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NVIDIA MAXIMUS TECNOLOGIA MANUFATURA

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. Utilização de texturas com características reais durante o design. Dinâmica de mecânica

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NVIDIA MAXIMUS TECNOLOGIA MANUFATURA

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  1. NVIDIA MAXIMUS TECNOLOGIA MANUFATURA DESIGN COM MAIS REALISMO, MAIOR IMPACTO EM SEUS PROJETOS

  2. A visão: Design com realismo CálculosfísicosreaisInteraçãoem tempo real • Utilização de texturas com característicasreaisdurante o design. • Dinâmica de mecânica • Dinâmica de fluídos • Simulação • Propriedadesfísicas • Foto-realismo • Iluminação Global

  3. Análisesfísicas REAIS Design com interação O Design no mundo virtual de hoje + Aplicação de texturas Design com interação

  4. Etapastradicionais no Desenvolvimento do Produto Design Design Review Surface Creation Component Engineering Assembly Engineering Digital Prototype DesignSignoff ManufacturePlanning Production ComponentSimulation EngineeringSimulation Rendering Test / PhotoPrototypes PrototypeConstruction Aplicaçõesqueexigemmuitoscálculoscomputacionaismigraram das Workstations para clusters de CPU Etapas de design com soluções e gruposseparadosdemandammais tempo e sãocaraspara as empresas

  5. Workstation Tradicional Design ouSimulação. Design ouRenderização. Nunca as duas. SystemCPU OpenGL GPU =

  6. A solução! Desenho Desenho & Simulação Visualização Simulação Computação

  7. A nova Workstationcom a tecnologia NVIDIA MAXIMUS SystemCPU Design GPU Simulate GPU

  8. Reinventandoosprocessos Simulate (CPU) Design Design Time = x Simulation Time = y Traditional Workstation Design Time = x Design + Simulate MAXIMUS Workstation Simulation Time = 1/10 y

  9. Reinventandoosprocessos Simulate (CPU) Design Design Time = x Simulation Time = y Traditional Workstation Design Time = x Design Design2 Design3 Design4 + + + + Simulate Simulate2 Simulate3 Simulate4 MAXIMUS Workstation Simulation Time = 1/10 y

  10. NVIDIA® MAXIMUS ComputaçãoVisual ComputaçãoParalela • Alocaçãointeligente das GPUs • Driver unificado • Certificadapara as apps profissionais

  11. Básicapara CAE Custo-benefício MáximoDesempenho • Single CPU • 32 GB RAM* • One NVIDIA® Quadro® 2000 GPU • One NVIDIA® Tesla® C2075 GPU • Dual CPUs • 32 – 48 GB RAM • One NVIDIA® Quadro® 4000 GPU • One NVIDIA® Tesla® C2075 GPU • Dual CPUs • 48 GB RAM (or more)* • One NVIDIA® Quadro® 6000 GPU • One NVIDIA® Tesla® C2075 GPU * Requerimento de memóriabaseadopelotamanho dos projetosparaminimizar disco de I/O.

  12. Renderizaçãomáxima com NVIDIA MAXIMUS Interação:Imagens & Filmes Estilo / Desenho Industrial Styling Class-ASurface Assembly Engineering Digital Prototype DesignSignoff ManufacturePlanning Production DesignReview Test / PhotoPrototypes PrototypeConstruction Design Engineering Rendering

  13. ProcessosTípicosparaEstilo/Design Passos do desenvolvimento do estilo com a renderizaçãofotorealísticaOffline (Devagar) Styling Design 1a Render Design 1b Render Design 1c Render DesignReviews Review 1a Review 1b Review 1c Class-ASurface Design Surface • Design reviews demoraatéque as imagens e animaçõesrenderizem • Mudançasfrequentessãodesafiosfrequentes • O processo de revisão de Design écaro e levamuito tempo

  14. NVIDIA MAXIMUS para Design/Estilo Passos do desenvolvimento do estilo com a renderizaçãofotorealísticaem Tempo-Real Styling Design 1a Design 1b Design 1c DesignReviews Review 1a Review 1b Review 1c Class-ASurface Design Criação de Class-A Surface • Osprocessossãoexecutadosaomesmotempo!

