Immeuble Ceylan
91940 Les Ulis, France
Tel:
Fax:
Email:
+33 (0) 1 60 12 35 66
+33 (0) 1 60 12 35 66 [email protected]
ADLINK Technology Japan Corporation
Address: ͱ 101-0045 ᵅҀ䛑गҷ⬄ऎ⼲⬄䤯ފ⬎
⼲⬄ 374 ɛɳ 4F
3-7-4
KANDA374 Bldg. 4F, 3-7-4 Kanda Kajicho,
Tel:
Fax:
Email:
Chiyoda-ku, Tokyo 101-0045, Japan
+81-3-4455-3722
+81-3-5209-6013 [email protected]
ADLINK Technology, Inc. (Korean Liaison Office)
Address: 137-881 326, 802 ( 昢爎壟 , 微汾瘶捒娯 )
802, Mointer B/D, 326 Seocho-daero, Seocho-Gu,
Tel:
Fax:
Email:
Seoul 137-881, Korea
+82-2-2057-0565
+82-2-2057-0563 [email protected]
ADLINK Technology Singapore Pte. Ltd.
Address: 84 Genting Lane #07-02A, Cityneon Design Centre
Singapore 349584
Tel:
Fax:
Email:
+65-6844-2261
+65-6844-2263 [email protected]
ADLINK Technology Singapore Pte. Ltd. (Indian Liaison Office)
Address: #50-56, First Floor, Spearhead Towers
Margosa Main Road (between 16th/17th Cross)
Malleswaram, Bangalore - 560 055, India
Tel:
Fax:
Email:
+91-80-65605817, +91-80-42246107
+91-80-23464606 [email protected]
ADLINK Technology, Inc. (Israeli Liaison Office)
Address: 27 Maskit St., Corex Building
Tel:
Fax:
Email:
Herzliya 4673300, Israel
+972-77-208-0230
+972-77-208-0230 [email protected]
ADLINK Technology, Inc. (UK Liaison Office)
Tel: +44 774 010 59 65
Email: [email protected]
Getting Service
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