NVIDIA MAXIMUS TECNOLOGIA
MANUFATURA
DESIGN COM MAIS REALISMO,
MAIOR IMPACTO EM SEUS PROJETOS
A visão: Design com realismo
Cálculos físicos reais
Interação em tempo real
 Dinâmica de mecânica
 Dinâmica de fluídos
 Simulação
Utilização de texturas com
características reais durante o
design.
 Propriedades físicas
 Foto-realismo
 Iluminação Global
O Design no mundo virtual de hoje
Análises físicas REAIS
Design com interação
+
Aplicação de texturas
Design com interação
Etapas tradicionais no
Desenvolvimento do Produto
Design
Design
Review
Rendering
Surface
Creation
Component
Engineering
Assembly
Engineering
Component
Simulation
Digital
Prototype
Engineering
Simulation
Design
Signoff
Manufacture
Planning
Test / Photo
Prototypes
Production
Prototype
Construction
Aplicações que exigem muitos cálculos computacionais migraram das Workstations para clusters de
CPU
Etapas de design com soluções e grupos separados demandam mais tempo e são caras para as empresas
Workstation Tradicional
Design ou Simulação. Design ou Renderização. Nunca as duas.
System
CPU
OpenGL
GPU
=
A solução!
Visualização
Desenho
Desenho & Simulação
Simulação
Computação
A nova Workstation
com a tecnologia NVIDIA MAXIMUS
System
CPU
Design
GPU
Simulate
GPU
Reinventando os processos
Design
Simulate (CPU)
Design Time = x
Simulation Time = y
Traditional
Workstation
Design Time = x
Design
+
Simulate
MAXIMUS
Workstation
Simulation Time = 1/10 y
Reinventando os processos
Design
Simulate (CPU)
Design Time = x
Simulation Time = y
Traditional
Workstation
Design Time = x
Design
+
Simulate
MAXIMUS
Workstation
Simulation Time = 1/10 y
Design2
Design3
Design4
Simulate2
Simulate3
Simulate4
+
+
+
NVIDIA® MAXIMUS
Computação Visual
Computação Paralela
Alocação inteligente das GPUs
Driver unificado
Certificada para as apps profissionais
Básica para CAE
Single CPU
32 GB RAM*
One NVIDIA® Quadro®
2000 GPU
One NVIDIA® Tesla®
C2075 GPU
Custo-benefício
Dual CPUs
32 – 48 GB RAM
One NVIDIA® Quadro®
4000 GPU
One NVIDIA® Tesla®
C2075 GPU
Máximo
Desempenho
Dual CPUs
48 GB RAM (or more)*
One NVIDIA® Quadro®
6000 GPU
One NVIDIA® Tesla®
C2075 GPU
* Requerimento de memória baseado pelo tamanho dos projetos para minimizar disco de I/O.
Renderização máxima com NVIDIA MAXIMUS
Interação:
Imagens & Filmes
Estilo / Desenho Industrial
Styling
Design
Review
Rendering
Class-A
Surface
Design
Engineering
Assembly
Engineering
Digital
Prototype
Design
Signoff
Manufacture
Planning
Test / Photo
Prototypes
Production
Prototype
Construction
Processos Típicos para Estilo/Design
Passos do desenvolvimento do estilo com a renderização fotorealística Offline (Devagar)
Styling
Design 1a
Render
Design 1b
Render
Design 1c
Render
Design
Reviews
Review 1a
Review 1b
Review 1c
Class-A
Surface Design
Surfac
Design reviews demora até que as imagens e animações renderizem
Mudanças frequentes são desafios frequentes
O processo de revisão de Design é caro e leva muito tempo
NVIDIA MAXIMUS para Design/Estilo
Passos do desenvolvimento do estilo com a renderização fotorealística em Tempo-Real
Styling
Design 1a
Design 1b
Design 1c
Design
Reviews
Review 1a
Review 1b
Review 1c
Class-A
Surface Design
Criação de Class-A Surface
Os processos são executados ao mesmo tempo!
