AMD Fire Pro SALES TOOL

User Manual: AMD FirePro SALES-TOOL

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Selling AMD FirePro™
Professional GPUs for
Workstations and Data
Center applications

2. What is a GPU (Graphics Processing Unit)?
A GPU (Graphics Processing Unit) is a powerful
processor designed to deliver static and moving
images to a display. This could be a web page, a
video, a 3D game or a 3D Computer Aided Design
(CAD) model of a building or a car.
A modern GPU, also known as a graphics card, typically
features hundreds of individual processing cores and
dedicated memory. The processor is the ‘brain’ and performs
all of the calculations. The memory is important so data can
be stored close to the processor so it can be accessed quickly.

In addition to traditional graphics tasks, the highly parallel
architecture of a GPU means it is very good at performing
compute-intensive calculations in areas such as engineering
simulation, visual effects, video editing, science and research.

In a desktop computer or laptop, the GPU works alongside
the CPU (Central Processing Unit), which is used for general
processing operations. Some GPUs are built into the CPU but
these tend to be for office or consumer PCs.

GPUs that are designed for professional use in areas such
as 3D CAD (Computer Aided Design) or Digital Content Creation
(DCC) tend to be discrete PCI® Express (PCIe®) add-in boards
that slot into the motherboard of a workstation or server.

3. What is a Professional GPU?
AMD FireProTM professional GPUs have been designed, manufactured
and optimized specifically for professional users. They offer outstanding
graphics performance in 2D and 3D applications; ultra high-resolution
multi display capabilities and the ability to perform compute intensive
operations that have traditionally been carried out by CPUs.
Reliability

Reliability is of paramount importance and AMD FirePro professional GPUs are designed
for extremely demanding workloads. Some run 24/7. Every FirePro GPU is designed
exclusively by AMD, delivering consistent quality. Drivers are tested for stability and
undergo a minimum of 16 consecutive weeks of testing.
For customer peace of mind, AMD FirePro professional GPUs are backed up with a threeyear warranty and 24/7 support. Cards are given extended product life cycles to help
support customers that are working on long term projects.

FIREPRO for professionals
AMD FireProTM is a professional GPU. It is available for desktop
workstations, mobile workstations and servers (data centers).
y
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Desktop workstations: AMD FirePro W-Series u(page 7)
Mobile workstations: AMD FirePro M-Series u(page 11)
Data center servers: AMD FirePro S-Series u(page 13)

Performance

Performance is a key tenet of AMD FirePro professional GPUs, including support for the
latest APIs (OpenGL® 4.4, Microsoft® DirectX® 12 and OpenCL™ 2.0) and the high-speed
PCIe 3.0 interface. In addition to offering exceptional performance and smooth handling of
complex 3D designs and visual effects in general, AMD optimizes its drivers for individual
applications. Several new FirePro professional graphics drivers are released each year which
include performance and feature improvements that are not supported by consumer GPUs.

Innovation

AMD FirePro GPUs innovate in several areas including the ability to perform simultaneous
render and compute on a single card, support for up to six 4K displays1 on a single card and
intelligent power technologies.

Graphics core next (GCN)
Increasingly, applications can use the GPU not only to
accelerate graphics but also for computationally-intensive
tasks, such as rendering and simulation, using OpenCLTM.
The latest generation of AMD FirePro GPUs with Graphics Core
Next (GCN) architecture have been specifically designed to
efficiently balance compute tasks with 3D workloads, enabling
multi-tasking that is designed to optimize utilization and
maximize performance, from a single card.

AMD Eyefinity technology supports up to six DisplayPort monitors on an enabled graphics card. Supported display quantity, type and resolution vary by model and board design. Mixed monitors of different resolutions are supported by select AMD FirePro™ professional graphics cards. Confirm specifications with manufacturer
before purchase. To enable more than two displays, or multiple displays from a single output, additional hardware such as DisplayPort™-ready monitors or DisplayPort 1.2 MST-enabled hubs may be required. A maximum of two active adapters is recommended for consumer systems. See www.amd.com/eyefinityfaq for full details.

4. Where are professional GPUs needed?
Design

Engineering

Architecture

Science

Architects design and visualize complex building
designs in 3D Computer Aided Design (CAD) and
Building Information Modeling (BIM) software.

Scientists visualize and simulate complex models
in areas of research such as molecular biology,
theoretical physics and molecular engineering.

media & entertainment

Finance

Medical

Oil and gas

Engineers interact with complex 3D engineering
models in Computer Aided Design (CAD) software
and solve simulations with GPU compute.

Product designers and industrial designers
visualize and interact with 3D models in
Computer Aided Design (CAD) software.

Financial and enterprise users need high-quality,
high-resolution, multi-display environments to
keep track of data from multiple data.

Medical imaging demands high resolution and
color critical displays in areas such as radiology,
pathology, and dentistry.

Petrochemical firms need high-resolution, color
critical displays for seismic imaging to help locate
underground oil and gas reservoirs.

CGI artists visualize and animate hyper-realistic
3D models for film, TV and games. Broadcast
professionals edit 4K footage in real time.

