1 CONTENTS

About Aetina ...... 3

Business Commitment ...... 4

Industrial / Embedded Focus ...... 6

Do the Right Technology : Built for Extreme Reliability ...... 8

Customization Service ...... 10

Industrial Graphics Cards

General Purpose Graphics Cards ...... 11 Selection Guide ...... 12 PCI ...... 14 PCI Express ...... 15

Rugged GPGPU Boards ...... 23 Selection Guide ...... 24 XMC ...... 25 VPX ...... 27 CompactPCI Express ...... 28

Embedded MXM GPU Modules ...... 29 Selection Guide ...... 30 MXM ...... 32

Multi-Display Graphics Cards ...... 39 Selection Guide ...... 40 x4 Displays ...... 41 x9 Displays ...... 44 x12 Displays ...... 45

Embedded Jetson GPGPU Solutions

Software / Hardware Integration Value-added Service ...... 47 Selection Guide ...... 48 NVIDIA® Jetson TX1/TX2/TX2i Embedded Module ...... 50 Jetson TX1/TX2 Carrier Board ...... 53 Jetson TX1/TX2 Developer Kit ...... 55 NVIDIA® Tegra K1 COM Express™ Type 6 Compact Module ...... 57 Tegra K1 Developer Kit ...... 58 About Aetina Founded in Taiwan, Aetina is dedicated to industrial graphics cards and GPGPU solutions for industrial embedded applications. With continuous focus and development on the industry-specific form factors and high reputable GPU-accelerated computing solutions, Aetina features a wide range of products for operation in critical imaging applications applied in medical, defense & aerospace, factory automation, transportation, gaming, outside signage and more markets.

At Aetina, long-term support is our core commitment. We stand together with customers through close technical partnership as well as our trusted hardware and firmware customization services.

Everything we do is dedicated to helping our customers to release their products on time, on budget and with the anticipated competitiveness.

Vision Offering GPGPU parallel computing in the unique form factors required by defense, aerospace, and industrial clients, we strive to not only provide better graphics solutions for mission critical applications but to enable the next era of high quality GPU-accelerated computing solutions massively used in the air, on the ground, or in the operating room for an intelligent world.

3 Business Commitment The word “Aetina” is derived from "Accuracy, Efficiency, Teamwork, Innovation, Non-stop and Ambition.” This acronym directly reflects our commitment to providing reliable products and continuous service.

4 01 OEM/ODM Projects

Aetina’s R&D team is comprised of experts with over ten years of experience and knowledge regarding in VGA/GPU applications and Industrial PCs. Our talented team is able to design and produce superior products to fulfill customized demands. We strive to help our customers make their industrial platforms and embedded systems competitive by gaining significant graphics performance and GPGPU computations, and simplify in-system qualifications, all purposed in a rapid and affordable way.

02 Long-term Supply

Aetina recognizes that industrial embedded devices and applications require longer life spans. We devote ourselves to being a long-term and reliable supplier for our clients. Aetina is widely recognized as a dependable and trustworthy world-class embedded graphics solution provider.

03 Technical Support

Aetina focuses on long-term relationships and top-notch service. We provide efficient and timely FAE services and technical support; our client’s satisfaction is our top priority. This is the philosophy that guides us in all interactions with our clients and business partners.

04 Various Product Lines

Aetina’s multiple product portfolios are suited to meet a variety of needs, as well as fulfill specialized platform requirements for applications in medical, defense, military, aerospace, transportation, digital signage, security, casino gaming systems. Aetina collaborates with our customers to incorporate required criteria into the product design concept. Our product lines boast low power consumption, two ball bearings, are fanless and rugged, operate at wide temperatures, and come in diverse form factors for a multi output interface.

05 Quality Assurance

Aetina pursues the most innovative designs and incorporate leading edge technologies into our products. Throughout the design, development, testing and manufacturing process, each stage is compliant with strict quality control guidelines, and is overseen by our stringent Quality Assurance Management.

06 Professional Manufacturing

Aetina's manufacturing and quality examination is carried out in a 20-year PCBA production experienced factory that implements ISO, OHSAS, RoHS quality management systems. Our factory is a total static-free environment. Throughout every phase of the process, from manufacturing to multi-function testing, our mission is “Quality First, Customers Foremost”.

5 Industrial / Embedded Focus Aetina works closely with industrial computing and embedded customers to ensure that we develop and implement technical innovations that best suit their target markets. Our products are compatible with a wide range of applications, from defense, aerospace, military, medical, surveillance, automation, casino gaming and digital signage. We also offer tailored products to suit demanding working conditions and temperatures.

6 AOI (Automatic Optical Inspection) The AOI system has been widely used for production detection. Our PCI Express card series is the proven and adopted solution for enhancing a manufacturer’s ability to inspect defects efficiently, with accuracy, and with high performance Medical in a reliable inspection Digital Signage In the medical industry, environment. Digital signage is heavily highly accurate and timely implemented in a wide-range image processing is a top of applications, including priority. X-rays, ultrasounds retail (supermarkets, shopping and endoscopy are just a centers), visual display walls, few of the applications with transportation, and point-of- such requirement. Since sales. Our products integrate critical video, graphics and 3D graphics processing units, computing data are provided and help to deliver powerful in different formats, our MXM performance, high-definition module series is designed to graphics (in 2D or 3D accommodate a wide array of formatting), and on single or specific I/O requirements to multiple displays. deliver scalable quality and reliability. Transportation For the transportation industry, smaller form factor designs and powerful computing with lower power consumption are the biggest challenges. Our XMC graphics cards can accommodate shock and vibration, are robust and rugged, and are offered with an impressively high- resolution. Our products feature a variety of I/O Defense and Aerospace We offer the most rugged, Casino Gaming interfaces to support video, voice and video surveillance high resolution and high We focus on providing performance VPX, XMC immersive graphics, graphics cards for mission- powerful processing, and critical applications. Our low power consumption products boast runtime graphics solutions for performance and state-of- the gaming industry that the-art image quality and combines premium graphics graphics capabilities. Our performance with advanced designs ensure significant features. gains in radar, video and image processing applications.

7 Do The Right Technology Built for Extreme Reliability When the mission is on the line, every detail counts. A high reliability system is typically required to sustain normal function under harsh conditions. Today the commercial grade GPU cards achieve amazing graphics performance and computational acceleration—until things heat up. Fanless operation, SWaP constrained, and exposure to severe temperature variations are just a part of daily life for aerospace, defense, vehicles, and outdoor-based embedded systems. Aetina targets mission- critical applications for these systems, offering wide operating temperature range and conformal coating in specialized form factors, including MXM, XMC, VPX and CompactPCI Express, providing vendors an excellent choice for building rugged embedded systems with reliable GPGPU and graphics solutions.

8 Wide Operating Temperature Range To ensure consistent operation and reliable performance under various environmental temperature extremes, Aetina carries out stringent testing exceeding the requirements of the IEC 60068 standard. The testing procedure includes a gauntlet of dynamic temperature burn-in cycles over extended periods of time with start-ups at as low as -40°C and as high as +85°C, using a thermal stream-like testing model, together with our own in-house designed interposer card developed to test specialized form factors required by our industrial customers.

Unique Interposer Testing Module For testing special, non-standard form factors, Aetina has specially designed our own unique interposer testing tool. Our interposer testing module such as for MXM, adapts the specialized interface to a PCI- Express slot. With high-speed digital transmission connectors, the signal transfers without any degradation of performance even during temperature variations, giving a true indication of graphics performance in extreme environments.

Wide Temperature Cycling and Testing Our wide temperature graphics cards must pass a comprehensive engineering testing procedure during development as well as individual validation before delivery. Beyond testing at temperature extremes, severe temperature variations are also accounted for. Aetina wide temperature cycling test makes sure our GPU cards can stand up to this abuse and keep on ticking.

“Comprehensive Certification”

10 dynamic temperature 110 hours Burn-in 110 hours Burn-in 100 times of power 100 times of power cycling test test at 85°C test at -40°C on/off cycles at 85°C on/off cycles at -40°C

Conformal Coating Aetina offers conformal coating service on its complete range of GPU products to meet the rigors of harsh industrial and military use. Our conformal coating technology refers to protective chemical materials applied in layers as thin as 0.03mm and up to 0.13 mm thick onto the circuit board to create a protective film for components, which in line with IPC-A-610 standards, for electronic components to protect the graphics card against dust, moisture, harsh chemicals, mechanical stress and to prevent solder joints and connections corroding due to contact with air.

Especially suited to defense and aerospace, outdoors digital signage, in-vehicle computing and factory automation, Aetina’s conformal coatings go beyond normal ruggedization methods to not only offer protection from the elements but add value to industrial systems.

9 Customization Service

Helping Our Partners Reach What They Need Aetina recognizes that each client requires unique application requirements for their end products, especial claims for GPGPU solution for critical applications in military, unmanned aerial vehicle, radar center, surveillance system, factory machine vision equipment, medical imaging and transportation.

Supported by our talented R&D team with over decade experience and knowledge in VGA/GPU fields and industrial computing. We are manufacturer has the ability to provide our clients customization services ranging from concept to mass production, and till after services. In past years, we successfully build ODM business with world-leading companies developing their niche products which created by our services :

Pure-Custom Level service: From concept to finished product until manufacturing and after services, providing complete customized design supporting into every phase of the product life cycle. Design covering specification initial, domain documents supporting, researching, schematic review, circuit layout, BIOS tailored, debug & analysis, validation & testing, manufacturing management, schedule control and warranty service.

Semi-Custom Level service: Based on Aetina’s various form factors of graphics modules and boards, customers can have customized I/O, tailor-made BIOS and schematic customized service from Aetina. We will keep providing all necessary information and supporting to customers in order to make sure products are in line with their needs and vertical applications.

Minor-Custom Level service: To gain most flexibility and productivity, customers can easily and quickly suffice their systems from our standard-based products with minor configuration change without redesign. It is the way to save total cost and development time, speed up products time to market.

ODM Project Procedure

CD DRM PT 1 Concept Designand 2 Design Review Meeting 3 Prototype Run > Specification initial > Schematic review > Prototype > Domain documents supporting > Circuit layout > Debug & analysis > Researching > BIOS tailored > Validation & testing

EP PP MP 4 Engineer Pilot Run 5 Production Pilot Run 6 Mass Production > Critical function check > ECR > Manufacturing management > QVL starts > QVL ready > QTC > EMI certificate by request > MP tooling readiness > Shipment control

10 General Purpose GraphicsCards

Today, it is no doubt the industrial applications are growing demanding of elaborate graphics and compute capabilities. For example, the automatic manufacturing facility utilizing machine inspection requires more precise 2D/3D imaging and real-time pixel counting processing. Casino gaming solutions now need better processing performance per watt and immersive 3D graphics to capture player’s attention. Multiple displays with improved 3D and video performance are essential for intelligent security deployments and gaming machines. The modern medical imaging industry is embracing advanced 3D visualization quickly than ever. Detailed digital graphs, charts and 3D rendering visualizations, help doctors and radiologists make quick diagnosis and prescribe the best treatment to their patients.

Aetina offers the extensive General Purpose Graphics Cards, including PCI, PCI Express x1, PCI Express x16 portfolio, fulfilling and exceeding the unique requirements of these applications for industry-specific features such as multi-displays, small form factor, low power consumption, fanless, two-ball-bearing cooling fan, industrial-grade components, 4K resolutions and mores.

Long-term support and longevity service are our core commitment from an understanding that industrial systems demand much longer lifecycles. Thanks to Aetina’s strong hardware and firmware team, enable us to support customer reliability, stability and flexibility from our industrial know-how and customization services.

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Model Number NF52A-H27FX N710B-E8HL N710D-E5HL N710C-E8HL N1030-J6FL

Bus Type PCI PCIe 2.0 x 1 PCIe 2.0 x 8 PCIe 2.0 x 16 PCIe 3.0 x 16

GPU N/A NVIDIA Kepler™ NVIDIA Kepler™ NVIDIA Kepler™ NVIDIA Pascal™ Architecture Graphics GeForce FX 5200 GeForce GT 710 GeForce GT 710 GeForce GT 710 GeForce GT 1030 Processing Unit

GPU Engine NVIDIA® N/A 192 192 192 384 CUDA™ Cores

Graphics Clock 250 MHz 954 MHz 954 MHz 954 MHz 1227/1468 MHz

Floating Point N/A 366.34 GFLOPS 366.34 GFLOPS 366.34 GFLOPS 942.34 GFLOPS

Memory Size 256MB DDR 1GB DDR3 1GB DDR3 1GB DDR3 2GB GDDR5

800 MHz 800 MHz 800 MHz 3000 MHz Memory Clock 266 MHz (1.6 Gbps) (1.6 Gbps) (1.6 Gbps) (6.0 Gbps) Memory Memory 128-bit 64-bit 64-bit 64-bit 64-bit Interface Width Memory 4.2 GB/sec 12.8 GB/sec 12.8 GB/sec 12.8 GB/sec 48 GB/sec Bandwidth 12 API 12 API 12 API DirectX 9.0a 12 API (feature level 11_0) (feature level 11_0) (feature level 11_0)

OpenGL 1.4 4.4 4.4 4.4 4.5

API OpenCL - 1.1 1.1 1.1 1.2

Shader Mode 2.0a 5 5 5 5

NVIDIA CUDA N/A support support support support enabled

Operation Windows® XP Windows® XP Windows® XP Support OS Windows® XP Windows® 7 -10 System Linux Windows® 7 -10 Windows® 7 -10 Windows® 7 -10 Linux Linux Linux Linux

Max. Displays 2 3 3 3 2 per Board Max. Digital 1600x1200 4096x2160 4096x2160 4096x2160 4096x2160 Display Max. Analog 2048x1536 2048x1536 2048x1536 2048x1536 1920x1200 Display Display

Single Link DVI-I Dual Link DVI-D VGA Dual Link DVI-D Single Link DVI-I Outputs TV-OUT HDMI HDMI HDMI HDMI 2.0b VGA VGA VGA VGA

Max. Board Power Power 25W 19 W 19 W 19 W 30 W Consumption Two-ball-bearing Cooling Active Fan Heat-sink Heat-sink Heat-sink Fan Thermal Slot Occupied Single-slot Single-slot Single-slot Single-slot Single-slot

Mechanical Dimensions 160.9x100.7 mm 162.38x68.9 mm 162.38x68.9 mm 162.38x68.9 mm 167.64x68.9 mm

Operation Environment 0 °C ~ +55 °C 0 °C ~ +55 °C 0 °C ~ +55 °C 0 °C ~ +55 °C 0 °C ~ +55 °C Temperature

12 General Purpose Graphics Cards Product specifications are subject to change without prior notice p.19 p.20 p.21 p.22 N75TC-J8FL N950C-JOFX N1050-J9FX N1050TI-L9FX