Exemplos de Rendering : CATIA V6 LiveRendering
Otimizada pelo tecnologia NVIDIA Maximus
Visão realística durante o
processo de Design
Direto do CATIA V6
Habilitado pelo NVIDIA iRay
Correção física de renderização
Customer Impact – Mercedes Benz
“We always start with really ambitious ideas. Last
year, we were forced to compromise, eliminating a
lot of great features and dumbing things down
because our computer technology wasn’t fast
enough to perform the design and rendering we
needed. This year was an entirely different story.
The NVIDIA Maximus-powered system gave us the
time to explore different options creatively, which
shows in the quality of this year’s entry. With the
parallel processing capabilities enabled by the
NVIDIA Maximus systems, we can now be 10 times
more creative. In a given amount of time, we can
explore so many different options and get to a
better end product.”
Alan Barrington, Designer Mercedes-Benz Advanced
Design Center California
Customer Impact – Cleat Inc.
“The previous workstation took about ten minutes
to change the color of a wheel. In the NVIDIA
Maximus environment, NVIDIA iray runs smoothly
and at high speed, thus improving our workflow. It
can complete rendering in about 30 seconds. The
amount of speed increase is overwhelming."
Mr. Yamashita, President of Cleat
NVIDIA MAXIMUS Powered Simulation
Core Engineering
Styling
Design
Review
Class-A
Surface
Design
Engineering
Assembly
Engineering
Component
Simulation
Digital
Prototype
Engineering
Simulation
Design
Signoff
Manufacture
Planning
Production
Double the Local Simulation Performance
CPU vs CPU + GPU: More than 2x the Simulation Perf. 2x the Design Candidates. Faster Interactive Design Perf.
Design
Engineering
CPU + GPU
Design 1a
Component
Simulation
Design 2a
Design 1b
Simulate 1a
Design 2b
Simulate 2a
Design 1c
Simulate 1b
Simulate 2b
12 Cores
Design
Engineering
6 Cores + Quadro GPU
Design 1a
Component
Simulation
Design 2a
Design 1b
Design 2b
Design 1c
Design 2c
Design 3a
Design 4a
Design 3b
Design 4b
Simulate
1a
Simulate
2a
Simulate
1b
Simulate
2b
Simulate
1c
Simulate
2c
Simulate
3a
Simulate
4a
Simulate
3b
6 Cores + Tesla GPU
NVIDIA MAXIMUS: No Loss in SolidWorks
Performance…
120%
0% Loss
100%
100%
80%
Traditional Workstation
25% - 53% Loss
60%
SolidWorks
Benchmark
Maximus Workstation
47%
40%
20%
0%
SolidWorks
SolidWorks with ANSYS
…AND With Faster ANSYS Performance…
ANSYS Time Alone
ANSYS Time with SolidWorks
0
100
Seconds to Complete
ANSYS Benchmark
(Time to Completion)
200
300
1.5x Faster
400
500
1.9x Faster
348
365
Traditional Workstation using 12 CPU Cores
Maximus Workstation using 6 CPU Cores + GPU
529
600
24% Loss
692
700
Benchmark: V13sp5 Model- Turbine Geometry,
2.1M DOF, Static nonlinear, Direct Sparse
800
…AND For Less Money!
Total Solution Cost
120%
100%
80%
Traditional Workstation running
ANSYS on 12 CPU Cores
Maximus Workstation running
ANSYS on 6 CPU Cores + GPU
60%
40%
20%
0%
Traditional Workstation running
ANSYS on 12 CPU Cores
Maximus Workstation running
ANSYS on 6 CPU Cores + GPU
Customer Impact – Liquid Robotics
“If you wanted to do anything else while running
a simulation or modeling, you were out of luck.
You either got a cup of coffee or worked on
something in the shop once the computer was
using all its processing power running one of these
programs.”
“The real advantage of the Maximus technology is
flexibility and increased productivity. It’s a
tremendous tool to allow my engineers to be
flexible, to multitask, and to be more productive
because they’re not waiting on computational
power, period.”
Tim Ong, VP Mechanical Engineering for Liquid
Robotics.
Customer Impact - Astrobotics
“The NVIDIA Maximus-powered system is like
getting three people’s worth of use on a single
machine. This system is a beast. We haven’t yet
found anything it can’t handle, even
simultaneous CAD, analysis, and additional
number crunching in remote rendering jobs. We
can do all our highly complex analysis or
rendering without interrupting other work going
on locally, and we are now able to do some very
useful and interesting investigations with Ansys
that wouldn’t have been possible before.”