Design and Architecture Images courtesy of DEVELOP3D

5. Consumer GPU vs Professional GPU

CONSUMER GPU

DISCRETE
PROFESSIONAL GPU

FEATURE

(e.g. AMD RadeonTM, Nvidia® GeForce®,
Intel® HD Graphics 4600)

Certified for professional applications

Certified for more than 100 professional applications. Tested against a battery of
simulations and real-world scenarios using rigorous certification processes to ensure
readiness for demanding professional use

Optimized drivers for professional
CAD/CAM/CAE/DCC software

Drivers are tuned to deliver optimum performance
in professional 2D and 3D applications

Professional image quality

Professional image quality features not supported

Support for professional visualization features including realistic effects in 3D
applications such as enhanced materials, lighting, shadows and transparency*

Number of supported displays

Up to 6

Discrete graphics card that can be upgraded

Yes (Intel integrated GPU not upgradable on its own)

Yes

Board Design

Various

AMD

Warranty

Typical 12-36 month warranty

Standard three year warranty and 24/7 support

Life Cycle

Not guaranteed

Extended product life cycles for long term projects

Compute

Support for single precision operations (not optimized for double precision) u

Optimized for single- and double-precision operations with ½-rate for
AMD FirePro W8100 and W9100 u and ECC memory u

Memory

Up to 8GB / 12GB of non-ECC memory

Up to 16GB of ECC memory for complex
models and compute

*Examples include SolidWorks RealView, Ambient Occlusion and Order Independent Transparency (OIT)

(AMD FirePro)

6. Choosing the right GPU for your customer
what does your customer do?
Media and
Entertainment

Medical imaging
and science

For 3D visualization

Design / engineering
(CAD/CAM/CAE)

RECOMMEND SELECT
AMD FireProTM W-SEries
GPUs FOR DESKTOPS

page 7

• Click buttons to navigate to the relevant page

Display Walls
(Signage, video)

Finance
(trading floors)

High Performance
Computing (HPC)

Virtual desktop
Infrastructure (VDI)

For 2D multi display

RECOMMEND SELECT
AMD FireProTM M-SEries
GPUs FOR LAPTOPS

page 11

RECOMMEND SELECT AMD
FireProTM 2XXX & W-Series
GPUs FOR DESKTOPS

page 12

RECOMMEND AMD
FireProTM S- and R-SEries
GPUs FOR SERVERS

page 13

7. AMD FirePro W-series for CAD + Media and entertainment

AMD FirePro W-Series professional GPUs are used in design,
engineering, architecture, animation, special effects, games
development and video editing.
GPUs are optimized for 3D workflows to ensure ultra high geometry
performance and smooth handling of complex, visually rich models. This
helps support a much more fluent design process in a realistic environment.

AMD FirePro drivers are optimized for individual applications to boost
performance and tuned to support professional features such as SolidWorks
RealView for realistic models, Ambient Occlusion for realistic shadows
and Order Independent Transparency (OIT) for faster and more realistic
transparency effects.

The Graphics Core Next (GCN) architecture efficiently balances compute
and 3D workloads, so one GPU can perform two roles at the same time.

GPU compute u uses the GPU (or multiple GPUs) as a processor to
perform advanced calculations that help scientists and engineers get results
faster. Application areas include engineering simulation (structural analysis
(FEA) and computational fluid dynamics (CFD)), ray trace rendering, video
editing and scientific research.1 An AMD FirePro Ultra Workstation can
support up to four AMD FirePro W9100 GPUs.
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Features at a glance
Memory capacity is important so 3D datasets or 4K video files can be loaded
into GPU memory for fast access. The latest generation AMD FirePro W-series
graphics cards features twice the GPU memory compared to their predecessors,
with a minimum of 2GB in the AMD FirePro W2100 and a maximum of 16GB in
the AMD FirePro W9100.

Memory bandwidth is important so data can be loaded in and out of GPU
memory quickly so the processor is not left waiting. It becomes even more
important as datasets grow in size.

PCIe 3.0 supports CPU to GPU data transfer rates of up to 16GB/sec. Standard
on AMD FirePro W-Series GPUs. Particularly beneficial for large datasets.

ECC (Error Correcting Code) support is important for high-precision compute
operations, used in areas such as such as engineering simulation, as it helps
correct errors that are the result of naturally occurring background radiation.

Stereo delivers interactive 3D images to dedicated 3D glasses. FirePro
provides support via DisplayPort 1.2 or dedicated stereoscopic 3-pin mini DIN.

Framelock / Genlock helps ensure accurate and consistent video
synchronisation to external sources or multiple GPUs in different systems.

DirectGMA is an AMD FirePro graphics technology that offers low latency
data transfer directly between multiple GPUs, instead of going via the CPU.

AMD Eyefinity technology2 u enables one graphics card to output
high-quality visuals on 3, 4 and even 6 displays from a single workstation.
This supports multi-tasking, where each dataset or application (CAD,
rendering, simulation, for example) has a dedicated display, or large scale
visualization for immersive presentations or collaborative design delivered
on a powerwall (an array of displays or projectors).
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1
Applications must support OpenCL 2 AMD Eyefinity technology supports up to six DisplayPort monitors on an enabled graphics card. Supported display quantity, type and resolution vary by model and board design. Mixed monitors of different resolutions are supported by select AMD FirePro™ professional graphics cards. Confirm specifications with manufacturer before
purchase. To enable more than two displays, or multiple displays from a single output, additional hardware such as DisplayPort™-ready monitors or DisplayPort 1.2 MST-enabled hubs may be required. A maximum of two active adapters is recommended for consumer systems. See www.amd.com/eyefinityfaq for full details.

