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Intel CAE common PlatformIntel CAE common Platform- 컴퓨팅 파워가 만든 새로운 혁신
* 박 종섭 /[email protected]
* 인텔코리아 /ESS
Intel Technical Computing
Compute enables a New Scientific Method*Technical computing and R&D workflow innovation
Iterate
• Prediction • Physical Prototyping
• Analysis• Conclusion• Refinement
• Hypothesis
Accelerates the Method
2
• Modeling & Simulation• Experiment Refinement
• Physical Prototyping
• Analysis• Conclusion• Refinement
• Hypothesis
1. Satava, Richard M. “The Scientific Method Is Dead-Long Live the (New) Scientific Method.” Journal of Surgical Innovation (June 2005).
• Prediction
To Compete, You Must Compute
Intel Technical Computing
Dyson Creates a Revolutionary FanUtilizing new scientific method
Reduced the number of costly, time-consuming physical prototypes
2.5x better fan performance while eliminating external moving parts
By investigating 10x the number of design possibilities using virtual prototyping
3
Dyson Air Multiplier Fan
Virtual prototypeSource: Ansys Advantage Volume IV, Issue 2 2010 pp. 5-7© Ansys Corp.
Intel Technical Computing
Maximizing Your Compute ROIBetter, faster, cheaper
Faster time-to-market
Better products
Lower design and production costs
Hardware deployment and
ToplineInnovation R&D$
maintenance
Software development & deploymentBiggest investment
Bottom-lineCosts
4
IT
Intel® Technical Computing
Millions of Applications… Plus YoursDelivering performance across generations and platforms
Intel Architecture ecosystem: Increasing the return and longevity of your application investment
Today
5
Development Tools
Performance/ Optimizations
Standards
Intel® Technical Computing
The Right Tool for the Job: A Continuum of ComputingHow do you get breakthroughs for your investment
Tablet
Desktop
>See a simple result
Intel® Xeon ®
Workstation
>More results, faster
>Better teamwork, Faster
turns
>More simulations,Breakthrou
gh ideas& research
>Change the world,Discover the unknown,Transformational insight
Local Cluster Computation Large Clusters
6
Common underlying architecturescales investments across technical computing platforms
Intel® Technical Computing
The Right Tools for Your WorkflowExploring 4 high ROI examples
Intel® Xeon ®
Workstation
DesktopIntel® Xeon ®
WorkstationIntel® Xeon ®
Workstation Local Cluster
7
Large Cluster Large ClusterLarge Cluster
Intel® Technical Computing
Building the Right Tool for the JobBalanced compute, storage, and interconnects based on workload
NETWORKING SOFTWARECOMPUTE STORAGE
8
Intel® Technical Computing
DreamWorks Animation WorkflowImproved animation rendering time
Enables artists to preview and evaluate scenes more quickly as changes are made
Lighting modifications are viewed in near l d f d d h
ToplineInnovation
real-time instead of rendered overnight
Enables more immediate artist and production collaboration
Reduces design environment complexity by improving workflow
Bottom-lineBenefits
9
Preserves software development investment while adopting new hardware technologies (i.e. Intel® Xeon Phi™ coprocessors)
Intel® Technical Computing
DreamWorks Animation ResultsEnables more iterations, improves movie production process
DreamWorks Animationproprietary software
Intel® Xeon® Processor E5-2600 product family enabled artist workstations
Large shared rendering
Intel® Xeon ®
Workstation“By combining Xeon E5-2600 class processors with a Xeon Phi coprocessor, we are now able to provide artists with extremely high-quality light transport simulation in large scenes at interactive
p p y
10
Large, shared rendering clusters configured with Intel® Xeon® Processor E5-2600 product family
Large Cluster Computation
gspeeds. This enables us to bring further technical innovation to bear on the ways breathtaking film imagery is created."
-- Evan Smyth, Staff Architect
Intel® Technical Computing
Monsanto WorkflowAccelerating the genome assembly process
Improved researcher productivity and decreased time to understanding seed genome
ToplineInnovation
Enabled better researcher collaboration on big data problems
Centralized and standardized compute environment on latest Intel® Xeon® processors to reduce acquisition and
Bottom-lineCosts
11
p qmaintenance costs
Controlled heating, cooling, and real estate and administrative costs
Avoided the need for auxiliary compute environments
Source: Results courtesy Monsanto Corporation, 2012
Genomics search algorithm
BLAST
Intel® Technical Computing
Monsanto ResultGetting seeds to farmers quicker with fewer resources
Intel based display device(work done on cluster)
Expanded shared cluster capacity with 100+ node Intel® Xeon® processor E5-
Desktop
28% faster BLAST workload f
12
Intel® Xeon® processor E5-2600 product family cluster• Compute capacity
expanded 61%• Rack space increased by
only 22%12
Large Cluster
performance
Research team decreased time-to-results from 2 weeks to 6 days
Source: Results courtesy Monsanto Corporation, 2012
More compelling, accurate visualization of car design
Avoid physical prototyping spin by identifying body part
Intel® Technical Computing
Audi WorkflowReal-time, photo-realistic predictive rendering
ToplineInnovation
Got the most for their Autodesk software investment with optimized
spin by identifying body part fit issues
Reduce turn-around from identifying design changes
Bottom-lineCosts
13
pperformance on Intel platforms
Intel® Xeon® Processor E5-2600 product family based solution
across workstations and clusters reduced deployment and
maintenance costsVirtual prototyped images
Images courtesy of The Audi Group, Used by permission
Intel® Technical Computing
Audi ResultsBetter, safer cars to market quicker
Upgraded 2000 workstations to latest Intel® Xeon®
Intel® Xeon ®
Workstation
to latest Intel® Xeon® processor E5-2600 product family
Local Cluster Computation
Phase 1: 450 dual-processor nodes. Phases 2 & 3 will duplicate 1,350 node visualization cluster
14
Large Cluster
Scaled Autodesk Opticore V13 on 1024 Intel® Xeon® processor E5-2600 product family Result: Reduced physical
prototypesImages courtesy of The Audi Group, Used by permission
Intel® Technical Computing
What makes a great workstation?