Jason Calaiaro, Director of Information Systems
for Astrobotic Technology
Typical Small & Medium Businesses
In-house Design and Engineering. Outsourced Simulation.
I-Design
Design 1a
Render
Review 1a
Design 1b
Render
Review 1b
Design 1c
Render
Review 1c
Design
Reviews
Component
Simulation
Delay
Simulate 1a
Delay
Simulate 1b
Delay
Simulate 1c
Outsourced
prototype
Outsourced
Design reviews wait for image and animation rendering
Simulation has to be outsourced to keep workstations available
Typical Small & Medium Businesses
Local Simulation Removes Delay. Adds Confidence for No Prototype!
I-Design
Design
Reviews
Component
Simulation
Design 1a
Review 1a
Simulate 1a
Design 1b
Review 1b
Simulate 1b
Design 1c
Review 1c
Simulate 1c
Manufacturing
Straight to Production
Everything done in-house without losing productivity. Often no prototypes required!
Entry to CAE on GPU
Single CPU
32 GB RAM*
One NVIDIA® Quadro®
2000 GPU
One NVIDIA® Tesla®
C2075 GPU
Price-Performance
Dual CPUs
32 – 48 GB RAM
One NVIDIA® Quadro®
4000 GPU
One NVIDIA® Tesla®
C2075 GPU
* Memory requirements dictated by problem size to minimize disk I/O.
Max Performance
Dual CPUs
48 GB RAM (or more)*
One NVIDIA® Quadro®
6000 GPU
One NVIDIA® Tesla®
C2075 GPU
NVIDIA® Maximus™
A New Era in Workstation Computing
GPU Horsepower
10X
CPU Horsepower
Efficient Multi-Tasking
 Design AND Simulate
 Design AND Render
 Seamless Experience
Higher Performance
 Up to 4x faster simulation
 Up to 9x faster rendering
 100% interactive design
performance while rendering
or simulating
Immediate Availability from Dell, HP, Lenovo, FTS - Nov 14th
Widely Supported
 Tesla & Quadro board
certifications
 Global OEM system
certifications
 All leading CAD & CAE ISVs
Backup Slides
Superior Performance
NVIDIA® Quadro® 5000 GPU
Quadro FX 4800
Quadro FX 4600
3.5x
Quadro 4000
Quadro FX 3800
3.3x
Quadro FX 3700
Quadro 2000
Quadro FX 1800
Quadro FX 1700
0.00
0.50
1.00
3.2x
1.50
2.00
2.50
3.00
3.50
4.00
4.50
Results obtained by running industry accepted standard graphics benchmark tests (SPECViewperf® 11) for SolidWorks, comparing Quadro 4000 or 2000 to Quadro FX
1700. The comparison is based on standard industry workstations representative of when each particular graphics product was launched. n: Resolution of 1900 x 1200,
Windows Win 7, 64 Bit, System 1P XEON 3.3GHz, 6GB Memory. n-2: Resolution of 1900 x 1200, WinXP x64, 1x 3GHz Core2 Quad (QX9650) 4GB.
ANSYS and SIMULIA/Abaqus
More than Twice the Design Candidates. Up to 4.2x Faster.
Up to 4.2x Faster
with NVIDIA GPU
4
3
2
1
0
2 CPU Cores
8 CPU Cores
8 CPU Cores +
Tesla C2075
Benchmark: V13sp-5 Model- Turbine Geometry
2.1M DOF, Static Nonlinear, Direct Sparse
CPU: 2 x Westmere Xeon 5670 at 2.93 GHz
Relative Performance scale to Baseline
Relative Performance scale to Baseline
5
Up to 3.5x Faster
with NVIDIA Tesla GPU
4
3
2
1
0
2 CPU Cores
4 CPU Cores
4 CPU Cores +
Tesla C2075
Benchmark: s4b Model- Engine Geometry, 5M DOF
Static nonlinear, Direct Sparse
CPU: Westmere Xeon 5680 at 3.33 GHz