8. AMD FirePro W-series for CAD + Media and entertainment

what software does your customer use? • Recommend a specific AMD FirePro GPU

Software developer

Entry-level
(about 10% of users)

Mid-range
(about 80% of users)

High-end
(about 10% of users)

2D/Motion Media Design
3D Modeling & Animation

High-end 2D & VFX Design
Complex 3D Design
Hardware (GPU) Rendering

High-end VFX Design, Real-time 3D DesignViz, High-end 3D Animation and FX
Computational Design

After Effects

AMD FireProTM W5100

AMD FireProTM W7100

AMD FireProTM W8100

Photoshop CC

AMD FirePro W5100

AMD FirePro W7100

AMD FireProTM W9100

Premiere Pro CC

AMD FirePro W5100

AMD FirePro W7100

AMD FirePro W9100

Application

The following information is based on average application use and is intended as a guideline.
Individual workflows and application usage must be taken into consideration when
selecting a professional graphics card.

Adobe
Altair Engineering
ANSYS

HyperWorks

AMD FirePro W4100

AMD FirePro W5100

AMD FirePro W8100

ANSYS Mechanical

AMD FirePro W5100

AMD FirePro W7100

AMD FirePro W8100

FLUENT

AMD FirePro W5100

AMD FirePro W7100

AMD FirePro W8100

Workbench

AMD FirePro W5100

AMD FirePro W7100

AMD FirePro W8100

Graphisoft

ArchiCAD

AMD FirePro W2100

AMD FirePro W4100

AMD FirePro W5100

Assimilate

Scratch

AMD FirePro W7100

AMD FirePro W8100

AMD FirePro W9100

Autodesk

3ds Max

AMD FirePro W5100

AMD FirePro W7100

AMD FirePro W9100

AutoCAD

AMD FirePro W2100

AMD FirePro W5100

AMD FirePro W8100

Inventor

AMD FirePro W4100

AMD FirePro W5100

AMD FirePro W9100

Maya

AMD FirePro W5100

AMD FirePro W7100

AMD FirePro W9100

Moldflow

AMD FirePro W5100

AMD FirePro W7100

AMD FirePro W9100

Revit

AMD FirePro W2100

AMD FirePro W5100

AMD FirePro W7100

Vred

AMD FirePro W7100

AMD FirePro W8100

AMD FirePro W9100

Bentley Systems

MicroStation

AMD FirePro W2100

AMD FirePro W5100

AMD FirePro W7100

Beta CAE Systems

ANSA

AMD FirePro W5100

AMD FirePro W7100

AMD FirePro W9100

Blackmagic Design eyeon

Fusion

AMD FirePro W5100

AMD FirePro W7100

AMD FirePro W9100

CEI Inc.

EnSight

AMD FirePro W5100

AMD FirePro W7100

AMD FirePro W8100

CGTech

Vericut

AMD FirePro W4100

AMD FirePro W5100

AMD FirePro W7100

Chaos Group

V-Ray

AMD FirePro W7100

AMD FirePro W8100

AMD FirePro W9100

COMSOL

COMSOL Multiphysics

AMD FirePro W7100

AMD FirePro W8100

3DVIA Composer

AMD FirePro W4100

AMD FirePro W5100

AMD FirePro W7100

CATIA

AMD FirePro W2100

AMD FirePro W5100

AMD FirePro W7100

DELMIA

AMD FirePro W2100

AMD FirePro W5100

AMD FirePro W7100

Dassault Systèmes

9. AMD FirePro W-series for CAD + Media and entertainment

what software does your customer use? • Recommend a specific FirePro GPU

Software developer

Entry-level
(about 10% of users)

Mid-range
(about 80% of users)

High-end
(about 10% of users)

2D/Motion Media Design
3D Modeling & Animation

High-end 2D & VFX Design
Complex 3D Design
Hardware (GPU) Rendering

High-end VFX Design, Real-time 3D DesignVis, High-end 3D Animation and FX
Computational Design

SIMULIA Abaqus

AMD FireProTM W5100

AMD FireProTM W7100

AMD FireProTM W9100

Application

SolidWorks

AMD FirePro W4100

AMD FirePro W5100

AMD FirePro W7100

Esri

ArcGIS

AMD FirePro W4100

AMD FirePro W5100

AMD FirePro W7100

IMSI/Design

TurboCAD V19

AMD FirePro W4100

AMD FirePro W5100

AMD FirePro W7100

IronCAD

AMD FireProTM W2100

AMD FirePro W4100

AMD FirePro W7100

Missler Software

TopSolid

AMD FirePro W4100

AMD FirePro W5100

AMD FirePro W7100

Patran

AMD FirePro W5100

AMD FirePro W7100

AMD FireProTM W8100

SimXpert

AMD FirePro W5100

AMD FirePro W7100

AMD FirePro W8100

Allplan

AMD FirePro W4100

AMD FirePro W5100

AMD FirePro W7100

Maxon Cinema 4D

AMD FirePro W7100

AMD FirePro W8100

AMD FirePro W9100

MSC.Software
Nemetschek

OPTIS

THEIA-RT

AMD FirePro W5100

AMD FirePro W7100

AMD FirePro W9100

PTC

Creo

AMD FirePro W4100

AMD FirePro W5100

AMD FirePro W7100

Robert McNeel & Assoc.