PCIe 3.0 x 16 PCIe 3.0 x 16 PCIe 3.0 x 16 PCIe 3.0 x 16

NVIDIA Maxwell™ NVIDIA Maxwell™ NVIDIA Pascal™ NVIDIA Pascal™

GeForce GTX 750 Ti GeForce GTX 950 GeForce GTX 1050 GeForce GTX 1050 Ti

640 768 640 768

1020 MHz 1024 MHz 1354/1455 MHz 1290/1392 MHz

1.31 TFLOPS 1.57 TFLOPS 1.73 TFLOPS 1.98 TFLOPS

2GB GDDR5 2GB GDDR5 2GB GDDR5 4GB GDDR5

2700 MHz 3300 MHz 3500 MHz 3500 MHz (5.4 Gbps) (6.6 Gbps) (7.0 Gbps) (7.0 Gbps)

128-bit 128-bit 128-bit 128-bit

86.4 GB/sec 105.6 GB/sec 112 GB/sec 112 GB/sec

12 API 12 API 12 API 12 API

4.4 4.5 4.5 4.5

1.2 1.2 1.2 1.2

5 5 5 5

support support support support

Windows XP Windows XP ® ® Windows® 7-10 Windows® 7-10 Windows® 7 -10 Windows® 7 -10 Linux Linux Linux Linux

3 4 3 3

4096x2160 5120x3200 7680x4320 7680x4320

2048x1536 2048x1536 1920x1200 1920x1200

Dual Link DVI-D Dual Link DVI-I DisplayPort 1.2 DisplayPort 1.2 HDMI HDMI 2.0 HDMI 2.0b HDMI 2.0b VGA 3 DisplayPort 1.2 Dual Link DVI-I Dual Link DVI-I

60 W 90 W 75 W 75 W

Two-ball-bearing Two-ball-bearing Two-ball-bearing Two-ball-bearing Fan Fan Fan Fan

Single-slot Two-slot Two-slot Two-slot

154.67x68.9 mm 174.9x111.15 mm 144.78x111.15 mm 144.78x111.15 mm

0 °C ~ +55 °C 0 °C ~ +55 °C 0 °C ~ +55 °C 0 °C ~ +55 °C

Product specifications are subject to change without prior notice General Purpose Graphics Cards 13 NF52A-H27FX NVIDIA® PCI Low Power Industrial Graphics Card

Features

• Cost-effective solution for PCI graphics upgrade • Single slot thermal system fit to small systems • Support 128-bit studio-precision color for 2D/3D • Integrated TV encoder, decoder and TV-out functionality

Automation

GPU Engine Specs Thermal and Power Specs

GPU GeForce FX 5200 Thermal Active Cooling

NVIDIA® CUDA™ Cores N/A Max. GPU Temperature (in C) 110 °C Graphics Clock (MHz) 250 MHz Max. Board Power Consumption (W) 25 W

Floating Point Performance N/A Min. System Power Requirement (W) 250 W

Memory Specs Dimensions

Memory Size 256MB DDR Width Single-slot Memory Clock (MHz) 266 MHz Length 160.9 mm Memory Interface Width 128-bit Height 100.7 mm Memory Bandwidth (GB/sec) 4.2 Form Factor ATX

Feature Support

Bus Type PCI OpenGL 1.4 DirectX 9.0a CUDA enabled N/A

Operation System Windows® XP Linux

Display Support

Max. Displays per Board 2 Max. Digital Display Support 1600x1200 Max. Analog Display Support 2048x1536 Display Connectors Single Link DVI-I TV-Out VGA

14 General Purpose Graphics Cards N710B-E8HL NVIDIA® PCI Express x1 Small Form Factor Industrial Graphics Card

Features

• 3 years longevity product supply service • Powered by NVIDIA® power-efficient GPU GeForce GT 710 • All industrial grade solid capacitors design • Single-slot fanless with low profile design for slim chassis • Best budget solution for PCIe x1 graphics upgrade

Automation Gaming

GPU Engine Specs Thermal and Power Specs

Active Cooling GPU NVIDIA GeForce GT 710 Thermal Heat-sink

110 °C NVIDIA® CUDA™ Cores 192 Max. GPU Temperature (in C) 95 °C 25 W Graphics Clock (MHz) 954 MHz Max. Board Power Consumption (W) 19 W

250 W Floating Point Performance 366.34 GFLOPS Min. System Power Requirement (W) 300 W

Memory Specs Dimensions

Single-slot Memory Size 1GB DDR3 Width Single-slot

160.9 mm Memory Clock (MHz) 800MHz (1.6 Gbps) Length 162.38 mm 100.7 mm Memory Interface Width 64-bit Height 68.9 mm ATX Memory Bandwidth (GB/sec) 12.8 Form Factor SFF=Small Form Factor (Low profile card)

Feature Support

Bus Type PCI-Express 2.0 x1 OpenGL 4.4 DirectX 12 API with feature level 11_0 CUDA enabled Yes Operation System Windows® XP Windows® 7-10 Linux

Display Support

Max. Displays per Board 3 Max. Digital Display Support 4096x21601 Max. Analog Display Support 2048x1536 Display Connectors VGA HDMI(1.4) Dual Link DVI-D

1. 4096x2160 resolution at 24Hz or 3840x2160 resolution at 30Hz supported over HDMI.

General Purpose Graphics Cards 15 N710D-E5HL NVIDIA® PCI Express x8 Small Form Factor Industrial Graphics Card

Features

• 3 years longevity product supply service • Support natively Dual-VGA connectivity • Driven up to 3 independently displays • PCIe x8 fanless solution • Lowest level power consumption • Single-slot with low profile form factor, ideal for small systems

Automation Gaming Medical

GPU Engine Specs Thermal and Power Specs

GPU NVIDIA GeForce GT 710 Thermal Heat-sink NVIDIA® CUDA™ Cores 192 Max. GPU Temperature (in C) 95 °C Graphics Clock (MHz) 954 MHz Max. Board Power Consumption (W) 19 W Floating Point Performance 366.34 GFLOPS Min. System Power Requirement (W) 300 W

Memory Specs Dimensions

Memory Size 1GB DDR3 Width Single-slot

Memory Clock (MHz) 800 MHz (1.6 Gbps) Length 162.38 mm Memory Interface Width 64-bit Height 68.9 mm Memory Bandwidth (GB/sec) 12.8 Form Factor SFF=Small Form Factor (Low profile card)

Feature Support 128.61 Bus Type PCI-Express 2.0 x8 115.47 OpenGL 4.4 2.25 1.62 DirectX 12 API (feature level 11_0) 15.45

CUDA enabled Yes 21.59

Operation System Windows® XP 9.30 1.50 Windows® 7-10 Linux 108.20

Display Support 49.94 21.22 78.58 Max. Displays per Board 3 55 68.94 119.81 Max. Digital Display Support 4096x21602 Max. Analog Display Support 2048x15361 Display Connectors VGA 114.30 HDMI VGA

1. 2048x1536 supported over bottom-side D-Sub connector 2. 4096x2160 resolution at 24Hz or 3840x2160 resolution at 30Hz supported over HDMI.

16 General Purpose Graphics Cards N710C-E8HL NVIDIA® PCI Express x16 Small Form Factor Industrial Graphics Card

Features

• 3 years longevity product supply service • Lowest level power consumption • Driven multi-displays up to 3 monitors • Single-slot with low profile design for slim chassis • Minimize maintenance to save total system costs

Automation Gaming Medical

GPU Engine Specs Thermal and Power Specs

Heat-sink GPU NVIDIA GeForce GT 710 Thermal Heat-sink 95 °C NVIDIA® CUDA™ Cores 192 Max. GPU Temperature (in C) 95 °C 19 W Graphics Clock (MHz) 954 MHz Max. Board Power Consumption (W) 19 W 300 W Floating Point Performance 366.34 GFLOPS Min. System Power Requirement (W) 300 W

Memory Specs Dimensions

Single-slot Memory Size 1GB DDR3 Width Single-slot

162.38 mm Memory Clock (MHz) 800 MHz (1.6 Gbps) Length 162.38 mm 68.9 mm Memory Interface Width 64-bit Height 68.9 mm SFF=Small Form Factor Memory Bandwidth (GB/sec) 12.8 Form Factor SFF=Small Form Factor (Low profile card) (Low profile card)

Feature Support

Bus Type PCI-Express 2.0 x161 OpenGL 4.4 DirectX 12 API (feature level 11_0) CUDA enabled Yes Operation System Windows ® XP Windows ® 7-10 Linux Display Support

Max. Displays per Board 3 Max. Digital Display Support 4096x21602 Max. Analog Display Support 2048x1536 Display Connectors Dual Link DVI-D HDMI VGA

1. Aetina provides PCI-Express 2.0 16X mechanism while data transmission via PCI-Express 8X . 2. 4096x2160 resolution at 24Hz or 3840x2160 resolution at 30Hz supported over HDMI.

General Purpose Graphics Cards 17 N1030-J6FL NVIDIA® Pascal™ PCI Express x16 Small Form Factor Industrial Graphics Card

Features

• 3 years longevity product supply service • Low power consumption, optimize performance per watt • Analog display supported • Single-slot with low profile design for slim chassis • Ideal for factory automation, AIO and digital signage

Automation Gaming Medical

GPU Engine Specs Thermal and Power Specs

GPU NVIDIA GeForce GT 1030 Thermal Two Ball Bearing Fan

NVIDIA® CUDA™ Cores 384 Max. GPU Temperature (in C) 97 °C Graphics Clock (MHz) 1227/1468 MHz Max. Board Power Consumption (W) 30 W

Floating Point Performance 942.34 GFLOPS Min. System Power Requirement (W) 300 W

Memory Specs Dimensions

Memory Size 2GB GDDR5 Width Single-slot

Memory Clock (MHz) 3000 MHz (6.0 Gbps) Length 167.64 mm Memory Interface Width 64-bit Height 68.9 mm Memory Bandwidth (GB/sec) 48 Form Factor SFF=Small Form Factor (Low profile card)

Feature Support

Bus Type PCI-Express 3.0 x161 21.6 1.78 1.62 19.05 3.54 14.10 OpenGL 4.5 10 167.64 DirectX 12 API 86.20 CUDA enabled Yes 6.45

2 Operation System Windows® 7 -10 14.28 Linux 120 45.28 48.31 55.39 68.90

7.85 9.83 11.65 Display Support 1.38 0.95 23.80 72.15 36.97 5° Max. Displays per Board 2 0.90 18.42 Max. Digital Display Support 4096x2160 Max. Analog Display Support 1920x1200 Display Connectors HDMI 2.0b Single Link DVI-I

1. Aetina provides PCI-Express 3.0 16X mechanism while data transmission via PCI-Express 4X. 2. Windows10 requires November 2015 update or newer

18 General Purpose Graphics Cards N75TC-J8FL NVIDIA® PCI Express x16 High Performance Graphics Card for Gaming Systems Features

• Extraordinary longevity for 3 years • 25% performance better than GTX 650 Ti • Feature 640 CUDA cores, enable powerful GPGPU • Two ball bearing fan with copper-enhanced thermal basis • Single-slot dainty small form factor suitable for small system • Support superb 4K graphics

Automation Gaming Medical

GPU Engine Specs Thermal and Power Specs

Two Ball Bearing Fan GPU GeForce GTX 750 Ti Thermal Two Ball Bearing Fan

97 °C NVIDIA® CUDA™ Cores 640 Max. GPU Temperature (in C) 95 °C 30 W Graphics Clock (MHz) 1020 MHz Max. Board Power Consumption (W) 60 W 300 W Floating Point Performance 1.31 TFLOPS Min. System Power Requirement (W) 300 W

Memory Specs Dimensions

Single-slot Memory Size 2GB GDDR5 Form Factor Single-slot

167.64 mm Memory Clock (MHz) 2700 MHz (5.4 Gbps) Length 154.67 mm 68.9 mm Memory Interface Width 128-bit Height 68.9 mm SFF=Small Form Factor Memory Bandwidth (GB/sec) 86.4 Width SFF=Small Form Factor (Low profile card) (Low profile card)

Feature Support

Bus Type PCI-Express 3.0 x16 OpenGL 4.4 DirectX 12 API CUDA enabled Yes Operation System Windows ® XP Windows ® 7-10 Linux

Display Support

Max. Displays per Board 3 Max. Digital Display Support 4096x2160 Max. Analog Display Support 2048x1536 Display Connectors Dual Link DVI-D HDMI VGA

General Purpose Graphics Cards 19 N950C-JOFX NVIDIA® PCI Express x16 High Performance Graphics Card for Gaming Systems Features

• Powered by NVIDIA GM206 Maxwell™ architecture GPU • 3X performance better than previous generation • Enable DirectX® 12 games even on 1080p displays • Support 4 independent displays • Support optimal CUDA processing and responsive gaming experience • Ideal for casino, arcade and medical imaging applications

Automation Gaming Vehicle

GPU Engine Specs Thermal and Power Specs

GPU NVIDIA GeForce GTX 950 Thermal Two Ball Bearing Fan NVIDIA® CUDA™ Cores 768 Max. GPU Temperature (in C) 95°C Graphics Clock (MHz) 1024 MHz Max. Board Power Consumption (W) 90 W Floating Point Performance 1.57 TFLOPS Min. System Power Requirement (W) 350 W Supplementary Power Connectors One 6-pins Memory Specs Dimensions

Memory Size 2GB GDDR5 Width Two-slot Memory Clock (MHz) 3300 MHz (6.6 Gbps) Length 174.9 mm Memory Interface Width 128-bit Height 111.15 mm Memory Bandwidth (GB/sec) 105.6 Form Factor ATX

Feature Support

Bus Type PCI-Express 3.0 x16 OpenGL 4.5 DirectX 12 API CUDA enabled Yes Operation System Windows® XP Windows® 7-10 Linux

Display Support

Max. Displays per Board 4 Max. Digital Display Support 5120x32001 Max. Analog Display Support 2048x1536 Display Connectors Dual Link DVI-I HDMI 2.0 3 x DisplayPort 1.2

1. 5120x3200 at 60Hz with dual DisplayPort connectors.