Intel® Xeon® Processor E5-2600 Product Family
+Concurrent interactivedesign and visualization
Intel® Xeon ®
Workstation
Intel® Xeon® Processor E5-1600 Product Family
+More complex modeling, interactive designand visualization
Intel® Xeon® Processor E3-1200 v2 Product Family
15
Trusted, Reliable Performance, Manageability
Intel® Xeon® processors: When the Results Really Matter
CAD/CAE4.1 X Faster Computational Fluids
Intel® Technical Computing
Intel® Xeon® Processor E5 family based WorkstationsReal-world workstation performance
Computational Fluids ANSYS* Fluent*
Digital Content2.1 X Faster Photorealistic Ray Tracing Luxology
16
Financial Services3.5 X FasterFSI Black Shoals &Monte Carlo workloads
Intel® Technical Computing
What makes a great HPC cluster?
Industry-leading workload performance
Intel® Xeon® processors: Ground-b ki l ld li ti
Fast, reliable access to data
Intel® Xeon® processor based storage
Performance for highly-parallel workloads while preserving software investment
breaking real-world application performance
Industry-leading energy efficiency
g
Intel® SSDs
Intel® Lustre
Fast, cost-effective data movement between nodes
Intel® True Scale fabric
17
Intel® Xeon Phi™ coprocessors:Leading performance for highly parallel workloads
Uses common Intel® Xeon ® programming models to preserve software investment
Ease of deployment and maintenance
Intel® Cluster Ready
Intel: The Architecture for Discovery
CAD/CAE FinanceEnergyLinpack Life Sciences
Intel® Technical Computing
Intel® Xeon® ProcessorsReal-world HPC performance
UP TO
1.4XUP TO
1.5XUP TO
1.5XUP TO
1.3XUP TO
2.1XRelative Geometric Mean Scores by segment
Intel® Xeon® Processor E5-2600 Family (8C, 2.7Ghz) vs. previous generation
Software and workloads used in performance tests may have been optimized for performance only on Intel microprocessors. Performance tests, such as SYSmark and MobileMark, are measured using specific computer systems, components, software, operations and functions. Any change to any of those factors may cause the results to vary. You should consult other information and performance tests to assist you in fully evaluating your contemplated purchases, including the performance of that product when combined with other products. Configurations: Intel Internal measurements October 2011, See backup for configuration details. For more information go to http://www.intel.com/performance . Any difference in system hardware or software design or configuration may affect actual performance. Copyright © 2010, Intel Corporation.
Relative Geometric Mean Scores by segmentActual performance will vary by workloadHigher is better
To Compete You Must Compute
Intel® Technical Computing
The Economic Choice to Unleash Your BreakthroughsToday and Tomorrow
Millions of Applications… Plus Yours
19
The Right Tool for Your Job
Delivering Leadership HPC PerformanceDelivering Leadership HPC Performancewith Tick Tock Modelwith Tick Tock Model
TickTick TockTock TickTick TockTock TickTick TockTock
32nm32nm 22nm22nm
AVX
14nm14nm
Intel® Xeon 5600
SandyBridge
IvyBridge Haswell Broadwell Skylake
AVX2 Intel® AVX-512*
Intel Confidential 20
Consistent and reliable cadence of industry leading architecture, process technology and capacity
Am I running an ISV
or in-house application?
In-house NoNo
Am I capable & motivated
to pursue high levels of parallelism?
Is my application ready for
high parallelism?
(see guide)
Is the Intel® Xeon Phi™ Coprocessor right for me?
Can my workload
scale to over 100 threads?
(see guide, page 11)
Contact ISV to find out if and when they will
support Xeon Phi™
Not readyor suitable
ISV
Ready
Yes Yes
No
YesYes Yes
+
Intel Confidential 21
No
Can my workload
benefit from large
vectors?(see guide, page
12)
Can my workload
benefit from more
memory bandwidth?
No
21
For more information, check out the following link:Are Xeon Phi Coprocessors Right for You?Intel Confidential
감사합니다.