Rhinoceros

AMD FirePro W2100

AMD FirePro W5100

AMD FirePro W7100

Side Effects

Houdini

AMD FirePro W7100

AMD FirePro W8100

AMD FirePro W9100

Femap

AMD FirePro W4100

AMD FirePro W5100

AMD FirePro W9100

AMD FirePro W4100

AMD FirePro W5100

AMD FirePro W9100

Solid Edge

AMD FirePro W4100

AMD FirePro W5100

AMD FirePro W7100

Teamcenter (Visualization)

AMD FirePro W2100

AMD FirePro W5100

AMD FirePro W7100

Tecnomatix

AMD FirePro W2100

AMD FirePro W5100

AMD FirePro W7100

SIEMENS PLM Software

SpaceClaim
The Foundry

Vero Software

SpaceClaim

AMD FirePro W2100

AMD FirePro W4100

AMD FirePro W7100

Mari

AMD FirePro W7100

AMD FirePro W8100

AMD FirePro W9100

modo

AMD FirePro W4100

AMD FirePro W5100

AMD FirePro W7100

Nuke

AMD FirePro W7100

AMD FirePro W8100

AMD FirePro W9100

Edgecam

AMD FirePro W4100

AMD FirePro W5100

AMD FirePro W7100

VISI

AMD FirePro W4100

AMD FirePro W5100

AMD FirePro W7100

10. AMD FirePro W-series (WorkStation) specifications

Entry-level CAD

Mid-range CAD

Mid-range CAD. Entry
level CGI and compute

High-end (CAD,
design viz, CGI and
compute)

Ultra high-end (design
viz, CGI, compute
and powerwalls)

AMD FirePro W2100 u

AMD FirePro W4100 u

AMD FirePro W5100 u

AMD FirePro W7100 u

AMD FirePro W8100 u

AMD FirePro W9100 u

GCN Stream Processors

320

512

768

1,792

2,560

2,816

Memory

2GB GDDR3

2GB GDDR5

4GB GDDR5

8GB GDDR5

16GB GDDR5

Memory bus

128-bit

256-bit

512-bit

Memory Bandwidth (GB/sec)

28.8

160

320

ECC

Yes

Max resolution per display output

4K (4,096 x 2,160)

Max # of displays (outputs)

2 (DisplayPort)

4 (Mini DisplayPort)

Single Precision Compute Performance

0.40 TFLOPS

0.65 TFLOPS

1.43 TFLOPS

3.30 TFLOPS

4.20 TFLOPS

5.24 TFLOPS

Double Precision Compute Performance

0.025 TFLOPS

0.040 TFLOPS

0.089 TFLOPS

0.21 TFLOPS

2.10 TFLOPS

2.62 TFLOPS

OpenGL®

4.4

Microsoft® DirectX®

OpenCL™

1.2

2.0

Operating System (32-bit & 64-bit)

Windows 8.1, Windows 7, Linux

3D Stereo

Yes (via DisplayPort)

Yes (requires additional 3D Stereo
Connector Bracket)

Yes (via dedicated port)

Framelock / Genlock

Yes (requires FirePro S400 module)

System interface

PCIe 3.0, single slot

PCIe 3.0, dual slot

Aux power

1 x 6-pin connector

(2 x 6-pin connector)

(1 x 6-pin & 1 x 8-pin connector)

Maximum Power

26w

50w

<75w

<150w

220w

275w

Warranty / lifecycle

3 year / planned five-year life cycle

3 year / planned three-year life cycle

3 year / planned three-year lifecycle

Typical workstation

HP Z440, Dell Precision Tower 5810

HP Z640

HP Z840, BOXX Ultra Workstation

Feature

1
2
3

DVI-D supported via adapter. HDMI and VGA supported by via additional adapters.
Requires Mini-DP to DP Adapter (sold separately).
Requires two physical connections and SLS mode enabled in Catalyst

4K (4,096 x 2,160)

4 (DisplayPort)

6 (Mini DisplayPort) 1

11. AMD FirePro M-series (Mobile) specifications

Entry-level CAD

Mid-range CAD

Mid-range CAD and
entry-level compute

AMD FireProTM M4150 u

AMD FireProTM M41701 / W4170M2 u

AMD FireProTM M5100 u

AMD FireProTM M6100 u

Memory

1GB GDDR5

Up to 2GB GDDR5

2GB GDDR5

Memory bus

128-bit

Memory Bandwidth (GB/sec)