20 General Purpose Graphics Cards N1050-J9FX NVIDIA® Pascal™ PCI Express x16 High Performance Graphics Card for Gaming Systems Features

• Powered by GeForce GTX 1050 • DisplayPort 1.2 certified, DisplayPort 1.3/1.4 ready • Support optimal resolution 7680x4320 at 60Hz • Analog display supported • OpenCL 1.2, OpenGL 4.5, DirectX 12 and Vulkan compatible • Ideal for gaming, digital signage and medical imaging

Gaming Automation Medical

GPU Engine Specs Thermal and Power Specs

Two Ball Bearing Fan GPU NVIDIA GeForce GTX 1050 Thermal Two Ball Bearing Fan 95°C NVIDIA® CUDA™ Cores 640 Max. GPU Temperature (in C) 97 °C 90 W Graphics Clock (MHz) 1354/1455 MHz Max. Board Power Consumption (W) 75 W 350 W Floating Point Performance 1.73 TFLOPS Min. System Power Requirement (W) 300 W One 6-pins Memory Specs Dimensions

Two-slot Memory Size 2GB GDDR5 Width Two-slot

174.9 mm Memory Clock (MHz) 3500 MHz (7.0 Gbps) Length 144.78 mm 111.15 mm Memory Interface Width 128-bit Height 111.15 mm

ATX Memory Bandwidth (GB/sec) 112 Form Factor ATX

Feature Support

Bus Type PCI-Express 3.0 x16 OpenGL 4.5 DirectX 12 API CUDA enabled Yes 158.18 Operation System Windows® 7 -101

Linux 21.6

1.55 16.50

0.90 30.1 10 2.36 1.60 11.5 144.82 Display Support 4.95 78

6.20 Max. Displays per Board 3 17.82 40.43

Max. Digital Display Support 7680x4320 2 81.111 76.26 108.25 100.87

Max. Analog Display Support 1920x1200 126.3 Display Connectors DisplayPort 1.23 HDMI 2.0b

Dual Link DVI-I 7.83 7.15 8.04 71.17 72.48 1. Windows10 requires November 2015 update or newer 9.83 12.29 Tolerance: 0.2mm 18.42 2. 7680x4320 60Hz RGB 8-bit with dual-DisplayPort connector 11.67 13.14 7680x4320 60Hz YUV420 8-bit with one DisplayPort1.3 connector 3. DisplayPort 1.2 Certified and DisplayPort 1.3/1.4 Ready

General Purpose Graphics Cards 21 N1050TI-L9FX NVIDIA® Pascal™ PCI Express x16 High Performance Graphics Card for Gaming Systems Features

• Powered by GeForce GTX 1050 Ti • DisplayPort 1.2 certified, DisplayPort 1.3/1.4 ready • Support optimal resolution 7680x4320 at 60Hz • Analog display supported • OpenCL 1.2, OpenGL 4.5, DirectX 12 and Vulkan compatible • Ideal for gaming, digital signage and medical imaging

Gaming Automation Medical

GPU Engine Specs Thermal and Power Specs

GPU NVIDIA GeForce GTX 1050 Ti Thermal Two Ball Bearing Fan

NVIDIA® CUDA™ Cores 768 Max. GPU Temperature (in C) 97 °C Graphics Clock (MHz) 1290/1392 MHz Max. Board Power Consumption (W) 75 W Floating Point Performance 1.98 TFLOPS Min. System Power Requirement (W) 300 W

Memory Specs Dimensions

Memory Size 4GB GDDR5 Width Two-slot

Memory Clock (MHz) 3500 MHz (7.0 Gbps) Length 144.78 mm Memory Interface Width 128-bit Height 111.15 mm Memory Bandwidth (GB/sec) 112 Form Factor ATX

Feature Support

Bus Type PCI-Express 3.0 x16 OpenGL 4.5 DirectX 12 AP CUDA enabled Yes 158.18 Operation System Windows® 7 -101

Linux 21.6 1.55

16.50

0.90 30.1 10 2.36 1.60 11.5 144.82 4.95 78 Display Support 6.20 3 17.82

Max. Displays per Board 40.43

2 81.111 Max. Digital Display Support 7680x4320 76.26 108.25 100.87

Max. Analog Display Support 1920x1200 126.3 Display Connectors DisplayPort 1.23 HDMI 2.0b

Dual Link DVI-I 7.83 7.15 8.04 71.17 72.48 1. Windows10 requires November 2015 update or newer 9.83 12.29 Tolerance: 0.2mm 18.42 2. 7680x4320 60Hz RGB 8-bit with dual-DisplayPort connector 11.67 13.14 7680x4320 60Hz YUV420 8-bit with one DisplayPort1.3 connector 3. DisplayPort 1.2 Certified and DisplayPort 1.3/1.4 Ready

22 General Purpose Graphics Cards Rugged GPGPUBoards

Two Ball Bearing Fan Aetina provides industrial-strength GPU accelerated graphics cards targeting the mission-critical faced by 97 °C defense and aerospace, vehicles, maritime and more embedded applications. Our Rugged GPGPU Boards 75 W 300 W series includes CompactPCI Express as well as industry-specific XMC and VPX form factors, enabling comprehensive GPGPU computing for embedded systems operating in harsh environments.

Two-slot Apart from industrial grade, in order to meet various difficult environments and extreme temperatures, 144.78 mm we offer rugged level GPU boards include extended temperature (-20°C to +70°C) and wide temperature 111.15 mm (-40 °C to +85 °C) operation as well as conformal coatings to protect against environmental hazards such ATX as dust, moisture, chemicals, mechanical stress and solder joint corrosion. The use of Electroless Nickel with Immersion Gold (ENIG) surface finished PCBs, Aetina’s rugged GPGPU boards are also inherently more corrosion resistance than standard printed circuit boards. p.25 p.25 p.26 p.27 p.28

Model Number X3N1050TI-LRC X3N1050TI-LSC X3N1050TI-LFA V3N1060-MRC C6N950M-JDH

Bus Type XMC XMC XMC VPX 3U CPCIe 6U

GPU NVIDIA Pascal™ NVIDIA Pascal™ NVIDIA Pascal™ NVIDIA Pascal™ NVIDIA Maxwell™ Architecture Graphics GeForce GTX 1050 Ti GeForce GTX 1050 Ti GeForce GTX 1050 Ti GeForce GTX 1060 GeForce GTX 950M Processing Unit

GPU Engine NVIDIA® 768 768 768 1280 640 CUDA™ Cores

Graphics Clock 620 MHz 620 MHz 620 MHz 1404 MHz 914 MHz

Floating Point 952.32 GFLOPS 952.32 GFLOPS 952.32 GFLOPS 3.59 TFLOPS 1.11 TFLOPS

Memory Size 4GB GDDR5 4GB GDDR5 4GB GDDR5 6GB GDDR5 2GB GDDR5

3500 MHz 3500 MHz 3500 MHz 4000 MHz 2500 MHz Memory Clock (7.0 Gbps) (7.0 Gbps) (7.0 Gbps) (8.0 Gbps) (5.0 Gbps) Memory Memory 128-bit 128-bit 128-bit 192-bit 128-bit Interface Width Memory 112 GB/sec 112 GB/secc 112 GB/sec 192 GB/sec 80 GB/sec Bandwidth

DirectX 12 API 12 API 12 API 12 API 12 API

OpenGL 4.5 4.5 4.5 4.5 4.5

API OpenCL 1.2 1.2 1.2 1.2 1.2

Shader Mode 5 5 5 5 5

NVIDIA CUDA support support support support support enabled

Operation Windows® XP Support OS Windows® 7-10 Windows® 7-10 Windows® 7-10 Windows® 7-10 System Linux Linux Linux Linux Windows® 7-10 Linux

Max. Displays 4 N/A 4 4 4 per Board Max. Digital 7680x4320 N/A 3840x2160 7680x4320 up to 3840x2160 Display Max. Analog 1920x1200 N/A N/A 1920x1200 up to 2048x1536 Display Display

Front Panel: 2x SL Front Panel: Rear I/O(P16): VGA Rear I/O: DVI-D, HDMI, VGA Outputs N/A 4x SL DVI or HDMI and 4x DisplayPort 4x DisplayPort Rear I/O: 3x SL TMDS, via VHDCI VGA

Max. Board Power Power 30 W 30 W 30 W 68 W 55 W Consumption Internal Thermal Conduction cooled Conduction cooled Air cooled Conduction cooled Heat-sink Transfer

Mechanical Dimensions 143.75x74 mm 143.75x74 mm 149x74 mm 160x100 mm 160x233 mm

Standard Temp. X3N1050TI-LRC X3N1050TI-LSC X3N1050TI-LFA-xxx V3N1060-MRC N/A (0 ~ 55°C) Environment Extended Temp. X3N1050TI-LRC-B X3N1050TI-LSC-B X3N1050TI-LFA-xxx-B V3N1060-MRC-B N/A (-20 ~ 70°C)

24 Rugged GPGPU Boards Product specifications are subject to change without prior notice X3N1050TI-LRC NVIDIA® Pascal™ Rugged & High Performance XMC GPU Computing Board with Sophisticated GPGPU Capability Features

• Compliant to CPCI, VPX, VME rugged platforms • High CUDA compute capability for parallel processing • Powered by 768 CUDA cores NVIDIA Pascal™ GPU • Rugged conduction-cooled • Support NVIDIA® Optimus™ • Longevity product supply • Ideal for defense, aerospace rugged embedded systems

Defense Vehicle

GPU Engine Specs Mechanical and Environmental

GPU NVIDIA GeForce GTX 1050 Ti Thermal Conduction-cooled NVIDIA® CUDA™ Cores 768 Max. Board Power Consumption (W) 30 W Graphics Clock (MHz) 620 MHz Operating Temperature Standard: 0 °C to +55 °C Floating Point Performance 952.32 GFLOPS Operating Humidity 20~90%, No Condensation Form Factor XMC Length 143.75 mm Memory Specs Width 74 mm Memory Size 4GB GDDR5 Memory Clock (MHz) 3500 MHz (7.0 Gbps) Memory Interface Width 128-bit Ordering Information Memory Bandwidth (GB/sec) 112 Model Number Description

X3N1050TI-LRC With XMC P16 I/O Connector, 0°C ~ +55 °C Feature Support X3N1050TI-LRC-C With XMC P16 I/O Connector, 0°C ~ +55 °C with coating X3N1050TI-LRC-B With XMC P16 I/O Connector, -20°C ~ +70 °C Bus Type 8 lane PCI Express 3.0 capable (x8/x4/x1) X3N1050TI-LRC-BC With XMC P16 I/O Connector, -20°C ~ +70 °C with coating OpenGL 4.5 X3N1050TI-LSC Without XMC P16 I/O Connector, 0°C ~ +55 °C OpenCL 1.2 DirectX 12 X3N1050TI-LSC-C Without XMC P16 I/O Connector, 0°C ~ +55 °C with coating NVIDIA CUDA enabled support X3N1050TI-LSC-B Without XMC P16 I/O Connector, -20°C ~ +70 °C

NVIDIA Optimus support X3N1050TI-LSC-BC Without XMC P16 I/O Connector, -20°C ~ +70 °C with coating NVIDIA PhysX support NVIDIA Direct Compute support Operation System Windows® 7-10 Linux

Display Support

Max. Digital Display Support 7680x4320 Max. Analog Display Support 1920x1200

Display Connectors Rear I/O(P16): VGA and 4x DisplayPort

Rugged GPGPU Boards 25 X3N1050TI-LFA NVIDIA® Pascal™ Rugged & High Performance XMC GPU Computing Board with Sophisticated GPGPU Capability Features

• Compliant to CPCI, VPX, VME rugged platforms • High CUDA compute capability for parallel processing • Powered by 768 CUDA cores NVIDIA Pascal™ GPU • Support 4 independent displays through VHDCI • Rugged air-cooled • Longevity product supply • Ideal for defense, aerospace rugged embedded systems

Defense Vehicle GPU Engine Specs Mechanical and Environmental

GPU NVIDIA GeForce GTX 1050 Ti Thermal Air-cooled NVIDIA® CUDA™ Cores 768 Max. Board Power Consumption (W) 30 W Graphics Clock (MHz) 620 MHz Operating Temperature Standard: 0 °C to +55 °C Floating Point Performance 952.32 GFLOPS Operating Humidity 20~90%, No Condensation Form Factor XMC Length 149 mm Memory Specs Width 74 mm Memory Size 4GB GDDR5 Memory Clock (MHz) 3500 MHz (7.0 Gbps) Memory Interface Width 128-bit Ordering Information Memory Bandwidth (GB/sec) 112 Model Number Description X3N1050TI-LFA-HDMI VHDCI Cable to 4*HDMI, 0°C ~ +55 °C Feature Support X3N1050TI-LFA-HDMI-C VHDCI Cable to 4*HDMI, 0°C ~ +55 °C with coating X3N1050TI-LFA-HDMI-B VHDCI Cable to 4*HDMI, -20°C ~ +70 °C Bus Type 8 lane PCI Express 3.0 capable (x8/x4/x1) X3N1050TI-LFA-HDMI-BC VHDCI Cable to 4*HDMI -20°C ~ +70 °C with coating OpenGL 4.5 X3N1050TI-LFA-DVI VHDCI Cable to 4*DVI, 0°C ~ +55 °C OpenCL 1.2 DirectX 12 X3N1050TI-LFA-DVI-C VHDCI Cable to 4*DVI, 0°C ~ +55 °C with coating NVIDIA CUDA enabled support X3N1050TI-LFA-DVI-B VHDCI Cable to 4*DVI, -20°C ~ +70 °C NVIDIA Optimus support X3N1050TI-LFA-DVI-BC VHDCI Cable to 4*DVI, -20°C ~ +70 °C with coating NVIDIA PhysX support NVIDIA Direct Compute support Operation System Windows® 7-10 Linux 1.69 1.60 8.76 9.20 12.70 11.10

9.45 149 97.75 Display Support 3

2.20 3 0.07 Max. Digital Display Support 3840x2160 5.10 0.07 17 37 0.07 34 2.70

51 Display Connectors Front Panel: 4x Single Link DVI 0.07 74 71.70 or HDMI via VHDCI 68 19.93

12 12.70 11.66 28

26 Rugged GPGPU Boards V3N1060-MRC NVIDIA® Pascal™ Rugged & High Performance 3U VPX GPU Computing Board with Sophisticated GPGPU Capability Features

• Longevity product supply • Gear up graphics power with NVIDIA Pascal™ GPU • High CUDA process capability for exceptional parallel computing • 8K resolution supported for rugged GPGPU applications • Flexible I/O deployment with Quad DP++ • Rugged design with conduction-cool thermal system • Ideal for UAV, military, defense and in-vehicles

