Aetina V3t3000-qrc User manual

User Manual

3U VPX Rugged Module

Aetina V3T3000-QRC

Document Change History

Version

Date

Description

Authors

v01 2022/01/13 Initial Release. Emily Chou

Contents

1. General Overview......................................................................................................................................................- 1 -

1.1 Features ..............................................................................................................................................................- 1 -

1.1.1 GPU ..............................................................................................................................................................- 1 -

1.1.2 Board............................................................................................................................................................- 1 -

1.1.3 Memory Configuration.................................................................................................................................- 2 -

1.1.4 Support.........................................................................................................................................................- 2 -

1.1.5 Display Support ............................................................................................................................................- 2 -

1.1.6 Cooling System.............................................................................................................................................- 2 -

1.1.7 Operating System Support...........................................................................................................................- 2 -

1.2 Configuration ......................................................................................................................................................- 3 -

1.3 Display Options ...................................................................................................................................................- 3 -

2. Functional Description ..............................................................................................................................................- 4 -

2.1 Board Architecture..............................................................................................................................................- 4 -

2.2 General Purpose Graphics Processing Unit.........................................................................................................- 4 -

2.2.1 GPU Resources.............................................................................................................................................- 4 -

2.3 Display Interface .................................................................................................................................................- 5 -

2.3.1 Graphics Output channels............................................................................................................................- 5 -

2.3.2 Digital Output...............................................................................................................................................- 5 -

2.3.3 Analog Output..............................................................................................................................................- 5 -

2.3.4 Hot Plug........................................................................................................................................................- 5 -

2.4 PCI Express ..........................................................................................................................................................- 5 -

3. Pin Definition.............................................................................................................................................................- 6 -

3.1 VPX connector Pinout .........................................................................................................................................- 6 -

3.1.1 P0 connector ................................................................................................................................................- 6 -

4. Mechanical Specifications.........................................................................................................................................- 8 -

4.1 Dimensions..........................................................................................................................................................- 8 -

iii

5. Embedded GPU Thermal Specifications....................................................................................................................- 9 -

5.1 Thermal Policy.....................................................................................................................................................- 9 -

6. Certificates and Agencies........................................................................................................................................- 10 -

6.1 Certifications .....................................................................................................................................................- 10 -

6.2 Agencies ............................................................................................................................................................- 10 -

7. Appendix .................................................................................................................................................................- 11 -

7.1 Ordering Information........................................................................................................................................- 11 -

- 1 -

1. General Overview

The V3T3000-QRC includes an NVIDIA® Quadro® Turing™ RTX3000 embedded GPU in

a rugged 3U VPX module. It supports operability in an extended temperature range of -

40°C to 71°C, suitable for mission-critical harsh environments.

The Module MXM RTX3000 includes CUDA cores for parallel processing, Tensor cores

for dedicated AI inference and ray tracing cores for superior rendering speeds. With its

1920 CUDA core Turing GPU and additional 240 Tensors Cores, the Quadro RTX 3000

supports 4 UHD displays, delivering the latest leading-edge GPU performance for your

embedded system with AI capabilities enabled.

Unlocking the best performance requires the best cooling capability. Aetina’s

advanced cooling technology is designed to move heat using a low weight, high efficiency

path from the GPU die to the Wedge-lock.

1.1 Features

•3U VPX VITA 46, Open VPX VITA 65, VPX REDI 48

•VITA 46.0 VPX Base Standard

•VITA 46.4 PCI Express on VPX Fabric Connector

•1920 CUDA cores

•5.3 TFLOPS Peak FP32 performance

•6 GB GDDR6 memory, 192-bit

•336 GB/s maximal memory bandwidth

•Support for up to 4 Display, 80W TGP

•5 years life cycle availability

1.1.1 GPU

•Nvidia Quadro RTX 3000

•Stream Processing Unites: 1920

•Boost Core clock: 1380 MHz

•Base Core clock: 945 MHz

•Voltage: Variable

1.1.2 Board

•16-lanes PCI Express 3.0 capable

•Conduction cooled 3U form factor

•Dimensions: 100mm x 160mm

•Board power (TGP): 80 W

•High-Bandwidth Digital Content Protection (HDCP) support

- 2 -

1.1.3 Memory Configuration

•Memory clock: 14.0 Gbps

•Interface: 192-bit

•Local frame buffer: 6GB (6 pieces 256M x 32 GDDR6, FBGA-180 package)

1.1.4 Support

•Nvidia CUDA Technology (Compute capability 7.5)

•Nvidia GPU Boost 3.0

•Microsoft DirectX 12

•Vulkan 1.1

•OpenCL 1.2

•OpenGL 4.6

1.1.5 Display Support

•Four DisplayPort 1.4 outputs to VPX P2

1.1.6 Cooling System

•Conduction cooled

1.1.7 Operating System Support

•Windows® 10 64-bit

•Linux 64-bit

- 3 -

1.2 Configuration

Table 1.1 lists the SKU configuration currently available for the V3T3000-QRC.

