Mais conteúdo relacionado HPC Parametric Computing for CFD - Customer Examples (4 of 4)1. © 2014 ANSYS, Inc. July 11, 20141
Customer Examples of High-Performance
Parametric Computing for CFD
Wim Slagter, Ph.D
ANSYS, Inc.
Series of 4 Presentations on HPC
1: High-Performance Parallel Computing for FEA
2: High-Performance Parallel Computing for CFD
3: High-Performance Parametric Computing for FEA
4: High-Performance Parametric Computing for CFD
2. © 2014 ANSYS, Inc. July 11, 20142
High Performance Computing (HPC) at ANSYS:
An ongoing effort designed to remove
computing limitations from engineers who
use computer aided engineering in all phases
of design, analysis, and testing.
It is a hardware and software initiative!
HPC Defined
3. © 2014 ANSYS, Inc. July 11, 20143
Why HPC?
Impact product design
Enable large models
Allow parametric studies
Turbulence
Combustion
Particle Tracking
Assemblies
CAD-to-mesh
Capture fidelity
Multiple design ideas
Optimize the design
Ensure product integrity
4. © 2014 ANSYS, Inc. July 11, 20144
Why HPC?
Results indicate very substantial returns for investments in HPC:
$356 dollars on average in revenue per dollar of HPC invested
$38 dollars on average of profits (or cost savings) per dollar of HPC invested
Key Findings: Financial ROI Results
Source: IDC report “Creating Economic Models Showing the Relationship Between Investments
in HPC and the Resulting Financial ROI and Innovation”; October 2013, IDC #243296, Volume: 1.
5. © 2014 ANSYS, Inc. July 11, 20145
Take Advantage of the HPC Revolution
Recent advances have revolutionized the
computational speed available on the desktop
• Multi-core processors
o Every core is really an independent processor
• Large amounts of RAM
• SSDs
• GPUs
6. © 2014 ANSYS, Inc. July 11, 20146
Typical HPC Growth Path
Cluster UsersDesktop User
Workstation and/or
Server Users
7. © 2014 ANSYS, Inc. July 11, 20147
Our HPC Solutions for CFD
HPC-enabled solutions:
• Fluid Dynamics (bundled and solver) products:
o Fluent, CFX, CFD-Flo, CFD Professional, Icepak, Polyflow
HPC processing solutions for running:
• A simulation – in parallel (simultaneously) – on multiple cores:
o ANSYS HPC, ANSYS HPC Pack, ANSYS HPC Workgroup
• Parametric simulations on multiple cores simultaneously:
o ANSYS HPC Parametric Pack
8. © 2014 ANSYS, Inc. July 11, 20148
High-Performance Parametric Computing
9. © 2014 ANSYS, Inc. July 11, 20149
Summary
Design Impact
HPC Parametric
ANSYS provides a systematic approach to helping
engineers to evaluate multiple product design ideas
across a range of conditions and design parameters
within a single environment, leading to enhanced
product performance and integrity.
Enhance product performance faster
Ensure product integrity
Increase development speed
10. © 2014 ANSYS, Inc. July 11, 201410
Application Example
Objective
Optimize race car performance by predicting
aerodynamics of the air intake system.
ANSYS Solution
• The Coburg Automobile Team (CAT) generated a
parameterized CAD model, and improved the car’s air
intake system using ANSYS CFD within the parametric
ANSYS Workbench environment
• With an automatic optimization loop in ANSYS
Workbench, CAT Racing optimized the number of
guide vanes, their opening angle of the air box and
other parameters.
Design Impact
The new air intake system generated the correct amount
of torque at the right speed which enabled CAT Racing
to win two second-place finishes.
C-10 (old) C-12 (new)
Benefit of HPC Parametric
- Enhance Product Performance Faster
Click here to read the full story
11. © 2014 ANSYS, Inc. July 11, 201411
Application Example
Objective
Speedup the optimization process of a wing design.
Conventional methods typically take a couple of months.
ANSYS Solution
• Piaggio Aero Industries teamed with the University of
Rome Tor Vergata to validate a new optimization
method that generates a single mesh and morphs it
to any new geometry.
• ANSYS DesignXplorer was used to parametrically
drive RBF Morph to map out the complete design
space, identify optimal design, and validate its
robustness in just a few weeks.
Design Impact
With ANSYS software, the design optimization took a
couple of weeks, less than a tenth of the time required
to optimize the design using conventional methods.
Benefit of HPC Parametric
- Increase Development Speed
Images courtesy of Piaggio Aero Industries Click here to read the full story
12. © 2014 ANSYS, Inc. July 11, 201412
Problem Description
• Improve mixing while reducing energy
• Design objective:
– Optimize the inlet velocities within their operating limits so that both
temperature spread at the outlet and pressure drop in the vessel are minimized
• Input Parameters: fluid velocity at the cold and hot inlet (8 Design Points)
• Detail:
– K-Epsilon Model with Standard Wall Functions
– 52,000 nodes and 280,000 elements
– Hardware: HP workstation with dual Intel® Xeon® E5-2687W
(3.10 GHz, 16 cores), 128 GB memory
Licensing Solution
• 1 ANSYS Fluent
• 2 ANSYS HPC Parametric Packs
Result/Benefit
• ~4.8x speedup over sequential execution
• Easier and fully automated workflow
Acknowledgment: Paul Schofield and Jiaping Zhang, ANSYS Houston
HPC Parametric Scaling of ANSYS Fluent
- Evaluating Boundary Conditions of Mixing Vessel
13. © 2014 ANSYS, Inc. July 11, 201413
ANSYS Advantages
• Automated, parametric, persistent
Workbench simulation workflow –
scripting not required!
• Fully integrated design exploration and
optimization capabilities with ANSYS
DesignXplorer
– Easy to use
– Wide variety of advanced technologies
(correlation, DOE, Response Surface,
Optimization, Six Sigma analysis, etc.)
• Cost effective, scalable licensing for
simultaneous parametric design studies
HPC Parametric
- Final Remarks
14. © 2014 ANSYS, Inc. July 11, 201414
Watch recorded webinars by clicking below:
• Understand and Improve Your Design Faster with CFD
• Intel Technologies Enabling Faster, More Effective Simulation
• Why HPC for ANSYS Mechanical and CFD
Other recorded webinars can be found here!
Read more on Robust Design initiatives over here
Connect with me on LinkedIn by clicking on Wim Slagter
Further Information