Defense Vehicle GPU Engine Specs Mechanical and Environmental

Air-cooled GPU NVIDIA GeForce GTX 1060 Thermal Conduction-cooled

30 W NVIDIA® CUDA™ Cores 1280 Max. Board Power Consumption (W) 68 W Standard: 0 °C to +55 °C Graphics Clock (MHz) 1404 MHz Operating Temperature Standard: 0 °C to +55 °C 20~90%, No Condensation Floating Point Performance 3.59 TFLOPS Operating Humidity 20~90%, No Condensation XMC Form Factor 3U VPX 149 mm Length 160 mm 74 mm Memory Specs Width 100 mm Memory Size 6GB GDDR5 Memory Clock (MHz) 4000 MHz (8.0 Gbps) Memory Interface Width 192-bit Ordering Information Memory Bandwidth (GB/sec) 192 Model Number Description V3N1060-MRC Standard 0 °C ~ +55 °C V3N1060-MRC-C Standard 0 °C ~ +55 °C with coating Feature Support V3N1060-MRC-B Extended Temp. -20 °C ~ +70°C

Bus Type 16 lane PCI Express 3.0 capable (x16/x8/x4/x1) V3N1060-MRC-BC Extended Temp. -20 °C ~ +70 °C with coating OpenGL 4.5 OpenCL 1.2 DirectX 12 API NVIDIA CUDA enabled support NVIDIA Optimus support NVIDIA PhysX support

NVIDIA Direct Compute support 99.85 0.15 15.85 Operation System Windows® 7-10 13.68 6.50 Linux 0.15

Display Support 0.1 147 160.10

Max. Digital Display Support 7680x4320 27.50 12.34 Max. Analog Display Support 1920x1200

1.23 0.1 Display Connectors 22.75

Rear I/O: 4x DisplayPort 0.1 9.78 0.1 1.91 0.1 3.08 0.1 0.1 73.17 0.1

22.81 14.70 3.07 0.1 0.62 0.1 75.70 0.1 13.10 11.03 10.75 93.70 0.1

Rugged GPGPU Boards 27 C6N950M-JDH NVIDIA® Rugged & High Performance CompactPCI Express GPU Computing Board with Sophisticated GPGPU Capability Features

• Flexible GPU and graphics upgradability in 6U CPCI-E carrier design • Leverage MXM GPU modules, deliver advanced CUDA- computing • Optional four channel outputs from front and rear • Compliant to PICMG 2.0 R3.0 • Longevity product supply • Ideal for military, UAV, vehicles and CPCI embedded systems

Defense Vehicle GPU Engine Specs Mechanical and Environmental

GPU NVIDIA GeForce GTX 950M Thermal Heat-sink NVIDIA® CUDA™ Cores 640 Max. Board Power Consumption (W) 55 W Graphics Clock (MHz) 914 MHz Operating Temperature Standard: 0 °C to +55 °C Floating Point Performance 1.11 TFLOPS Operating Humidity 20~90%, No Condensation Form Factor 6U CompactPCI Express Length 160 mm Memory Specs Width 233 mm Memory Size 2GB GDDR5 Memory Clock (MHz) 2500 MHz (5.0 Gbps) Memory Interface Width 128-bit Memory Bandwidth (GB/sec) 80

Feature Support

Bus Type 16 lane PCI Express 2.0 capable (x16/x8/x4/x1) OpenGL 4.5 OpenCL 1.2 DirectX 12 API NVIDIA CUDA enabled support

NVIDIA Optimus support 156.43 142.95 NVIDIA PhysX support 20.20 111.07 16.30 162.30 92.75 10 169.40 0.3 41.55 25.14 NVIDIA Direct Compute support 7.10 6.04 160 0.1 17 23.14 5 Operation System Windows® XP 12.39 2.50

9.60 32.75 Windows® 7-10 17.79 20.35 41.58 78.88 27.10 116.67 Linux 0.1 43.52

10.92 29.73 65.22 235.40

223.47 42.48 229.38 206.98 233.30 233.35 46 8.25 54.25 222.25 5.50 130.83 164.33 90.68 74.80 69.50 116.35 Display Support 49.61 48.57

9.25 2.70 19.93 37.02 Max. Digital Display Support up to 3840x2160 27.80 27.50 49.65 53.85 25.43 0.2 Max. Analog Display Support up to 2048x1536 Tolerance: 0.2mm 12.61 0.3 Display Connectors Front Panel: 2x Single Link DVI-D, HDMI, VGA 7.51 3.81 Rear I/O: 3x Single Link TMDS, VGA

28 Rugged GPGPU Boards Embedded MXMGPU Modules

Heat-sink Aetina’s Embedded MXM GPU Modules are the most compact, thinnest COTS solutions, leverage the 55 W parallel processing performance of NVIDIA GPUs, delivering unmatched power efficient, advanced Standard: 0 °C to +55 °C 20~90%, No Condensation graphics features, and the latest GPU technology with MXM 3.0/3.1 standards-based. Its superior graphics 6U CompactPCI Express and high-level compute capability is ideal solution for performance demanding and size, weight and 160 mm power (SWaP) constrained embedded systems in applications such as defense and aerospace, medical 233 mm imaging, ground vehicle, avionics, UAV, portable VR device and mores.

Based software nature of CUDA programming, Aetina provide vast array of Embedded MXM GPU Module with the most scalability and upgradability for GPGPU computing performance and rigorous data processing capabilities. Beyond the commercial demanding, with a dedication to support customers’ specific-requirement in harsh environments and critical missions, we not only offer rugged level MXM GPU modules with wide operating temperature range (-40 oC to +85 oC ) to sustain reliable operation even in temperature extremes, but also give option conformal coating services for resistance against dust, moisture, chemicals and physical stress. p.32 p.33 p.34

Model Number M3N1030-JN M3N1050-LN M3N1050TI-LN

Bus Type MXM 3.1 MXM 3.1 MXM 3.1

GPU NVIDIA Pascal™ NVIDIA Pascal™ NVIDIA Pascal™ Architecture Graphics GeForce GT 1030 GeForce GTX 1050 GeForce GTX 1050 Ti Processing Unit

GPU Engine NVIDIA® 384 640 768 CUDA™ Cores

Graphics Clock 1227/1468 MHz 1354 MHz 1493 MHz

Floating Point 942.34 GFLOPS 1.73 TFLOPS 2.29 TFLOPS

Memory Size 2GB GDDR5 4GB GDDR5 4GB GDDR5

Memory Clock 3000 MHz (6.0 Gbps) 3500 MHz (7.0 Gbps) 3500 MHz (7.0 Gbps) Memory Memory 64-bit 128-bit 128-bit Interface Width Memory 48 GB/sec 112 GB/sec 112 GB/sec Bandwidth

DirectX 12 API 12 API 12 API

OpenGL 4.5 4.5 4.5

API OpenCL 1.2 1.2 1.2

Shader Mode 5 5 5

NVIDIA CUDA support support support enabled

Operation Support OS Windows® 7-10 Windows® 7-10 Windows® 7-10 System Linux Linux Linux

Max. Displays 2 4 4 per Board Max. Digital up to 7680x4320 up to 7680x4320 up to 7680x4320 Display Max. Analog Not Support Not Support Not Support Display Display

eDP 1.4 eDP 1.4 Dual Link DVI-D Dual Link DVI-D Dual Link DVI-D Outputs DisplayPort 1.2 DisplayPort ++ DisplayPort ++ HDMI 2.0b HDMI 2.0b HDMI 2.0b

Max. Board Power Power 30 W 50 W 60 W Consumption

Mechanical Dimensions 70x82 mm 70x82 mm 70x82 mm

Standard Temp. M3N1030-JN M3N1050-LN M3N1050TI-LN (0 ~ 55°C ) Wide Temp. M3N1030-JN-A M3N1050-LN-A M3N1050TI-LN-A (-40 ~ 85°C ) Environment Extended Temp. M3N1030-JN-B M3N1050-LN-B M3N1050TI-LN-B (-20 ~ 70°C )

Coating M3Nxxxx-xx-xC (C=with conformal coating service)

30 Embedded MXM GPU Modules Product specifications are subject to change without prior notice p.35 p.36 p.37

M3N1060-MN M3N1070-NN M3N1080-NN

MXM 3.1 MXM 3.1 MXM 3.1

NVIDIA Pascal™ NVIDIA Pascal™ NVIDIA Pascal™

GeForce GTX 1060 GeForce GTX 1070 GeForce GTX 1080

1280 2048 2560

1404/1670 MHz 1442/1645 MHz 1556/1733 MHz

3.59 TFLOPS 5.90 TFLOPS 7.96 TFLOPS

6GB GDDR5 8GB GDDR5 8GB GDDR5X

4000 MHz (8.0 Gbps) 4000 MHz (8.0 Gbps) 5000 MHz (10.0 Gbps)

192-bit 256-bit 256-bit

192 GB/sec 256 GB/sec 320 GB/sec

12 API 12 API 12 API

4.5 4.5 4.5

1.2 1.2 1.2

5 5 5

support support support

Windows® 7-10 Windows® 7-10 Windows® 7-10 Linux Linux Linux

4 4 4

up to 7680x4320 up to 7680x4320 up to 7680x4320

Not Support Not Support Not Support

eDP 1.4 eDP 1.4 eDP 1.4 Dual Link DVI-D Dual Link DVI-D Dual Link DVI-D DisplayPort ++ DisplayPort ++ DisplayPort ++ HDMI 2.0b HDMI 2.0b HDMI 2.0b

78 W 115 W 150 W

105x82 mm 113x82 mm 113x82 mm

M3N1060-MN M3N1070-NN M3N1080-NN

N/A N/A N/A

M3N1060-MN-B N/A N/A

* M3N1060-MN-D supports extented temperature range from -40 ~ 75°C

Product specifications are subject to change without prior notice Embedded MXM GPU Modules 31 M3N1030-JN NVIDIA® Pascal™ MXM 3.1 Type A GPU Module

Features

• Powered by GeForce® GT 1030 energy-efficient GPU • 384 NVIDIA Pascal™ architecture CUDA cores • Support 8K resolution, H.265/HEVC video decode • Support port-to-computer isolation • 30μ" golden finger, enhance high-quality and stability • 3 years longevity support • Ideal for medical imaging, deep learning and defense applications

Defense Automation Medical

GPU Engine Specs Thermal and Power Specs

GPU NVIDIA GeForce GT 1030 Thermal None

NVIDIA® CUDA™ Cores 384 Max.Board Power Consumption (W) 30 W Graphics Clock (MHz) 1227/1468 MHz Floating Point Performance 942.34 GFLOPS

Memory Specs Dimensions

Memory Size 2GB GDDR5 Length 70 mm Memory Clock (MHz) 3000 MHz (6.0 Gbps) Width 82 mm Memory Interface Width 64-bit Form Factor MXM graphics module version 3.1 Type A Memory Bandwidth (GB/sec) 48

Feature Support Ordering Information

Bus Type MXM 3.1 (PCI Express 3.0 support) Model Number Description OpenGL 4.5 M3N1030-JN Standard 0 °C ~ +55 °C

OpenCL 1.2 M3N1030-JN-C Standard 0 °C ~ +55 °C with coating

DirectX 12 API M3N1030-JN-A Wide Temp. -40 °C ~ +85 °C Shader Mode 5 M3N1030-JN-AC Wide Temp. -40 °C ~ +85 °C with coating

Support Technologies NVIDIA CUDA, GPU Boost, M3N1030-JN-B Extended Temp. -20 °C ~ +70 °C OpenCL,Vulkan, M3N1030-JN-BC Extended Temp. -20 °C ~ +70 °C with coating Direct Compute 1 1. Windows10 requires November 2015 update or newer Operation System Windows® 7-10 2. 7680x4320 60Hz RGB 8-bit with dual-DisplayPort connector Linux 7680x4320 60Hz YUV420 8-bit with one DisplayPort1.3 connector 3. DisplayPort 1.2 Certified and DisplayPort 1.3/1.4 Ready Display Support

Max. Displays per Board 2 Max. Analog Display Support Not Support Max. Digital Display support2 up to 7680x4320 LCD-eDP 1.4 Not Support DisplayPort Multimode3 up to 7680x4320 HDMI 2.0b support H.264, HEVC, MPEG2 1080p support video decoder

32 Embedded MXM GPU Modules M3N1050-LN NVIDIA® Pascal™ MXM 3.1 Type A GPU Module

Features

• Powered by NVIDIA® GeForce GTX 1050 mobile GPU • 640 new-gen. Pascal architecture CUDA cores • 4GB on board memory and 112 GB/sec memory bandwidth • Up to 4 independent displays at the same time • OpenCL 1.2, OpenGL 4.5, DirectX 12, Vulkan compatible • Advanced performance per watt • Gold finger 30μ" enhanced high stability and quality signal

Defense Gaming Medical

GPU Engine Specs Thermal and Power Specs

None GPU NVIDIA GeForce GTX 1050 Thermal None

30 W NVIDIA® CUDA™ Cores 640 Max.Board Power Consumption (W) 50 W Graphics Clock (MHz) 1354 MHz Supplementary Power Connectors None Floating Point Performance 1.73 TFLOPS

Memory Specs Dimensions

70 mm Memory Size 4GB GDDR5 Length 70 mm 82 mm Memory Clock (MHz) 3500 MHz (7.0 Gbps) Width 82 mm MXM graphics module Memory Interface Width 128-bit Form Factor MXM graphics module version 3.1 Type A version 3.1 Type A Memory Bandwidth (GB/sec) 112

Feature Support Ordering Information

Bus Type MXM 3.1 (PCI Express 3.0 support) Model Number Description OpenGL 4.5 M3N1050-LN Standard 0 °C ~ +55 °C OpenCL 1.2 M3N1050-LN-C Standard 0 °C ~ +55 °C with coating DirectX 12 API M3N1050-LN-A Wide Temp. -40 °C ~ +85 °C Shader Mode 5 M3N1050-LN-AC Wide Temp. -40 °C ~ +85 °C with coating Support Technologies NVIDIA CUDA, GPU Boost, M3N1050-LN-B Extended Temp. -20 °C ~ +70 °C Battery Boost, OpenCL, PhysX, M3N1050-LN-BC Extended Temp. -20 °C ~ +70 °C with coating Direct Compute 1 1. Windows10 requires November 2015 update or newer Operation System Windows® 7-10 2. 7680x4320 60Hz RGB 8-bit with dual-DisplayPort connector Linux 7680x4320 60Hz YUV420 8-bit with one DisplayPort1.3 connector 3. DisplayPort 1.2 Certified and DisplayPort 1.3/1.4 Ready Display Support

82 8.99 1.23 Max. Displays per Board 4 3.20 3.49 23.50 3.52 1.30 Max. Analog Display Support Not Support 3 4 12.25 Max. Digital Display support2 up to 7680x4320 63.06 LCD-eDP 1.4 up to 7680x4320 70 DisplayPort Multimode3 up to 7680x4320

HDMI 2.0b support 11.75 8.99 27.02 H.264, HEVC, MPEG2 1080p support 11.75 video decoder

Embedded MXM GPU Modules 33 M3N1050TI-LN NVIDIA® Pascal™ MXM 3.1 Type A GPU Module