  15. Exemplos de Rendering : CATIA V6 LiveRenderingOtimizadapelotecnologia NVIDIA Maximus • Visãorealísticadurante o processo de Design • Direto do CATIA V6 • Habilitadopelo NVIDIA iRay • Correçãofísica de renderização

  16. 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

  17. 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

  18. NVIDIA MAXIMUS Powered Simulation Core Engineering Styling Class-ASurface Assembly Engineering Digital Prototype DesignSignoff ManufacturePlanning Production DesignReview Design Engineering EngineeringSimulation ComponentSimulation

  19. Double the Local Simulation Performance CPU vs CPU + GPU: More than 2x the Simulation Perf. 2x the Design Candidates. Faster Interactive Design Perf. CPU + GPU Design 1a Design 2a Design 1b Design 2b Design 1c Simulate 1a Simulate 2a Simulate 1b Simulate 2b 12 Cores 6 Cores + Quadro GPU Design 1a Design 2a Design 1b Design 2b Design 1c Design 2c Design 3a Design 4a Design 3b Design 4b Design Engineering Design Engineering ComponentSimulation ComponentSimulation Simulate 1a Simulate 2a Simulate 1b Simulate 2b Simulate 1c Simulate 2c Simulate 3a Simulate 4a Simulate 3b 6 Cores + Tesla GPU

  20. NVIDIA MAXIMUS: No Loss in SolidWorks Performance… 0% Loss 25% - 53% Loss

  21. …AND With Faster ANSYS Performance… 1.5x Faster 1.9x Faster 24% Loss Benchmark: V13sp5 Model- Turbine Geometry,2.1M DOF, Static nonlinear, Direct Sparse

  22. …AND For Less Money!

  23. 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.

  24. 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

  25. 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 DesignReviews Delay Simulate 1a Delay Simulate 1b Delay Simulate 1c ComponentSimulation Outsourcedprototype Outsourced • Design reviews wait for image and animation rendering • Simulation has to be outsourced to keep workstations available

  26. Typical Small & Medium Businesses Local Simulation Removes Delay. Adds Confidence for No Prototype! I-Design Design 1a Review 1a Design 1b Review 1b Design 1c Review 1c DesignReviews Simulate 1a Simulate 1b Simulate 1c Manufacturing Straight to Production ComponentSimulation Everything done in-house without losing productivity. Often no prototypes required!

  27. Entry to CAE on GPU Price-Performance Max Performance • Single CPU • 32 GB RAM* • One NVIDIA® Quadro® 2000 GPU • One NVIDIA® Tesla® C2075 GPU • Dual CPUs • 32 – 48 GB RAM • One NVIDIA® Quadro® 4000 GPU • One NVIDIA® Tesla® C2075 GPU • Dual CPUs • 48 GB RAM (or more)* • One NVIDIA® Quadro® 6000 GPU • One NVIDIA® Tesla® C2075 GPU * Memory requirements dictated by problem size to minimize disk I/O.

  28. NVIDIA® Maximus™ A New Era in Workstation Computing GPU Horsepower 10X CPU Horsepower Efficient Multi-Tasking • Higher Performance • Widely Supported • Tesla & Quadro board • certifications • Global OEM system • certifications • All leading CAD & CAE ISVs • Up to 4x faster simulation • Up to 9x faster rendering • 100% interactive designperformance while renderingor simulating • Design AND Simulate • Design AND Render • Seamless Experience Immediate Availability from Dell, HP, Lenovo, FTS - Nov 14th

  29. Backup Slides

  30. Superior Performance NVIDIA®Quadro® 5000 GPU QuadroFX 4800 QuadroFX 4600 3.5x Quadro 4000 QuadroFX 3800 3.3x QuadroFX 3700 Quadro 2000 QuadroFX 1800 QuadroFX 1700 3.2x 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.

  31. ANSYS and SIMULIA/AbaqusMore than Twice the Design Candidates. Up to 4.2x Faster. Up to 4.2x Faster with NVIDIA GPU Up to 3.5x Faster with NVIDIA Tesla GPU 4 CPU Cores 2 CPU Cores 4 CPU Cores +Tesla C2075 8 CPU Cores 2 CPU Cores 8 CPU Cores +Tesla C2075 Benchmark: V13sp-5 Model- Turbine Geometry2.1M DOF, Static Nonlinear, Direct Sparse CPU: 2 x Westmere Xeon 5670 at 2.93 GHz Benchmark: s4b Model- Engine Geometry, 5M DOFStatic nonlinear, Direct Sparse CPU: Westmere Xeon 5680 at 3.33 GHz

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