Up to 64 GB/s

Up to 72 GB/s

Up to 96 GB/s

Single Precision Compute Performance

Up to 549 GFLOPS

Up to 691 GFLOPS

Up to 992 GFLOPS

Up to 1971 GFLOPS

Double Precision Compute Performance

Up to 34 GFLOPS

Up to 43 GFLOPS

Up to 62 GFLOPS

Up to 123.2 GFLOPS

OpenGL®

4.4

Microsoft® DirectX® 4

OpenCL™

2.0

Feature

HP ZBook 14 G2
WORKSTATION ULTRABOOK
14” diagonal display

HP ZBook 15u G2
WORKSTATION ULTRABOOK
15.6” diagonal display

HP ZBook 15 G2
Productivity on the go
15.6” diagonal display

HP ZBook 17 G2
Expand your creative
capabilities - 17.3” display

DEll Precision M2800
Affordable 15”
Mobile WORKSTATION

DEll Precision M4800
‘world’s most powerful’
15” workstation

DEll Precision M6800
‘world’s most powerful’
17” workstation

Panasonic ToughBook 54
‘thinnest and lightest’
semi-rugged laptop
AMD FirePro M4170 with 1GB GDDR5 memory, featured in the HP ZBook 15U G2.
AMD FirePro W4170M with 2GB GDDR5 memory, featured in the Dell Precision M2800
Support for OpenCL 1.2 enabled today; conformance expected. AMD plans to release OpenCL 2.0 drivers for enabled AMD FirePro W2100, W4100, W5100, W7100, W8100, and W9100 graphics cards in Q1 2015; conformance testing is planned at that time. Previous-generation AMD FirePro products may not support OpenCL 2.0.
4
Based on our review of the Microsoft DirectX(r) 12 specification dated July 23, 2014, we are confident that devices based on our GCN architecture will be able to support DirectX(r) 12 graphics when available. We recommend that you check AMD.com prior to purchase to confirm that a particular device will support DirectX(r) 12 graphics. Note however, any changes to the
DirectX(r) 12 specification after this date could impact or completely eliminate this ability – and AMD disclaims all liability resulting therefrom.
1

12. AMD FirePro W-SERIES for Finance and Display WallS

AMD FirePro multi display solutions
deliver graphics and video on up to six
displays with a single card. Multiple
cards can also be combined in a single
system to create large display walls.
Target industries include Financial
Services (trading), Healthcare (medical
imaging), Transportation (air traffic control),
Digital Signage, Government (control centers),
Education and Hospitality (events).

Select models are available in a spaceefficient, low-profile design so GPUs can be
deployed in a variety of form factors, from
small form factor desktops to towers and
mobile docking stations.

Number of displays vs customer requirements

Multiple 2D applications

Recommend
AMD FireProTM 2270

Recommend
AMD FireProTM 2460

Recommend AMD FirePro W600
or 2 x AMD FirePro 2460

Recommend
2 x AMD FireProTM W600

Multimedia display wall

Recommend
AMD FirePro W600

Recommend
AMD FirePro W4100

Recommend
2 x AMD FirePro W600

Display wall with support
for 3D applications

Recommend
AMD FirePro W4100*

Recommend
AMD FirePro W9100

Recommend
2 x AMD FirePro W9100

* For 3D applications that demand more performance, recommend a FirePro W5100, W7100, W8100 or W9100 (see page 10)

AMD FirePro
2270 u

AMD FirePro
2460 u

AMD FirePro
W4100 u

AMD FirePro
W600 u

AMD FirePro
W9100 u

Dual output GPU
with support for all
types of monitors

Quad output GPU for
display walls

Quad output GPU with
performance for 3D
applications

Six output GPU
with multimedia
performance for
display walls

Six output GPU
with high-end 3D
performance for
display walls

No of displays

Display connectors

DMS-59 connector with
breakout cables for dual
DisplayPort, DVI
and VGA output

Four Mini DisplayPort
outputs (DVI adapter
included, DisplayPort
adapter sold separately)

Four Mini
DisplayPort outputs

Six Mini
DisplayPort outputs

Max resolution (per display)

2,560 x 1,600

4,096 x 2,160 (4k)

Max Power / cooling type

17W / passive

20W / passive

50W / active

75W / active

275w / active

Low profile form factor

Yes

Warranty

3 year warranty

Feature

Select models draw extremely low power
and are passively cooled for silent operation.

Select models support multiple display
connectors such as DisplayPort, DVI and
VGA to make best use of existing display
technology investments. Adapters are
available for all other GPUs.

13. AMD FirePro S-SERIES for DATA CENTER (SERVERS)
The AMD FirePro S-Series GPUs are specifically designed
to be used inside a data center environment. The GPUs
are placed inside rack mounted servers to give cloud,
research and engineering firms powerful, scaleable
central processing resources for Virtual Desktop
Infrastructure (VDI) or compute deployments.
Virtual Desktop Infrastructure (VDI) u allows a single
server to run dozens of “virtual” desktops simultaneously.
AMD FirePro S-Series GPUs provide the graphics for these
virtual desktops, supporting virtualization technologies
from Citrix®, Microsoft®, VMware® and Teradici®.

PCoIP® u is a remoting protocol from Teradici®. A data
center solution typically uses a PCIe Teradici host card and
GPU for each user. The AMD FirePro R5000 combines both
Teradici technology and GPU on a single card so only one
PCIe slot is used, increasing user density in a rack server.

What does your customer want to do?

Give power users access
to a dedicated graphics
card in a virtual machine

Deliver graphics for
hundreds of virtual
machines in a datacenter

Quickly solve advanced
calculations for science,
engineering or CGI

Recommend THE FirEPro
R5000 with built in
Teradici PCoIP technology

Recommend THE
FirEPro S7000 or
FirePro S9050 for VDI

Recommend THE FirEPro
S9100 or FirePro S9150
for GPU compute

OpenCL u is the enabling technology that allows AMD
FirePro GPUs to perform compute operations. It is an open
standard and runs on many different processors (crossplatform).

Feature

Single and Double Precision support is important for
compute performance. Single Precision is needed when
accuracy is not of paramount importance (e.g. for ray
trace rendering or processing video). Double precision is
important when accuracy is critical (e.g. for engineering
or physics-based simulations).