Features

• NVIDIA GeForce® GTX 1050 Ti mobile GPU • 768 new-gen. Pascal architecture CUDA cores • 4GB on board memory and 112 GB/sec memory bandwidth • Up to 4 independent displays at the same time • OpenCL 1.2, OpenGL 4.5, DirectX 12, Vulkan compatible • Advanced performance per watt • Gold finger 30μ" enhanced high stability and quality signals

Defense Gaming Medical GPU Engine Specs Thermal and Power Specs

GPU NVIDIA GeForce GTX 1050 Ti Thermal None

NVIDIA® CUDA™ Cores 768 Max.Board Power Consumption (W) 60 W Graphics Clock (MHz) 1493 MHz Supplementary Power Connectors None Floating Point Performance 2.29 TFLOPS

Memory Specs Dimensions

Memory Size 4GB GDDR5 Length 70 mm Memory Clock (MHz) 3500 MHz (7.0 Gbps) Width 82 mm Memory Interface Width 128-bit Form Factor MXM graphics module version 3.1 Type A Memory Bandwidth (GB/sec) 112

Feature Support Ordering Information

Bus Type MXM 3.1 (PCI Express 3.0 support) Model Number Description OpenGL 4.5 M3N1050TI-LN Standard 0 °C ~ +55 °C

OpenCL 1.2 M3N1050TI-LN-C Standard 0 °C ~ +55 °C with coating DirectX 12 API M3N1050TI-LN-A Wide Temp. -40 °C ~ +85 °C Shader Mode 5 M3N1050TI-LN-AC Wide Temp. -40 °C ~ +85 °C with coating Support Technologies NVIDIA CUDA, GPU Boost, M3N1050TI-LN-B Extended Temp. -20 °C ~ +70 °C Battery Boost, OpenCL, PhysX, M3N1050TI-LN-BC Extended Temp. -20 °C ~ +70 °C with coating Direct Compute Operation System Windows 7-101 1. Windows10 requires November 2015 update or newer ® 2. 7680x4320 60Hz RGB 8-bit with dual-DisplayPort connector Linux 7680x4320 60Hz YUV420 8-bit with one DisplayPort1.3 connector 3. DisplayPort 1.2 Certified and DisplayPort 1.3/1.4 Ready Display Support 82 8.99 1.23 3.49 23.50 3.52 Max. Displays per Board 4 3.20 1.30 3 4

Max. Analog Display Support Not Support 12.25 Max. Digital Display support2 up to 7680x4320 63.06 70 LCD-eDP 1.4 up to 7680x4320 DisplayPort Multimode3 up to 7680x4320 11.75 HDMI 2.0b support 8.99 27.02 11.75 H.264, HEVC, MPEG2 1080p support video decoder

34 Embedded MXM GPU Modules M3N1060-MN NVIDIA® Pascal™ MXM 3.1 Type B GPU Module

Features

• NVIDIA GeForce® GTX 1060 energy-efficiency mobile GPU • 1280 new-gen. Pascal architecture CUDA cores • Over 40% boost performance than GTX 970M • Support optimal resolution 8K UHD (7680x4320) at 60Hz • OpenCL 1.2, OpenGL 4.5, DirectX 12, Vulkan compatible • Blistering graphics and parallel accelerating performance • Gold finger 30μ" enhanced high stability and quality signals • Ideal for medical, VR rendering, deep learning and defense

Defense Gaming Medical AI VR GPU Engine Specs Thermal and Power Specs

None GPU NVIDIA GeForce GTX 1060 Thermal None

60 W NVIDIA® CUDA™ Cores 1280 Max.Board Power Consumption (W) 78 W None Graphics Clock (MHz) 1404/1670 MHz Supplementary Power Connectors None Floating Point Performance 3.59 TFLOPS

Memory Specs Dimensions

70 mm Memory Size 6GB GDDR5 Length 105 mm 82 mm Memory Clock (MHz) 4000 MHz (8.0 Gbps) Width 82 mm MXM graphics module Memory Interface Width 192-bit Form Factor MXM graphics module version 3.1 Type A version 3.1 Type B Memory Bandwidth (GB/sec) 192

Feature Support Ordering Information

Bus Type MXM 3.1 (PCI Express 3.0 support) Model Number Description OpenGL 4.5 M3N1060-MN Standard 0 °C ~ +55 °C

OpenCL 1.2 M3N1060-MN-B Extended Temp. -20 °C ~ +70 °C DirectX 12 API M3N1060-MN-BC Extended Temp. -20 °C ~ +70 °C with coating Shader Mode 5 M3N1060-MN-D Extended Temp. -40 °C ~ +75 °C Support Technologies NVIDIA CUDA, GPU Boost, M3N1060-MN-DC Extended Temp. -40 °C ~ +75 °C with coating Battery Boost, OpenCL, PhysX, Direct Compute Operation System Windows 7-101 1. Windows10 requires November 2015 update or newer ® 2. 7680x4320 60Hz RGB 8-bit with dual-DisplayPort connector Linux 7680x4320 60Hz YUV420 8-bit with one DisplayPort1.3 connector 3. DisplayPort 1.2 Certified and DisplayPort 1.3/1.4 Ready Display Support 75 0.1 1.25 0.1 82 0.1

4 0.2 Max. Displays per Board 4 Max. Analog Display Support Not Support 3.50 0.1 Max. Digital Display support2 up to 7680x4320 0.1

LCD-eDP 1.4 up to 7680x4320 105 0.1 0.1 3 66 46 DisplayPort Multimode up to 7680x4320 0.1

HDMI 2.0b support 1.50

1 46 0.1 3.20 1.30 0.2

H.264, HEVC, MPEG2 1080p support 0.1 0.1 43 0.1 video decoder 9 0.1 0.1 6.94

11.75

Embedded MXM GPU Modules 35 M3N1070-NN NVIDIA® Pascal™ MXM 3.1 GPU Module

Features

• NVIDIA GeForce® GTX 1070 energy-efficiency mobile GPU • 2048 new-gen. Pascal architecture CUDA cores • 5.90 TFLOPS for massive computing and deep learning • More than 60% performance faster than prior generation • DisplayPort 1.2 Certified, DisplayPort 1.3/1.4 Ready • Gold finger 30μ" enhanced high stability and quality signals • Ideal use for medical, defense, autonomous cars and deep learning

Defense Gaming Medical AI VR GPU Engine Specs Thermal and Power Specs

GPU NVIDIA GeForce GTX 1070 Thermal None

NVIDIA® CUDA™ Cores 2048 Max.Board Power Consumption (W) 115 W Graphics Clock (MHz) 1442/1645 MHz Supplementary Power Connectors 4-pins(PWR_SRC) Floating Point Performance 5.90 TFLOPS

Memory Specs Dimensions

Memory Size 8GB GDDR5 Length 113 mm Memory Clock (MHz) 4000 MHz (8.0 Gbps) Width 82 mm Memory Interface Width 256-bit Form Factor MXM graphics module Memory Bandwidth (GB/sec) 256

Feature Support Ordering Information

Bus Type MXM 3.1 (PCI Express 3.0 support) Model Number Description OpenGL 4.5 M3N1070-NN Standard 0 °C ~ +55 °C

OpenCL 1.2 M3N1070-NN-C Standard 0 °C ~ +55 °C with coating

DirectX 12 API 1. Windows10 requires November 2015 update or newer 2. 7680x4320 60Hz RGB 8-bit with dual-DisplayPort connector Shader Mode 5 7680x4320 60Hz YUV420 8-bit with one DisplayPort1.3 connector 3. DisplayPort 1.2 Certified and DisplayPort 1.3/1.4 Ready Support Technologies NVIDIA CUDA, GPU Boost, Battery Boost, OpenCL, PhysX, Direct Compute Operation System Windows 7-101 75 0.1 1.25 0.1 82 0.1 ® 4 0.2 Linux

0.1 Display Support 3.50 0.1 3.20

0.1 Max. Displays per Board 4 113.34 Max. Analog Display Support Not Support 0.1 0.1 2 46 Max. Digital Display support up to 7680x4320 66

LCD-eDP 1.4 up to 7680x4320 1.50

3 46 0.1 1.30 0.2 1

DisplayPort Multimode up to 7680x4320 0.1 43 0.1 0.1 9 0.1 6.95 HDMI 2.0b support 11.75 H.264, HEVC, MPEG2 1080p support video decoder

36 Embedded MXM GPU Modules M3N1080-NN NVIDIA® Pascal™ MXM 3.1 GPU Module

Features

• The most ultimate MXM using GeForce® GTX 1080 mobile GPU with 2560 new-gen. Pascal architecture CUDA cores • 7.96 TFLOPS for massive computing performance • Super-fast GDDR5X memory, 10 Gbps, 320 GB/sec • DisplayPort 1.2 Certified, DisplayPort 1.3/1.4 Ready • Gold finger 30μ" enhanced high stability and quality signals • Ideal use for VR, medical, defense and deep learning

Defense Gaming Medical AI VR GPU Engine Specs Thermal and Power Specs

None GPU NVIDIA GeForce GTX 1080 Thermal None

115 W NVIDIA® CUDA™ Cores 2560 Max.Board Power Consumption (W) 150 W 4-pins(PWR_SRC) Graphics Clock (MHz) 1556/1733 MHz Supplementary Power Connectors 4-pins(PWR_SRC) Floating Point Performance 7.96 TFLOPS

Memory Specs Dimensions

113 mm Memory Size 8GB GDDR5X Length 113 mm 82 mm Memory Clock (MHz) 5000 MHz (10.0 Gbps) Width 82 mm MXM graphics module Memory Interface Width 256-bit Form Factor MXM graphics module Memory Bandwidth (GB/sec) 320

Feature Support Ordering Information

Bus Type MXM 3.1 (PCI Express 3.0 support) Model Number Description OpenGL 4.5 M3N1080-NN Standard 0 °C ~ +55 °C

OpenCL 1.2 M3N1080-NN-C Standard 0 °C ~ +55 °C with coating

DirectX 12 API 1. Windows10 requires November 2015 update or newer 2. 7680x4320 60Hz RGB 8-bit with dual-DisplayPort connector Shader Mode 5 7680x4320 60Hz YUV420 8-bit with one DisplayPort1.3 connector 3. DisplayPort 1.2 Certified and DisplayPort 1.3/1.4 Ready Support Technologies NVIDIA CUDA, GPU Boost, Battery Boost, OpenCL, PhysX, Direct Compute 1 Operation System Windows® 7-10 Linux Display Support

Max. Displays per Board 4 Max. Analog Display Support Not Support Max. Digital Display support2 up to 7680x4320 LCD-eDP 1.4 up to 7680x4320 DisplayPort Multimode3 up to 7680x4320 HDMI 2.0b support H.264, HEVC, MPEG2 1080p support video decoder

Embedded MXM GPU Modules 37 RTM-M3C-6DP NVIDIA® MXM GPU Module Carrier Board

Features

• MXM modules carrier board for evaluation purpose • Support PCI Express x16 Gen 3.0 • 8 pin 12V DC-in power connector • 6x DisplayPort, 1x DVI, 1x D-SUB, 1x eDP

Specification Ordering Information

Bus Type PCI Express 3.0 x16 Model Number Description Video Output eDP x1 / DVI x1 RTM-M3C-6DP MXM module evaluation carrier board D-SUB x1 / DisplayPort x6 with 6x DisplayPort, 1x DVI, 1x D-SUB, 1x eDP, 0 °C ~ +55 °C Supplementary Power Connectors One 8-pin

Support Form Factor MXM graphics module

Max Output Resolution Depend on MXM module

Dimension 164.8mm x 236mm

Evaluation Thermal

Description GTX 1080 / 1070 MXM Thermal GTX 1060 MXM Thermal GTX 1050 Ti / 1050 MXM Thermal

38 Embedded MXM GPU Modules Multi-Display GraphicsCards

Multi Display Savant TM

Aetina Multi Display Savant (MDS) series stride the monitor boundaries; enlarge your insight with an Description MXM module evaluation carrier board expanded display. Delivering high-resolution quality image and seamless multimedia experience across with 6x DisplayPort, 1x DVI, 1x D-SUB, 1x eDP, 0 °C ~ +55 °C up to 12 displays based a graphics card with single NVIDIA® GPU, the MDS™ series are ideal solutions with flexibility, productivity and reliability for digital signage, display walls and any of multiple monitors deployment in business, industry, enterprise and mission-critical environments.

Aetina MDS™ series feature NVIDIA® Surround technology, with up to 6GB on-board frame buffer memory, supporting as high resolution as 7680x4320 for a spectacular display wall. Regardless of type of system (desktop, small form factor system or workstation) or display connectivity (DisplayPort, HDMI, DVI and VGA), Aetina MDS™ series enable the most efficiency and compatibility to fit your demanding multi- display installations. p.41 p.42 p.43 p.44 p45

Model Number M4-K208VGA M4-M107mDP M4-P107mDP M9-P107 M12-P107

Bus Type PCIe 2.0 x 8 PCIe 3.0 x 16 PCIe 3.0 x 16 PCIe 3.0 x 16 PCIe 3.0 x 16

GPU NVIDIA Kepler™ NVIDIA Maxwell™ NVIDIA Pascal™ NVIDIA Pascal™ NVIDIA Pascal™ Architecture Graphics GeForce GT 710 GeForce GTX 750 Ti GeForce GTX 1050 Ti GeForce GTX 1050 Ti GeForce GTX 1050 Ti Processing Unit

GPU Engine NVIDIA® 192 640 768 768 768 CUDA™ Cores Graphics Clock 954 MHz 1020 MHz 1290 MHz 1290 MHz 1290 MHz (MHz)

Floating Point 366.05 GFLOPS 1.31 TFLOPS 1.98 TFLOPS 1.98 TFLOPS 1.98 TFLOPS

Memory Size 1GB DDR3 4GB GDDR5 4GB GDDR5 4GB GDDR5 4GB GDDR5

800 MHz 2500 MHz 3500 MHz 3500 MHz 3500 MHz Memory Clock (1.6 Gbps) (5.0 Gbps) (7.0 Gbps) (7.0 Gbps) (7.0 Gbps) Memory Memory 64-bit 128-bit 128-bit 128-bit 128-bit Interface Width Memory 12.8 GB/sec 80 GB/sec 112 GB/sec 112 GB/sec 112 GB/sec Bandwidth

12 API DirectX 12 API 12 API 12 API 12 API (feature level 11_0)

OpenGL 4.4 4.4 4.5 4.5 4.5

API OpenCL 1.1 1.2 1.2 1.2 1.2

Shader Mode 5 5 5 5 5

NVIDIA CUDA support support support support support enabled

Operation Windows® XP Windows® XP Support OS Windows® 7-10 Windows® 7-10 Windows® 7-10 System Windows® 7-10 Windows® 7-10 Linux Linux Linux Linux Linux