Table 1.1 Board configuration

Specification

V3T3000-QRC

Module MXM Quadro RTX 3000

Core clock

Base=945 MHz; Boost= 1380 MHz

Memory clock 14.0 Gbps

Frame buffer

6GB GDDR6

Memory interface 192-bit

Memory type

256M x 32 GDDR6 FBGA-180 package

Board power (TGP) 80 W

HDCP support Yes

Supplementary Power Connector No

Operating Temperature Standard version: 0°C to +55°C

Wide-temperature version: -40°C to +71°C

Storage Temperature -40°C to 85°C

Operating Humidity 5~90%, No Condensation.

1.3Display Options

Table 1.2 list the V3T3000-QRC supports 4x DisplayPort outputs to VPX P2 by default, with

display options as shown below.

Table 1.2: Display Options

Displays Supported for Each Interface

DP_A DP_B DP_C DP_D

DisplayPort DisplayPort DisplayPort DisplayPort

- 4 -

2. Functional Description

2.1 Board Architecture

The AETINA V3T3000-QRC form factor as shown below.

Figure 2.1 V3T3000-QRC Block diagram

2.2 General Purpose Graphics Processing Unit

The AETINA V3T3000-QRC is based on TURING Quadro RTX 3000 GPU from Nvidia. 1920

CUDA core enabled. Base core clock is 945 MHz and it is compliant with Nvidia’s CUDA

computing capability 7.5.

2.2.1 GPU Resources

•GDDR6 SDRAM

-6 pieces 256M x 32 GDDR6, total capacity of 6144 Mbytes

-192bit data bus width

-14.0 Gbps clock frequency

•BIOS ROM

-8Mbit SPI FLASH for BIOS image

- 5 -

2.3 Display Interface

The V3T3000-QRC provides four digital output channels.

2.3.1 Graphics Output channels

Figure 2.2 Output channels

2.3.2 Digital Output

•DisplayPort 1.4

•Maximum pixel clock: 1050 MP/s

•Maximum bandwidth: 25.9 GB/s/connector

2.3.3 Analog Output

This model does not support Analog output.

2.3.4 Hot Plug

The V3T3000-QRC supports Hot Plug detect for digital monitors.

2.4 PCI Express

The V3T3000-QRC supports a native x16 PCI Express Gen3/2/1 bus interface.

- 6 -

3. Pin Definition

3.1 VPX connector Pinout

3.1.1 P0 connector

Table 3.1: Connector pinout

Table 3.2: Connector pinout (continued)

- 7 -

Table 3.3: Connector pinout (continued)

INPUT

Bidirectional

OUTPUT

Power

- 8 -

4. Mechanical Specifications

4.1 Dimensions

The Actual dimensions of the V3T3000-QRC are shown in below.

Figure 4.1: Dimensions of V3T3000-QRC

- 9 -

5. Embedded GPU Thermal Specifications

5.1 Thermal Policy

GPU Core Clock throttles at temperature (TJ) above those listed in table 6.1, which lists the throttling

temperature and behavior. Thermal throttling is necessary to ensure that the hottest temperature on the

die does not exceed the sense temperature for prolonged periods of time.

Table 6.1: Thermal slowdown policy table

Parameter

Value

Units

Thermal Resistance (Junction to Case, RJC) 0.017 °C/W

Thermal Resistance (Junction to PCB Board, R

)

0.96

°C/W

GPU Shutdown Temperature (OVERT)1 97 °C

GPU Slowdown Temperature (THERM_ALERT)2

°C

GPU Maximum Operating Temperature3 89 °C

Note:

1. OVERT results in an 87.5% (÷8) hardware clock slowdown.

2. THERM_ALERT results in a 50% (÷2) hardware clock slowdown.

3. The GPU maximum operating temperature is the maximum GPU temperature at which the GPU is guaranteed to

operate at the target performance (base clock) under the total board power level.

- 10 -

6. Certificates and Agencies

6.1 Certifications

Driver for WHQL certified Windows 10 available from Nvidia.

6.2 Agencies

Conformité Européenne (CE) : TBD.

Federal Communications Commission (FCC) : TBD.

- 11 -

7. Appendix

7.1 Ordering Information

Table 7.1 Models available

Model Number

Description

V3T3000-QRC

VPX3U, NVIDIA Quadro RTX 3000, 6GB GDDR6, Conduction-cooled, 0°C to

+55°C (at Wedge-lock)

V3T3000-QRC-H

VPX3U, NVIDIA Quadro RTX 3000, 6GB GDDR6, Conduction-cooled, -40°C

to +71°C (at Wedge-lock)

Disclaimer

The information presented in this document is for informational purposes only and may contain technical inaccuracies, omissions and typographical errors.

The information contained herein is subject to change and may be rendered inaccurate for many reasons, including but not limited to product and roadmap

changes, component and motherboard version changes, new model and/or product releases, product differences between differing manufacturers, software

changes, BIOS flashes, firmware upgrades, or the like. Aetina assumes no obligation to update or otherwise correct or revise this information. However, Aetina

reserves the right to revise this information and to make changes from time to time to the content hereof without obligation of Aetina to notify any person of

such revisions or changes.