GCN Stream Processors
Memory
(interface / bandwidth)

AMD FireProTM
R5000 u

AMD FirePro TM
S7000 u

AMD FirePro TM
S9050 u

AMD FirePro TM
S9100 u

AMD FirePro TM
S9150 u

Dedicated GPU for
each user. Up to four
users supported in a
1U server

Single-slot server
card for high density
VDI and compute
deployments

Powerful,
multifunctional card
for compute and VDI

High-performance
HPC for budget
conscious projects

Very highperformance HPC
and exceptional
performance per watt

N/A

1,280 Stream Processors

1,792 Stream Processors
(28 GCN compute units)

2,560 Stream Processors
(40 compute units)

2,816 Stream Processors
(44 GCN compute units)

2GB GDDR5
4GB GDDR5
12GB GDDR5 (ECC)
12GB GDDR5 (ECC)
16GB GDDR5 (ECC)
(256-bit / up to 102GB/s) (256-bit / up to 154GB/s) (384-bit / up to 264GB/s) (512-bit / up to 320GB/s) (512-bit / up to 320GB/s)

Floating point compute
performance (TFLOPS)

N/A

2.4 peak single-precision 3.23 peak single-precision 4.22 peak single-precision 5.07 peak single-precision
0.152 peak double-precision 0.81 peak double-precision 2.11 peak double-precision 2.53 peak double-precision

Max Power

150W

225W

235W

Interface /
cooling

PCIe 3.0 x16, Single Slot
Active heat sink

PCIe 3.0 x16, Single Slot
Passive heat sink

PCIe 3.0 x16, Dual Slot
Passive heat sink

Typical server

BOXX XDI V4

TYAN FT77A-B7059 (4U) TYAN FT77A-B7059 (4U) TYAN FT77A-B7059 (4U) TYAN FT77A-B7059 (4U)
Asus ESC4000 G3/G3S (2U) Asus ESC4000 G2 (2U)
Asus ESC4000 G2 (2U)
Asus ESC4000 G2 (2U)
Supermicro SYS-2027GR (2U) Gigabyte GS-R22PHL (2U) Gigabyte GS-R22PHL (2U) Gigabyte GS-R22PHL (2U)

14. AMD EYEFINITY FOR MULTIPLE DISPLAYS
AMD FirePro professional graphics features AMD Eyefinity1, a multi-display
technology which enables one graphics card to output high-quality visuals
on 3, 4 and even 6 displays from a single workstation or PC. Multiple
graphics cards also can be combined to create massive display walls.

How can my customer use AMD Eyefinity?

1. Single-user Workstations

Configure various combinations of landscape and portrait orientations,
with independent display resolutions and refresh rates.

Gives more visual real estate to view large scale models and multiple applications at the
same time in a single, large workspace. 3, 4 and even 6 high-res displays can be operated
simultaneously and configured independently in landscape and portrait orientations.

Multi display AMD Eyefinity ‘groups’ can be easily managed from the AMD
Catalyst Control Center, which is installed alongside the AMD FirePro driver.

2. Small Workgroups

Support for four or more displays is available on almost all FirePro GPUs,
apart from the entry-level AMD FirePro 2270 and AMD FirePro W2100, both
of which support two displays. For six displays an AMD FirePro W600 or AMD
FirePro W9100 is recommended.

1 Three monitors: landscape (3 x 1)

One extended desktop to support multi application workflows.
Up to 12,228 x 2,160 resolution.
Supported on AMD FirePro W4100 and above.

2 Three monitors: one landscape, two portrait (3 x 1)
One landscape display flanked by two portrait displays to
support multi application workflows.
Supported on AMD FirePro W4100 and above.

With a 4 or 6 display array, teams can view documents in their entirety, giving a holistic view
of project data for effective collaboration. The use of thin bezel monitors and bezel correction
in the AMD Catalyst Control Center can help give the appearance of one continuous display.

3. Large Scale Display Walls

Digital signage solutions with 6 or more displays can be found in airports and retail stores
displaying compelling multimedia content. AMD FirePro graphics can also power large-scale
3D presentations with interactive controls or projection mapping.

3 Four monitor array (2 x 2)

One extended desktop up to 8,192 x 4,320 resolution
for multi-application workflows or presentations.
Supported on AMD FirePro W4100 and above.

4 Six monitor array (3 x 2)

One big display wall up to 12,228 x 4,320 resolution for
presentations or collaborative meetings.
Supported on AMD FirePro W600 (2D) and W9100 (3D)

15. How to connect AN AMD FIREPRO GPU to a monitor
All new generation AMD FirePro GPUs use the very latest
DisplayPort 1.2 u standard to connect the GPU to a
monitor or monitors. The digital display interface can
support resolutions up to 4K (4,096 x 2,160) per display.

Which monitor ports does your customer have?

DisplayPort connectors come in two different sizes:
standard DisplayPort (a rectangular port with the bottom left
corner cut off) and Mini DisplayPort (a smaller rectangular
port with the bottom two corners cut off).

Standard DisplayPort connectors are found on most AMD
FirePro GPUs with four outputs.

Mini DisplayPort connectors are found on AMD FirePro
GPUs with six outputs and low profile four output GPUs. A
Mini DisplayPort to DisplayPort adapter is usually included.

DisplayPort can also support monitors with older display
standards (VGA, DVI and HDMI) through the use of active or
passive adapters. Some are included with the GPU.