Max. Displays 4 4 4 9 12 per Board Max. Digital up to 5760x3240 up to 5760x4320 N/A 3840x2160 7680x4320 Display (3x3 mode) (3x4 mode) Display Max. Analog 3840x2160(2x2 mode) N/A N/A N/A N/A Display

4 mini 4 mini VHDCI to 9 DVI or VHDCI to 12 DVI or Outputs VHDCI to 4 VGA DisplayPort 1.2 DisplayPort 1.2 VHDCI to 9 HDMI VHDCI to 12 HDMI Max. Board Power Power 21 W 60 W 75 W 75 W 75 W Consumption Two-ball-bearing Two-ball-bearing Two-ball-bearing Two-ball-bearing Cooling Heat-sink Fan Fan Fan Fan Thermal Slot Occupied Single-slot Single-slot Single-slot Two-slot Two-slot

Mechanical Dimensions 153.36x68.9 mm 169.57x68.9 mm 169.57x68.9 mm 203.64x111.15 mm 203.64x111.15 mm

Operation Environment 0 °C ~ +55 °C 0 °C ~ +55 °C 0 °C ~ +55 °C 0 °C ~ +55 °C 0 °C ~ +55 °C Temperature

40 Multi-Display Graphics Cards Product specifications are subject to change without prior notice M4-K208VGA MDS™ Multi-Display Graphics Card 4x VGA with NVIDIA® GPU for Commercial, Gaming and Infotainment systems Features

• 4 VGA displays simultaneously • Up to 4Kx2K resolution • Increase work productivity with multi-monitors • Single slot fanless fit for SFF systems • 1 GB dedicated on board memory • Longevity, reliable and affordable multi-display graphics product • Aim for upgrade market in industrial control, casino and digital signage

ay 4 Displ Video wall Gaming Automation GPU Engine Specs Thermal and Power Specs

GPU NVIDIA GeForce GT 710 Thermal Heat-sink NVIDIA® CUDA™ Cores 192 Max. GPU Temperature (in C) 95 °C Graphics Clock (MHz) 954 MHz Max.Board Power Consumption (W) 21 W Floating Point Performance 366.05 GFLOPS Min. System Power Requirement (W) 300 W

Memory Specs Dimensions

Memory Size 1GB GDDR3 Width Single-slot Memory Clock (MHz) 800 MHz (1.6 Gbps) Length 153.36 mm Memory Interface Width 64-bit Height 68.9 mm Memory Bandwidth (GB/sec) 12.8 Form Factor SFF=Small Form Factor (Low profile card)

Feature Support

Bus Type PCI-Express 2.0 x8 OpenGL 4.4 DirectX 12 API (feature level 11_0) Operation System Windows® XP Windows® 7-10 Linux

Display Support

Max. Displays per Board 4 Max. Output Resolution Support 1920x1200 *3, 2048x1536*1 3840x2160 (2x2 mode)

Display Outputs VHDCI to 4 VGA

Multi-Display Graphics Cards 41 M4-M107mDP MDS™ Multi-Display Graphics Card 4x mini DisplayPort with NVIDIA® GPU for Commercial, Gaming and Infotainment systems Features

• Powered by NVIDIA Maxwell™ GeForce GTX 750 Ti • Natively 4 mini DisplayPort 1.2 for four displays simultaneously • Flexible single-slot, low-profile for space and power- constrained chassis • Large 4GB on-board frame buffer memory • True 4K resolutions 3840x2160@ 60 Hz with 30-bit color • Ideal for advertising, casino gaming, digital signage and simulation training education

4 Display Video wall Gaming Automation Medical

GPU Engine Specs Thermal and Power Specs

GPU NVIDIA GeForce GTX 750 Ti Thermal Two Ball Bearing Fan

NVIDIA® CUDA™ Cores 640 Max. GPU Temperature (in C) 95 °C Graphics Clock (MHz) 1020 MHz Max. Board Power Consumption (W) 60 W Floating Point Performance 1.31 TFLOPS Min. System Power Requirement (W) 300 W

Memory Specs Dimensions

Memory Size 4GB GDDR5 Width Single-slot Memory Clock (MHz) 2500 MHz (5.0 Gbps) Length 169.57 mm

Memory Interface Width 128-bit Height 68.9 mm Memory Bandwidth (GB/sec) 80 Form Factor SFF=Small Form Factor (Low profile card) Feature Support Ordering Information

Bus Type PCI Express 3.0 x16 Model Number Description

OpenGL 4.4 7W5000000060 mini DisplayPort cable to DVI-D

DirectX 12 API 7W5000000140 mini DisplayPort cable to VGA Operation System Windows® XP 7W5000000150 mini DisplayPort cable to HDMI Windows® 7-10 Linux Display Support

Max. Displays per Board 4 Max. Output Resolution Support 3840x2160 Display Outputs 4 x mini DisplayPort 1.2

42 Multi-Display Graphics Cards M4-P107mDP MDS™ Multi-Display Graphics Card 4x mini DisplayPort with NVIDIA® Pascal™ for Commercial, Gaming and Infortainment systems Features

• Powered by NVIDIA Pascal™ GeForce GTX 1050 Ti • Natively 4 mini DisplayPort 1.2 for four displays simultaneously • Flexible single-slot, low-profile for space and power- constrained chassis • 4 displays; support optimal resolution 7680x4320 at 60Hz • Ideal for entertainment and infotainment systems such as advertising, conference, casino gaming, digital signage, kiosk and simulation training education

4 Display Video wall Gaming Automation Medical

GPU Engine Specs Thermal and Power Specs

Two Ball Bearing Fan GPU NVIDIA GeForce GTX 1050 Ti Thermal Two Ball Bearing Fan

95 °C NVIDIA® CUDA™ Cores 768 Max. GPU Temperature (in C) 97 °C 60 W Graphics Clock (MHz) 1290 MHz Max. Board Power Consumption (W) 75 W 300 W Floating Point Performance 1.98 TFLOPS Min. System Power Requirement (W) 300 W

Memory Specs Dimensions

Single-slot Memory Size 4GB GDDR5 Width Single-slot 169.57 mm Memory Clock (MHz) 3500 MHz (7.0 Gbps) Length 169.57 mm

68.9 mm Memory Interface Width 128-bit Height 68.9 mm SFF=Small Form Factor Memory Bandwidth (GB/sec) 112 Form Factor SFF=Small Form Factor (Low profile card) (Low profile card) Feature Support Ordering Information

Bus Type PCI Express 3.0 x16 Model Number Description mini DisplayPort cable to DVI-D OpenGL 4.5 M4-P107mDP PCI-Express 16X, NVIDIA GeForce GTX 1050 Ti, 4GB GDDR5, 0 °C ~ +55 °C mini DisplayPort cable to VGA DirectX 12 API Accessories: ATX bracket, mDP to DP cable x4 (Optional) 1 mini DisplayPort cable to HDMI Operation System Windows® 7 -10 Linux

Display Support

Max. Displays per Board 4 Max. Output Resolution Support2 7680x4320 Display Outputs 4 x mini DisplayPort 1.23

1. Windows10 requires November 2015 update or newer 2. 7680x4320 60Hz RGB 8-bit with dual-DisplayPort connector 7680x4320 60Hz YUV420 8-bit with one DisplayPort1.3 connector 3. DisplayPort 1.2 Certified and DisplayPort 1.3/1.4 Ready

Multi-Display Graphics Cards 43 M9-P107 MDS™ Multi-Display Graphics Card 9x Displays with NVIDIA® Pascal™ GPU for 3x3 mode 4K Video Wall and Wide Screen Displaying Systems Features

• Powered by NVIDIA Pascal™ GTX 1050 Ti brings double performance • Single card, single GPU support up to 9 displays • Semlesssly immersive imagery quality for 3x3 video wall • Support H.265/HEVC video decoder, 1920x1080 per port • Support EDID caching • Ideal for wide screen advertising, digital signage and infotainment systems

isplay 9 or 12D Video wall Gaming GPU Engine Specs Thermal and Power Specs

GPU NVIDIA GeForce GTX 1050 Ti Thermal Two Ball Bearing Fan

NVIDIA® CUDA™ Cores 768 Max. GPU Temperature (in C) 97 °C Graphics Clock (MHz) 1290 MHz Max. Board Power Consumption (W) 75 W Floating Point Performance 1.98 TFLOPS Min. System Power Requirement (W) 300 W

Memory Specs Dimensions

Memory Size 4GB GDDR5 Width Two-slot Memory Clock (MHz) 3500 MHz (7.0 Gbps) Length 203.64 mm Memory Interface Width 128-bit Height 111.15 mm Memory Bandwidth (GB/sec) 112 Form Factor ATX

Feature Support Ordering Information

Bus Type PCI Express 3.0 x16 Model Number Description

OpenGL 4.5 M9-P107D M9-P107 with VHDCI Cable to 3xDVI DirectX 12 API M9-P107H M9-P107 with VHDCI Cable to 3xHDMI

1 Operation System Windows® 7 -10 7W5000000120 VHDCI cable to 3xDVI Linux 7W5000000130 VHDCI cable to 3xHDMI

Display Support

Max. Displays per Board 9 Max. Output Resolution Support 5760x3240 (3x3 mode) Display Outputs 9 Single Link DVI or HDMI (via 3x VHDCI to 3 DVI or HDMI cable)

44 Multi-Display Graphics Cards M12-P107 MDS™ Multi-Display Graphics Card 12x Displays with NVIDIA® Pascal™ GPU for Large Commercial or 3D Graphics Displaying Video Wall Features

• Powered by NVIDIA Pascal™ GTX 1050 Ti brings double performance • Drive up to 12 displays in single card with single GPU • Flexible displays configuration in clone or extended, portrait or landscape • H.265/HEVC video decoder, support maximum 4x 4Kp30 video display • Support EDID caching • Ideal for wide screen advertising, digital signage and video wall systems

ay 9 or 12Displ Video wall Gaming GPU Engine Specs Thermal and Power Specs

Two Ball Bearing Fan GPU NVIDIA GeForce GTX 1050 Ti Thermal Two Ball Bearing Fan

97 °C NVIDIA® CUDA™ Cores 768 Max. GPU Temperature (in C) 97 °C 75 W Graphics Clock (MHz) 1290 MHz Max. Board Power Consumption (W) 75 W 300 W Floating Point Performance 1.98 TFLOPS Min. System Power Requirement (W) 300 W

Memory Specs Dimensions

Memory Size 4GB GDDR5 Width Two-slot Two-slot Memory Clock (MHz) 3500 MHz (5.0 Gbps) Length 203.64 mm 203.64 mm Memory Interface Width 128-bit Height 111.15 111.15 mm mm Memory Bandwidth (GB/sec) 112 Form Factor ATX ATX

Feature Support Ordering Information

Bus Type PCI Express 3.0 x16 Model Number Description

M9-P107 with VHDCI Cable to 3xDVI OpenGL 4.5 M12-P107D M12-P107 with VHDCI Cable to 3xDVI M9-P107 with VHDCI Cable to 3xHDMI DirectX 12 API M12-P107H M12-P107 with VHDCI Cable to 3xHDMI VHDCI cable to 3xDVI Operation System Windows® 7 -10 7W5000000120 VHDCI cable to 3xDVI Linux VHDCI cable to 3xHDMI 7W5000000130 VHDCI cable to 3xHDMI

Display Support

Max. Displays per Board 12 Max. Output Resolution Support 5760x4320 (3x4 mode) Display Outputs 12 Single Link DVI or HDMI (via 4x VHDCI to 3 DVI or HDMI cable)

Multi-Display Graphics Cards 45 Embedded JetsonGPGPU Solutions

Computer on Modules (COMs) or System on Modules (SoMs) gives scalable, reliable, cost-effective and time-to-market embedded computer platforms to meet a wide range of vertical embedded markets.

Aetina provides GPGPU-oriented solutions using leading NVIDIA® Jetson™ TX2, TX1 modules and Tegra® SoCs, offering high level embedded computing power and graphics processing performance. By leveraging these GPU-acceleration processors, enables you to harness the power of NVIDIA's CUDA GPU cores and to quickly develop and deploy compute-intensive systems for computer vision, autonomous robotics, drones, medical imaging and mores.

To speed up product development time and keep customers' time to focus on their own domain know- how, Aetina built ready-to-ship COM Express® pin-out modules and well-featured, functionality carrier boards and developer kits. In order to back up the customization and flexibility demands of versatile applications, Aetina also provides ODM/JDM services to fulfill each unique need. The S/W and H/W Integration Value-added Services to Accelerate Jetson Project Development iNAVI | Customized Operating System Building Service Enhance Optimization, Security and Stability to the System We provide the operating system customization service, that help developers built-in their embedded OS based on Linux, including Shell Custom, Secure Boot, and System Recovery.

• Pre-integrated the necessary driver porting and request OS specifications • Ubuntu OS customization and system integration • Device configuration setting • Support std driver and 3rd party driver Integration • System recovery • Secure boot • Verified resources integration • Support driver-ready extension I/O modules and driver integration • Support the latest NVIDIA Jetpack, libraries and APIs integration • Collaboration with partners • Support partner’s or third party application integration

EIOA | Extension I/O Access Service Increase Connectivity and Time-to-Market We provide wide range of driver ready peripheral I/O modules. Assist developers flexibly expand the connectivity of the systems, meanwhile reduce development time and total cost of ownership.

I/O Module Types Description

TMUC-B201 USB to Dual Isolated CANBus 2.0B Module, Optional

TMU2-X2S1 USB to Dual Isolated RS-232 Module, Optional

TMUI-0D01 USB to 32bit Digital I/O Module, Optional

TMPU-3401 mPCIe to Four USB 3.0 Module, Optional

TMPL-G201 mPCIe to Dual Isolated GbE LAN Module, Optional

TMPL-G2P1 mPCIe to Dual Isolated PoE Module, Optional

Certified Extension Modules

47 p.50 p51 p.52 p.53

Model Number NSO-MD-TX1 NSO-MD-TX2 NSO-MD-TX2i ACE-N510

Processor NVIDIA TEGRA X1 NVIDIA TEGRA X2 NVIDIA TEGRA X2i NVIDIA TX1/TX2(Support)

Form Factor SoM SoM SoM Carrier board

Quad-core ARM® HMP Dual Denver 2 / HMP Dual Denver 2 / CPU Cortex®-A57 2 MB L2 + Quad ARM® 2 MB L2 + Quad ARM® -- MPCore Processor A57 / 2 MB L2 A57 / 2 MB L2 Processor Processor Core 4 6 6 -- 7.5W (Max-Q) / 10W (Max-Q) / CPU TDP 6.5W~15W -- 15W(Max-P) 20W (Max-P) GPU NVIDIA Maxwell™ NVIDIA Pascal™ NVIDIA Pascal™ --

NVIDIA® 256 256 256 -- CUDA™ Cores Floating Point 1 TFLOPS 1.5 TFLOPS 1.5 TFLOPS -- Graphics DirectX® 12, DirectX® 12, DirectX® 12, OpenGL ES 3.1, OpenGL ES 3.1, OpenGL ES 3.1, Support API ® ® ® -- OpenGL® 4.5, OpenGL® 4.5, OpenGL® 4.5, CUDA® 8.0, Vulkan CUDA® 8.0, Vulkan CUDA® 8.0, Vulkan

2x DSI(x4), 1x eDP 1.4 / 2x DSI(x4), 1x eDP 1.4 / 2x DSI(x4), 1x eDP 1.4 / 1x eDP 1.4 DP, 1x HDMI / DP 1.2 DP, 1x HDMI / DP 1.2 DP, 1x HDMI / DP 1.2a Display Video Interfaces Display/Backlight Control Display/Backlight Control Display/Backlight Control HDMI Type A CSI 6x CSI(x2) or 3x CSI(x4) 6x CSI(x2) or 3x CSI(x4) 6x CSI(x2) or 3x CSI(x4) 1x CSI(x2)

4GB LPDDR4 8GB LPDDR4 8GB LPDDR4 ECC Support --

Memory 64-bit 128-bit 128-bit --

25.6 GB/s 59.7 GB/s 51.9 GB/s --

16GB eMMC 5.1 Flash 32GB eMMC 5.1 Flash 32GB eMMC 5.1 Flash -- Mass Storage SATA SATA SATA -- SD Card Interface SD Card Interface SD Card Interface / SDIO Full size SD card slot Gigabit Ethernet & Gigabit Ethernet & Gigabit Ethernet Networking Gigabit Ethernet 802.11ac WiFi/Bluetooth 802.11ac WiFi/Bluetooth ( RJ45 w/LEDs)

1x HDMI Type A 1x eDP 2x USB3.0 Type A 3x USB2.0 Interface, 3x USB2.0 Interface, 3x USB2.0 Interface, 1x USB2.0 Micro AB 3x USB3.0 (Two shared 3x USB3.0 (Two shared 3x USB3.0 (Two shared 1x Full-Mini Card (PCI w/PCIe or SATA), w/PCIe or SATA), w/PCIe or SATA), Express x1 & USB2.0) Multi-PCI-E Configuration Multi-PCI-E Configuration Multi-PCI-E Configuration 1x Full-Mini Card (PCI ( shared w/USB3.0), ( shared w/USB3.0), ( shared w/USB3.0), Express x1 or mSATA) Others I/O 4x I2S, 4x I2S, 4x I2S, 1x RS-232 8x I2C, 8x I2C, 6x I2C, 1x Front Panel 3x SPI, 3x SPI, 3x SPI, 1x 4pin-FAN connector 5x UART, 5x UART, 3x UART, 1x 12V DC Output 2x CAN 2x CAN GPIO 1x 5V DC Output GPIO GPIO 2x CAN Bus 4x GPIO 1x SPI

Watchdog Timer ------

Power Requirement 5.5 ~ 19.6V DC 5.5 ~ 19.6V DC 9.0 ~ 19.6V DC 12 ~ 19V DC

Dimensions 87 mm x 50 mm 87 mm x 50 mm 87 mm x 50 mm 120 mm x 120 mm 0 ˚C ~ +55 ˚C 0 ˚C ~ +55 °C 0 ˚C ~ +55 ˚C Operation Temperature -40 ˚C ~ +85 ˚C -20 ˚C ~ +70 ˚C (Optional) -20 ˚C ~ +70 ˚C (Optional) -20 ˚C ~ +70 ˚C (Optional)

48 Computer on Modules & SoMs Product specifications are subject to change without prior notice p.54 p.55 p.56 p.57 p.58

ACE-N622 ACE-N622-TX2 ACE-N622-TX1 ACE-C6-TK1 ACE-C6-TK1 DevKit

NVIDIA TX1/TX2(Support) NVIDIA TEGRA X2 NVIDIA TEGRA X1 NVIDIA TEGRA K1 NVIDIA TEGRA K1 COM Express Carrier board Developer Kit Developer Kit Developer Kit Compact Type 6 Module

HMP Dual Denver 2 Quad-core ARM® 4-Plus-1 ARM® 4-Plus-1 ARM® -- 2 MB L2 + Quad ARM® A57 Cortex®-A57 MPCore Cortex® -A15 MPCore Cortex® -A15 MPCore 2 MB L2 Processor "r3" processor "r3" processor

-- 6 4 4 4 7.5W (Max-Q) / -- 6.5W~15W 15W 15W 15W (Max-P) -- NVIDIA Pascal™ NVIDIA Maxwell™ NVIDIA Kepler™ NVIDIA Kepler™

-- 256 256 192 192

-- 1.5 TFLOPS 1 TFLOPS 325 GFLOPS 325 GFLOPS

DirectX 12 DirectX 12 DirectX® 12, DirectX® 12, ® ® OpenGL ES 3.1, OpenGL ES 3.1, OpenGL® ES 3.0, OpenGL® ES 3.0, OpenGL® -- ® ® 4.4, OpenGL® 4.5, OpenGL® 4.5, OpenGL® 4.4, CUDA 7.0, Vulkan CUDA 7.0, Vulkan CUDA® 6.5, Tesellation, CUDA® 6.5, Tesellation, ® ® Vulkan Vulkan Single Channel 18/24 bit 1x20 board-to-board 1x eDP 1.4 1x eDP 1.4 1x eDP 1.4 LVDS or eDP connector HDMI Type A HDMI Type A HDMI Type A HDMI Interface 1x HDMI Type A 1x 20-pin FPC & 1x 26-pin 1x CSI(x2) 1x CSI(x2) 1x CSI(x2) 2x CSI (x1 & x4) FPC -- 8GB LPDDR4 4GB LPDDR4 2GB DDR3L 2GB DDR3L

-- 128-bit 64-bit 64-bit 64-bit

-- 59.7 GB/s 25.6 GB/s 14.9 GB/s 14.9 GB/s

-- 32GB eMMC 5.1 Flash 16GB eMMC 5.1 Flash 16GB eMMC 4.51 Flash 16GB eMMC 4.51 Flash ------1x SATA Interface (3Gb/s) 1x SATA Interface (3Gb/s) Full size SD card slot Full size SD card slot Full size SD card slot 1x micro SD slot 1x micro SD slot Gigabit Ethernet Gigabit Ethernet Gigabit Ethernet Gigabit Ethernet Gigabit Ethernet ( RJ45 w/LEDs) ( RJ45 w/LEDs) ( RJ45 w/LEDs) ( RJ45 w/LEDs)

1x HDMI Type A 1x HDMI Type A 1x eDP 1x HDMI Type A 1x eDP 2x USB3.0 Type A 1x eDP 2x USB3.0 Type A 1x USB2.0 Micro AB 2x USB3.0 Type A 1x USB2.0 Micro AB 1x USB2.0 Micro AB, 1x Full-Mini Card (PCI 1x USB2.0 Micro AB 1x Full-Mini Card (PCI 4x USB2.0 Interface, 1x USB2.0 Micro AB, Express x1 & USB2.0) 1x Full-Mini Card (PCI Express x1 & USB2.0) 1x USB3.0 Interface, 2x USB2.0 Type A, 1x Full-Mini Card (PCI Express x1 or mSATA) 1x Full-Mini Card (PCI 1x PCI-E (x1), 1x USB3.0 Type A, Express x1 or mSATA) 1x RS-232 Express x1 or mSATA) 2x I2S, 1x Full-Mini Card, 1x RS-232 1x Front Panel 1x RS-232 1x I2C, 1x Half-Mini Card, 1x Front Panel 1x 4pin-FAN connector 1x Front Panel SPI Interface, 1x MIC-in & Speaker-out, 1x 4pin-FAN connector 1x 12V DC Output 1x 4pin-FAN connector 4x UART, 2x RS-232 1x 12V DC Output 1x 5V DC Output 1x 12V DC Output 4x GPI, 4x GPO 1x 5V DC Output 2x CAN Bus 1x 5V DC Output 1x SM Bus 2x CAN Bus 4x GPIO 2x CAN Bus 4x GPIO 1x SPI 4x GPIO 1x SPI 1x SPI

------yes yes

12 ~ 19V DC 12 ~ 19V DC 12 ~ 19V DC +12V DC +12V DC

120 mm x 120 mm 120 mm x 120 mm 120 mm x 120 mm 95 mm x 95 mm 170mm x 170mm 0 ˚C ~ +55 ˚C 0 ˚C ~ +55 ˚C 0 ˚C ~ +55 ˚C 0 ˚C ~ +55 ˚C 0 °C ~ +55°C -20 ˚C ~ +70 ˚C (Optional) -20 ˚C ~ +70 ˚C (Optional) -20 ˚C ~ +70 ˚C (Optional)

Computer on Modules & SoMs 49 NSO-MD-TX1 NVIDIA® Jetson™ TX1 Supercomputer on Module (SoM) with NVIDIA 256-core Maxwell™ GPU Features

• Powered by NVIDIA Tegra X1 mobile processor • 256-core NVIDIA Maxwell™ GPU, support 1 TFLOPS • NVIDIA® quad-core ARM Cortex-A57 CPU • Leading visual computing platform for deep learning • Support 4K and H.265 video decode and encode • Support 6 cameras interface, capable of 1400 MPix/s • CUDA 8.0, DirectX 12, OpenGL ES 3.1, OpenGL 4.5, Open CL 1.1

Medical AI Drone Automation Defense

System Mechanical and Environmental

Processor NVIDIA Tegra X1 Dimension Credit card size Quad-core ARM Cortex-A57 CPU 87 mm x 50 mm Graphics NVIDIA Maxwell GPU with 256 CUDA cores Power Supply 5.5 ~ 19.6V DC 1 TFLOPS Operating Temperature 0 °C ~ +55 °C (Standard Version) System Memory 4GB LPDDR4, 64-bit -20 °C ~ +70 °C (Optional) Mass Storage 16GB eMMC5.1 Flash Operating Humidity 10% ~ 90%

LAN 1x 802.11 ac WiFi and Bluetooth Storage Temperature -40 °C ~ +125 °C 1x Gigabit Ethernet Expansion Slot 400-pin board-to-board connector

I/O Support from Expansion slot

Mass Storage 1x serial ATA interface 1x SD card Video Interfaces eDP/DP Interface HDMI/DP interface (w/CEC) 2x DSI (x4 lanes) / CSI (6 x2 or 3 x4)

USB 3x USB2.0 Host Port 3x USB3.0 Host Port (Two shared w/PCIe or SATA) Audio 1x I2S for HD Audio

PCI Express 1x 4 lanes+ 1x 1 lane 2x 1 lane + 1x 2 lanes (shared w/USB 3.0)

Others 6x I2C 3x I2S 3x UART 3x SPI GPIOs Real Time Clock Power Management Signals Thermal/FAN Management

50 Computer on Modules & SoMs NSO-MD-TX2 NVIDIA® Jetson™ TX2 Supercomputer on Module (SoM) with NVIDIA 256-core Pascal™ GPU Features

• HMP CPU combines quad-core ARM Cortex-A57 and dual- core Denver 2 • Integrates 256-core NVIDIA Pascal™ GPU • Balanced power envelope suitable for mobile/embedded environments • Support H.265 video decode and encode • Performance is twice as powerful as Jetson TX1 • World's leading AI computing module for intelligent devices at the edge,suitable for IVA, drones, robotics, gaming, VR, AR, portable medical devices

Medical AI Drone Automation Defense VR System Mechanical and Environmental

Credit card size Processor NVIDIA Tegra X2 / HMP Dual Denver 2 / Dimension Credit card size 87 mm x 50 mm 2 MB L2 + Quad ARM® A57 / 2 MB L2 87 mm x 50 mm 5.5 ~ 19.6V DC Graphics NVIDIA Pascal™ GPU with 256 CUDA cores, Power Supply 5.5 ~ 19.6V DC 1.5 TFLOPS 0 °C ~ +55 °C (Standard Version) Operating Temperature 0 °C ~ +55 °C (Standard Version) -20 °C ~ +70 °C (Optional) System Memory 8GB LPDDR4, 128-bit -20 °C ~ +70 °C (Optional) 10% ~ 90% Mass Storage 32GB eMMC5.1 Flash Operating Humidity 10% ~ 90%

-40 °C ~ +125 °C LAN 1x 802.11 ac WiFi and Bluetooth Storage Temperature -40 °C ~ +125 °C 1x Gigabit Ethernet Expansion Slot 400-pin board-to-board connector

I/O Support from Expansion slot

Mass Storage 1x serial ATA interface 1x SD card Video Interfaces eDP/DP Interface HDMI/DP interface (w/CEC) 2x DSI (x4 lanes) / CSI (6 x2 or 3 x4)

USB 3x USB2.0 Host Port 3x USB3.0 Host Port Audio 1x I2S for HD Audio

PCI Express 1x 4 lanes+ 1x 1 lane 2x 1 lane + 1x 2 lanes (shared w/USB 3.0)

Others 8x I2C 3x I2S 5x UART 3x SPI 2x CAN GPIOs Real Time Clock Power Management Signals Thermal/FAN Management

Computer on Modules & SoMs 51 NSO-MD-TX2i NVIDIA® Jetson™ TX2i Supercomputer on Module (SoM) with NVIDIA 256-core Pascal™ GPU Features

• Powered by Industrial Grade NVIDIA TEGRA X2i processor the powerful new NVIDIA Pascal™ architecture, 256 GPU cores, a 64-bit CPU. • Integrates 256-core NVIDIA Pascal™ GPU • Balanced power envelope suitable for mobile/embedded environments • LPDDR4 ECC memory support • Wide Temperature support. Range -40°C to 85°C • 10 years longevity support • Performance is twice as powerful as Jetson TX1

Medical AI Drone Automation Defense System Mechanical and Environmental

Processor NVIDIA Tegra X2i / HMP Dual Denver 2 / Dimension Credit card size 2 MB L2 + Quad ARM® A57 / 2 MB L2 87 mm x 50 mm Graphics NVIDIA Pascal™ GPU with 256 CUDA cores, Power Supply 9.0 ~ 19.6V DC 1.5 TFLOPS Operating Temperature -40˚C ~ +85˚C (Standard Version) System Memory 8GB 128bit ECC LPDDR4 Industrial Grade Operating Humidity 0-90% relative humidity (operation), Mass Storage 32GB eMMC5.1 Flash Industrial Grade 5-90% (storage)