DisplayPort

DVI

VGA

HDMI

Mini DisplayPort
(six port card)
Use standard DisplayPort
cable (with optional Mini
displayport adapter)

Standard DisplayPort
(four port card)

Use standard DVI cable
with (Mini) DisplayPort
to DVI adapter

Use standard VGA cable
with active (Mini)
DisplayPort to VGA adapter

Use standard HDMI cable
with (Mini) DisplayPort
to HDMi adapter

16. Further reading - white papers
AMD FirePro
Professional Graphics
Family Brochure
AMD FirePro™ Professional Graphics for
CAD & Engineering and Media & Entertainment
Performance at every price point.
AMD FirePro professional graphics offer breakthrough capabilities that can help maximize productivity and help lower cost and complexity —
giving you the edge you need in your business. Outstanding graphics performance, compute power and ultrahigh-resolution multidisplay
capabilities allows broadcast, design and engineering professionals to work at a whole new level of detail, speed, responsiveness and creativity.
AMD FirePro W9100

AMD FirePro W8100

With 16GB GDDR5 memory and the ability to support up to six 4K
displays via six Mini DisplayPort outputs,1 the AMD FirePro W9100
graphics card is the ideal single-GPU solution for the next generation
of ultrahigh-resolution visualization environments.

The new AMD FirePro W8100 workstation graphics card is based on
the AMD Graphics Core Next (GCN) GPU architecture and packs up
to 4.2 TFLOPS of compute power to accelerate your projects beyond
just graphics.

AMD FirePro W7100

AMD FirePro W5100

The new AMD FirePro W7100 graphics card delivers 8GB
of memory, application performance and special features
that media and entertainment and design and engineering
professionals need to take their projects to the next level.

AMD FirePro W4100

In a class of its own, the AMD FirePro
W4100 graphics card is the best choice
for entry-level users who need a boost in
graphics performance to better address
their evolving workﬂows.

The new AMD FirePro™ W5100 graphics card delivers optimized
application and multidisplay performance for midrange users.
With 4GB of ultra-fast GDDR5 memory, users can tackle moderately
complex models, assemblies, data sets or advanced visual effects
with ease.

Graphics 101 –
Simplifying the World of
Professional Graphics

click to download

AMD Catalyst™ Pro Driver
Engineered for
Reliability & Performance

A Brief Introduction to
CAD, CAE, CPU, GPU,
API, SDI, BPP, MHz, GHz,
MXM, AFR, SFR, DMU,
DCC, ISV, GLSL, AADC,
GSX, SPEC and SMPTE.

AMD Eyefinity MultiDisplay Technology
white paper

White Paper | See More and Do More
with AMD Eyeﬁnity
Multi-Display Technology
Table of Contents
INTRODUCTION

SIMPLIFYING THE WORLD
OF PROF ESSIONAL GRAPH ICS

What is AMD Eyeﬁnity Multi-Display Technology?
AMD Eyeﬁnity Multi-Display Technology Usage Scenarios

A M D PRO F ESSI O NAL G RA PHICS
IN N OVATI O N I N SO F TWA RE Q UA LI TY

Professional graphics starts with AMD
FirePro W2100 graphics, delivering
optimized and certiﬁed professional
application performance that similarlypriced consumer graphics lack.

3
5

Productivity

Commercial and Workstation

AMD FirePro W2100

Display Combinations

CAD and DCC Markets

Financial

Medical

Digital Signage

EcoSystem

Looking Forward

A reference for anyone interested in how graphics work and why they’re important, from the experts at AMD.

OpenCL™ - The Future of
Accelerated Application
Performance

AMD HD3D Pro
Technology: Stereo 3D
for Professionals

DisplayPort 1.2
Technology white paper

10-bit Video Output
Technology
white paper

ǯͳͲǦ
Introduction

White Paper | AMD HD3D Pro Technology:
Stereoscopic 3D For Professionals
Table of Contents
White Paper | OpenCL™ : The Future of Accelerated
Application Performance Is Now

Table of Contents
INTRODUCTION ................................................................................................... 2
What Is OpenCL™? ...................................................................................... 2
Changing the Game ..................................................................................... 2
GPUs: Not Just for Graphics Anymore......................................................... 2
THE “OPEN” ROAD ............................................................................................. 3
The Preferred Path to Performance ............................................................. 3

6SHFL¿F3RWHQWLDO%HQH¿WVRIDQ2SHQ$SSURDFK......................................... 3
OpenCL Has the Momentum ....................................................................... 4
HOW WE GOT HERE ........................................................................................... 5

7KH6WRU\8QWLO1RZ ..................................................................................... 5
OpenCL 1.1: The Turning Point.................................................................... 5
EXPLORING THE POSSIBILITIES ...................................................................... 5

&$'&$0$(&DQG6FLHQFH$SSOLFDWLRQV ................................................... 5

'&&0 ($SSOLFDWLRQV ................................................................................ 7
AMD: LEADING THE WAY ................................................................................... 8

6ROLG6XSSRUWIRU2SHQ&/DQG2SHQ&RPSXWLQJ ......................................... 8

$0')86,21$38V)XO¿OOLQJWKH8OWLPDWH3URPLVHRI2SHQ&/................. 9
HOW TO LEARN MORE....................................................................................... 9

White Paper | DisplayPort™ 1.2 Technology
AMD FirePro™ V7900 and V5900
Professional Graphics

INTRODUCTION

What is Stereoscopic 3D?

About this document

Professional Graphics applications of Stereo 3D

STEREOGRAPHIC 3D TERMS AND TECHNOLOGIES

Active and Passive Stereo 3D

Table of Contents

Quad-buffer Stereo

Display devices with a greater bit depth than the conventional 8-bits per color channel are rapidly
gaining popularity in application areas such as medical imaging, professional photography, graphics
design, movie production, and entertainment in general. What makes these devices attractive to a wide
array of fields is their ability to represent colors with a greater fidelity than it is possible with
conventional display devices. This means what we see in the real world more accurately matches what
we see on the screen, ensuring that design and diagnosis errors due to monitor limitations are
minimized.
In order to benefit from the increased bit depth of these display devices, graphics cards used to drive
them should be capable of outputting higher bit depth information as well. For example, if a display
device supports 10-bits per color channel input, its capacity will not be fully exploited unless the
graphics card outputs a matching bit depth. This is where AMD’s most recent series of workstation
graphics cards come into play by natively supporting the emerging standard for 10-bits per color channel
(or 30-bits per pixel) video output.
In this paper, we first emphasize the necessity of higher bit depths for color critical tasks followed by an
overview of the 10-bit monitors currently available. We then demonstrate how users can easily benefit
from this technology using AMD’s graphics cards capable of 10 bit output.

INTRODUCTION

Frame-Doubling and Frame-Multiplying

DISPLAYPORT™ 1.2

Stages of Stereo 3D presentation

High Bit-rate 2

Source

The Need for 10-bit Displays

4k x 2k Resolution

Preparation and Transmission

Stereoscopic 3D

Presentation

Multi-Stream Transport

Fitting the stages together

Maximum AMD Eyeﬁnity Multi-Display Technology Resolution

NEW STANDARDS FOR STEREO 3D

High Bit-rate Audio

LCD panels and Stereo 3D

AMD Advantage

Standards-based Stereo 3D

SUMMARY

Further Standardization

Conventional display devices use 8-bits per color channel (or 24-bits per pixel) to display images and
video. Although this amounts to more than 16 million colors, it still corresponds to a fraction of the
colors we perceive in the real-world. This is illustrated in Figure 1, where the green triangle shows the
boundaries of the sRGB 1 color space on the CIE-xy chromaticity diagram. Conventional sRGB compliant
8-bits monitors can only represent the colors that lie in this triangle, while the human eye is capable of
perceiving all the colors in the entire chromaticity diagram. This discrepancy is further emphasized by
the fact that today’s most professional cameras and printers have a color gamut larger than that of sRGB
(such as Adobe RGB 2 shown by the red triangle in Figure 1), creating a bottleneck on the display side.
Figure 2 demonstrates this problem where the blue areas in a photograph taken with the Adobe RGB
setting of a camera cannot be accurately represented on a conventional monitor.

AMD HD3D PRO - PROFESSIONAL SOLUTIONS FOR STEREO 3D

Sources Supported

Preparation and Transmission Capabilities

Stereo 3D and Multi-GPU synchronization

SUMMARY

To solve this problem, display devices can operate in a color space with a larger gamut than that of the
sRGB. This can be achieved by using purer (more saturated or monochromatic) primaries to stretch the
1

sRGB is a standard color space proposed by HP and Microsoft to allow for consistent color reproduction on typical
monitors, printers and the Internet. It has the same primary set as the HDTV also known as ITU-R BT. 709.
2
Adobe RGB is an RGB color space with a larger gamut than sRGB. It is developed by Adobe with the printing
industry in mind, as there were many colors that can be printed but not displayed by a smaller gamut color space.

17. Further reading - datasheets

click to download

GPUs for desktop Workstations

AMD FirePro W2100 u

AMD FirePro W4100 u

AMD FirePro W5100 u

AMD FirePro W7100 u

AMD FirePro W8100 u

AMD FirePro W4100 u

AMD FirePro W600 u

AMD FirePro W9100 u

AMD FirePro S9050 u

AMD FirePro S9100 u

AMD FirePro S9150 u

GPUs for Multiple Displays

AMD FirePro 2270 u

AMD FirePro 2460 u

GPUs for SERVERS (Data centers)

AMD FirePro R5000 u

AMD FirePro S7000 u

AMD FirePro W9100 u

18. Disclaimers and Attributions

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. AMD assumes no obligation to update or otherwise correct or revise this information. However, AMD reserves the right to
revise this information and to make changes from time to time to the content hereof without obligation of AMD to notify any person of such revisions or changes.
AMD MAKES NO REPRESENTATIONS OR WARRANTIES WITH RESPECT TO THE CONTENTS HEREOF AND ASSUMES NO RESPONSIBILITY FOR ANY INACCURACIES, ERRORS OR OMISSIONS THAT MAY APPEAR IN THIS INFORMATION.
AMD SPECIFICALLY DISCLAIMS ANY IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE. IN NO EVENT WILL AMD BE LIABLE TO ANY PERSON FOR ANY DIRECT, INDIRECT, SPECIAL OR OTHER CONSEQUENTIAL
DAMAGES ARISING FROM THE USE OF ANY INFORMATION CONTAINED HEREIN, EVEN IF AMD IS EXPRESSLY ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
ATTRIBUTION
© 2015 Advanced Micro Devices, Inc. All rights reserved. AMD, the AMD Arrow logo and combinations thereof are trademarks of Advanced Micro Devices, Inc. in the United States and/or other jurisdictions. Direct X, Microsoft and Windows are
registered trademarks of Microsoft Corporation in the US and other jurisdictions. OpenCL is a trademark of Apple Inc. used by permission by Khronos. PCI Express and PCIe are registered trademarks of PCI-SIG Corporation. Other names are for
informational purposes only and may be trademarks of their respective owners.

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