LAN 1x Gigabit Ethernet Storage Temperature -40 °C ~ +125 °C Expansion Slot 400-pin board-to-board connector

I/O Support from Expansion slot

Mass Storage 1x serial ATA interface 1x SD card / 1x SDIO Video Interfaces 2x DSI (x4 lanes) 2x Multi mode eDP/DP/HDMI CSI (6 x2 or 3 x4)

USB 3x USB2.0 Host Port 3x USB3.0 Host Port

PCI Express 1x 4 lanes+ 1x 1 lane 2x 1 lane + 1x 2 lanes (shared w/USB 3.0)

Others 8x I2C 4x I2S 5x UART 3x SPI 2x CAN GPIOs Real Time Clock Power Management Signals Thermal/FAN Management

52 Computer on Modules & SoMs ACE-N510 NVIDIA® Jetson™ TX2 / TX1 Credit Card Size Carrier Board

Features

• Support Jetson TX2 and TX1 in ultra-small form factor • Amiable for compute-intensive and low-power AI applications • Support extended temperature -20°C to 70°C • 1x HDMI, 2x CAN Bus, 1x Micro USB 2.0 OTG, 2x USB 3.0, 1x RS-232,1x UART and 4x GPIO • Ideal for smart cameras, robots, drones, mobile medical and deep learning

Surveillance AI Drone Medical Defense

I/O Mechanical and Environmental

Credit card size 87 mm x 50 mm Mass Storage -- Dimension 87 mm x 50 mm 9.0 ~ 19.6V DC Video Interfaces 1x HDMI Type A Power Supply +12V DC

-40˚C ~ +85˚C (Standard Version) LAN 1x RJ-45 for Gigabit Ethernet Operating Temperature 0 °C ~ +55 °C (Standard Version) -20 °C ~ +70 °C (Optional) 0-90% relative humidity (operation), Expansion Slots -- 5-90% (storage) Operating Humidity 10% ~ 90% USB 1x USB2.0 Micro AB / -40 °C ~ +125 °C 2x USB3.0 Type A Storage Temperature -40 °C ~ +125 °C Serial 1x RS-232

Other 1x Front Panel / 1x 4-pin FAN connector / 1x UART / 4x GPIO / 2x CAN / 1x DC-in 12V Power Jack

Computer on Modules & SoMs 53 ACE-N622 NVIDIA® Jetson™ TX2 / TX1 Nano-ITX Carrier Board

Features

• Nano-ITX form factor (120mm x 120mm) • Two Full-Mini card for flexible and multiple extension I/O modules • Ideal for all-in-one panel PC project with use of eDP • Compatible to Jetson TX2/TX1 modules, specifically designed for high performance, low-power AI computing

Medical AI Drone AOI 3D Modeling

I/O Mechanical and Environmental

Mass Storage 1x Full size SD card slot Dimension Nano-ITX 120 mm x 120 mm Video Interfaces 1x HDMI Type A 1x eDP via 20-pin board-to-board connector Power Supply 12V~19V DC LAN 1x RJ-45 for Gigabit Ethernet Operating Temperature 0 °C ~ +55 °C (Standard Version) -20 °C ~ +70 °C (Optional) Expansion Slots 1x Full-Mini card (PCI Express x1 & USB2.0) 1x Full-Mini card (PCI Express x1 & mSATA) Operating Humidity 10% ~ 90%

USB 1x USB2.0 Micro AB Storage Temperature -40˚C ~ +125˚C 2x USB3.0 Type A Serial 1x RS-232

Others 1x Front Panel, 1x 4-pin FAN connector 1x 12V DC Output, 1x 5V DC Output 1x DC-in 12V~19V Power Jack 1x UART, 1x I2C, 4x GPIO, 1x I2S, 1x SPI 2x CAN

Certified Extension Modules

I/O Module Type Description

CANBus USB to dual isolated CANBus 2.0B Module M/N : TMUC-B201 RS-232 USB to Dual Isolated RS232 Module M/N : TMU2-X2S1 Digital I/O USB to 32bit Digital I/O Module M/N : TMUI-0D01

USB 3.0 mPCIe to four USB 3.0 Module M/N : TMPU-3401

GbE LAN mPCIe to Dual Isolated GbE LAN Module M/N : TMPL-G201 PoE mPCIe to Dual Isolated PoE Module M/N : TMPL-G2P1

54 Computer on Modules & SoMs ACE-N622-TX2 Developer Kit of NVIDIA® Jetson™ TX2

Features

• Leverage NVIDIA Jetson™ TX2 with 256 CUDA cores GPU • Well-featured platform for AI computing and deep-learning • Ideal for CUDA deployment on Linux environment • Driver ready for wide range of extension modules • Quick design-in with complete BSP and OS optimization service • Ideal for AOI, robotics, UGV, IVA and portable medical devices

Medical AI Drone Automation Defense

System Mechanical and Environmental

Nano-ITX Processor NVIDIA Tegra X2 / HMP Dual Denver 2 Dimension 120 mm x 120 mm 120 mm x 120 mm 2 MB L2 / 2 MB L2 + Quad ARM® A57 Power Supply 12V~19V DC 12V~19V DC Graphics NVIDIA Pascal™ GPU 256 CUDA cores Operating Temperature 0 °C ~ +55 °C (Standard Version) 1.5 TFLOPS 0 °C ~ +55 °C (Standard Version) -20 °C ~ +70 °C (Optional) -20 °C ~ +70 °C (Optional) System Memory 8GB 128bit LPDDR4 Operating Humidity 10% ~ 90% 10% ~ 90% Mass Storage 32GB eMMC5.1 Flash Storage Temperature -40 °C ~ +125 °C -40˚C ~ +125˚C

I/O Certified Extension Modules

Mass Storage 1x Micro SD card I/O Module Type Description

Video Interfaces 1x HDMI Type A CANBus USB to dual isolated CANBus 2.0B Module 1x eDP via 20-pin board-to-board connector M/N : TMUC-B201 LAN 1x RJ-45 for Gigabit Ethernet RS-232 USB to Dual Isolated RS232 Module M/N : TMU2-X2S1 Expansion Slots 1x Full-Mini card (PCI Express x1 & mSATA) Digital I/O USB to 32bit Digital I/O Module USB 1x USB2.0 Micro AB M/N : TMUI-0D01 2x USB3.0 Type A USB 3.0 mPCIe to four USB 3.0 Module Serial 1x RS-232 M/N : TMPU-3401

Others 1x Front Panel, 1x 4-pin FAN connector GbE LAN mPCIe to Dual Isolated GbE LAN Module 1x 12V DC Output, 1x 5V DC Output M/N : TMPL-G201 1x DC-in 12V~19V Power Jack 1x UART, 1x I2C, 4x GPIO, 1x I2S, 1x SPI PoE mPCIe to Dual Isolated PoE Module 2x CAN M/N : TMPL-G2P1

Computer on Modules & SoMs 55 ACE-N622-TX1 Developer Kit of NVIDIA® Jetson™ TX1

Features

• Leverage NVIDIA Jetson™ TX1 with 256 CUDA cores GPU • Well-featured platform for AI computing and deep-learning • Ideal for CUDA deployment on Linux environment • Driver ready for wide range of extension modules • Quick design-in with complete BSP and OS optimization service • Ideal for AOI, robotics, UGV, IVA and portable medical devices

Medical AI Drone Automation Defense

System Mechanical and Environmental

Processor NVIDIA Tegra X1 Dimension 120 mm x 120 mm Quad-core ARM Cortex-A57 CPU Power Supply 12V~19V DC Graphics NVIDIA Maxwell™ GPU 256 CUDA cores Operating Temperature 0 °C ~ +55 °C (Standard Version) 1 TFLOPS -20 °C ~ +70 °C (Optional) System Memory 4GB 64-bit LPDDR4 Operating Humidity 10% ~ 90% Mass Storage 16GB eMMC5.1 Flash Storage Temperature -40 °C ~ +125 °C

I/O Certified Extension Modules

Mass Storage 1x Full size SD card slot I/O Module Type Description

Video Interfaces 1x HDMI Type A CANBus USB to dual isolated CANBus 2.0B Module 1x eDP via 20-pin board-to-board connector M/N : TMUC-B201 LAN 1x RJ-45 for Gigabit Ethernet RS-232 USB to Dual Isolated RS232 Module M/N : TMU2-X2S1 Expansion Slots 1x Full-Mini card (PCI Express x1 & USB2.0) 1x Full-Mini card (PCI Express x1 & mSATA) Digital I/O USB to 32bit Digital I/O Module M/N : TMUI-0D01 USB 1x USB2.0 Micro AB 2x USB3.0 Type A USB 3.0 mPCIe to four USB 3.0 Module M/N : TMPU-3401 Serial 1x RS-232 GbE LAN mPCIe to Dual Isolated GbE LAN Module Others 1x Front Panel, 1x 4-pin FAN connector M/N : TMPL-G201 1x 12V DC Output, 1x 5V DC Output 1x DC-in 12V~19V Power Jack PoE mPCIe to Dual Isolated PoE Module 1x UART, 1x I2C, 4x GPIO, 1x I2S, 1x SPI M/N : TMPL-G2P1 2x CAN

56 Computer on Modules & SoMs ACE-C6-TK1 NVIDIA® TEGRA® K1 COM Express® Compact Type 6 Module with NVIDIA 192-core Kepler™ GPU Features

• Onboard with NVIDIA Tegra K1 SoC • NVIDIA Kelper GPU with 192 CUDA cores • 4-Plus-1 quad-core ARM Cortex-A15 CPU, 2.3GHz • 2GB DDR3L memory with 64-bit width • Support 2 independent displays • Support up to 4K display resolution (via carrier board) • Wide operating temperature capable with -20°C ~70°C • CUDA 6.5, DirectX 12, OpenGL ES 3.0, OpenGL 4.4, Open CL 1.1

Medical AI Drone Automation

System Mechanical and Environmental

Processor NVIDIA Tegra K1 Dimension COM Express Compact, Type 6 120 mm x 120 mm 4-Plus-1 ARM Cortex-A15”r3” 95 mm x 95 mm 12V~19V DC Graphics NVIDIA Kelper GPU with 192 CUDA cores Power Supply +12V DC 325 GFLOPS 0 °C ~ +55 °C (Standard Version) Operating Temperature 0 °C ~ +55 °C (Standard Version) -20 °C ~ +70 °C (Optional) System Memory 2GB DDR3L, 64-bit Operating Humidity 10% ~ 90% 10% ~ 90% Mass Storage 16GB eMMC4.51 Flash

1x micro SD card Storage Temperature -40 °C ~ +125 °C -40 °C ~ +125 °C Video Interfaces 2x MIPI CSI

LAN 1x Gigabit Ethernet

USB 1x USB2.0 Micro AB

Expansion Slot 2x COM Express board-to-board connector

I/O Support from Expansion slot ACE-C610 TEGRA® K1 COM Express® Mass Storage 1x serial ATA interface(3Gb/s) Module Type Description Compact Type 6 Carrier Board Video Interfaces Single Channel 18/24 bit LVDS or eDP USB to dual isolated CANBus 2.0B Module 1x HDMI Features M/N : TMUC-B201 USB 4x USB2.0 Host Ports . Mini-ITX form factor ( 170mm x 170mm) USB to Dual Isolated RS232 Module 1x USB3.0 Host Port . 1x Full-Mini Card (PCI Express x1 only) and M/N : TMU2-X2S1 1x Half-Mini Card Audio 1x I2S for HD Audio Realtek ALC5639 . Support COM Express Compact module USB to 32bit Digital I/O Module (Type6), compatible to Aetina ACE-C6-TK1 M/N : TMUI-0D01 PCI Express 1x PCI Express 1 lane mPCIe to four USB 3.0 Module Serial 4x UARTs (1x 1.8V and 3x 3.3V tolerance) I/O M/N : TMPU-3401 Others 1x I2C Bus 1x HDMI Type A mPCIe to Dual Isolated GbE LAN Module 1x SM Bus 1x eDP or LVDS via 20-pin board-to-board connector M/N : TMPL-G201 4x GPI, 4x GPO 1x RJ-45 for Gigabit Ethernet SPI Interface 2x RS-232, 1x USB 3.0, 2x USB2.0, 1x SATA 3Gb/s and SATA Power mPCIe to Dual Isolated PoE Module Watchdog Timer 1x MIC-in and Speaker-out (Realtek ALC5639) M/N : TMPL-G2P1 Real Time Clock 1x 3pin-FAN connector Power Management Signals 1x JTAG connector via 20-pin header Thermal/FAN Management 1x DC Power Jack

Computer on Modules & SoMs 57 ACE-C6-TK1 DevKit Developer Kit of ACE-C6-TK1 COM Express® Compact Type 6 Module

Features

• Powered by NVIDIA Tegra K1, 325 GFLOPS • High energy efficient, superior visual computing in ARM® • Ideal platform for CUDA development within Linux environment • Off-the-shelf COM-E platform for GPGPU niche • Standard connectors are used, best in flexible and extensible • Wide operating temperature capable with -20°C ~70°C • Ideal for computer vision, robotics, medicines and more

Medical AI Drone Automation

System Mechanical and Environmental

Processor NVIDIA Tegra K1 Dimension Mini-ITX 4-Plus-1 ARM Cortex-A15”r3” 170 mm x 170 mm Graphics NVIDIA Kelper GPU with 192 CUDA cores Power Supply +12V DC 325 GFLOPS Operating Temperature 0 °C ~ +55 °C (Standard Version) System Memory 2GB DDR3L, 64-bit Operating Humidity 10% ~ 90% Mass Storage 16GB eMMC4.51 Flash Storage Temperature -40 °C ~ +125 °C

* Full-Mini card & Half-Mini card CAN NOT use at the same time.

I/O

Mass Storage 1x micro SD card 1x SATA(3Gb/s) and SATA power Video Interfaces 1x LVDS or eDP via 20-pin board-to-board connector 1x HDMI Type A 2x MIPI CSI

LAN 1x RJ-45 for Gigabit Ethernet

Expansion Slots 1x Full-Mini card* 1x Half-Mini card* USB 2x USB2.0 Type A 1x USB2.0 Micro AB 1x USB3.0 Ttype A Audio 1x Mic-in and Speaker-out (Realtek ALC5639) Serial 2x RS-232

Others 3x Pushbuttons 1x Front Panel 1x 3-pin FAN connector 1x JTAG connector via 20-pin header 1x DC Power Jack

58 Computer on Modules & SoMs Mini-ITX 170 mm x 170 mm +12V DC

0 °C ~ +55 °C (Standard Version)

10% ~ 90%

-40 °C ~ +125 °C

59