03.12.2013 :: ::
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::
Current Research Projects ath the HLRS from Drug Production over Green-IT to Medical Simulations
Uwe Wössner, HLRS
SEAIP 2013
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
THE HLRS SYSTEMS
SEAIP 2013
Stuttgart
NEC Nehalem (1400x4/8)
Cray XC30, XK6, XD1 SUN Fire 2900 (48x2)
Ulm
NEC Asama (64)
CAVE
IBM x3755
(144x2)
IBM HSM > 2 PB
NEC SX-9 (156)
Hermit Cray XE6(7000x16)
Dalco Vis-Cluster (24*8+16*4)
NEC Sandybridge (576x8)
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
NEW HLRS SYSTEM (CRAY XE6 „HERMIT“)
SEAIP 2013
• 2011
– AMD Interlagos
• @ 2.3GHz 16 Cores
– 113.000 Cores
– 1 PF/s Peak
– 250-300 TF/S application performance
– 100 TB main memory
– 2.7 PB storage
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
:: SEAIP 2013
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
INDUSTRIAL USAGE
SEAIP 2013
• Bertrandt
• BTB
• Daimler
• Kärcher
• Mahle
• Porsche
• RECOM
• Transsolar
• Stellba
• Optima Pharma
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
NEW FIVE SIDED CAVE
SEAIP 2013
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
Go
• 5 ProjectionDesign
F35 AS3D
• 1920x1200
• Single chip DLP
• 0.8/1 wide angle lens
CAVE PROJECTORS
SEAIP 2013
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
:: SEAIP 2013
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
Go
• 22 Nodes + 8 Nodes
• 2 Intel Sandybridge CPUs/Node
• NVIDIA K5000 / NVIDIA K6000 GPUs
• 256 GB,32 GB Head nodes/Render nodes
• QDR Infiniband
• External NICs: 10GigE
• Closed loop water cooled rack by
Schäfer/Stulz
• 1LNET Router to Cray fs
CAVE CLUSTER
SEAIP 2013
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
Go
• 9 UE 55A 3D LCD Displays
• 1920x1080 Full HD 3D (HDMI
1.4a)
• 11 K5000 GPUs
3D TILED DISPLAY
SEAIP 2013
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
:: SEAIP 2013
Product development/Optimization
Construction Physical Prototype Analysis
Construction Simulation Analysis
V i r t u a l P r o t o t y p e s
H y b r i d P r o t o t y p e s
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
BUILDING BLOCKS OF A WORKSPACE
SEAIP 2013
Virtual Reality (VR) Augmented Reality (AR)
Hybrid Prototypes
VR Userinterface (VRUI)
Tablet-PC (TabletUI)
Tangible Interface
Visualization Simulation
Multi Touch
Desktop
User Interface
Workspace
Tools
03.12.2013 :: ::
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::
COLLABORATIVE ENVIRONMENTS
SEAIP 2013
Virtual Reality (VR) Augmented Reality (AR)
Hybrid Prototypes
VR Userinterface (VRUI)
Tablet-PC (TabletUI)
Tangible Interface
Visualization Simulation
Multi Touch
Desktop
User Interface
Workspace
Tools
Virtual Reality (VR) Augmented Reality (AR)
Hybrid Prototypes
VR Userinterface (VRUI)
Tablet-PC (TabletUI)
Tangible Interface
Visualization Simulation
Multi Touch
Desktop
User Interface
Workspace
Tools
Virtual Reality (VR) Augmented Reality (AR)
Hybrid Prototypes
VR Userinterface (VRUI)
Tablet-PC (TabletUI)
Tangible Interface
Visualization Simulation
Multi Touch
Desktop
User Interface
Workspace
Tools
Virtual Reality (VR) Augmented Reality (AR)
Hybrid Prototypes
VR Userinterface (VRUI)
Tablet-PC (TabletUI)
Tangible Interface
Visualization Simulation
Multi Touch
Desktop
User Interface
Workspace
Tools
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
COVISE COLLABORATIVE VISUALIZATION AND SIMULATION ENVIRONMENT
SEAIP 2013
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
:: SEAIP 2013
Virtual Reality
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
COAL PARTICLE VISUALIZATION
SEAIP 2013
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
OPENCOVER COVISE VIRTUAL ENVIRONMENT RENDERER
SEAIP 2013
Features:
– Flexible plugin system
– Support for projection based VR, tiled Displays and HMDs
– Augmented Reality
– CSCW
– Volume rendering
– VRML97
– 3D VR GUI (VRUI)
– Parallel rendering
covise_lib
OpenCOVER
VRUI
VRBClient
OpenSceneGraph
Volumen- Rendering
render_lib
Vic
ARToolKit
Plugin- Support
VRML97
Tracker
Simulation and Visualization of the Airflow in Clean Rooms Bärbel Große-Wöhrmann, Uwe Wössner, High Performance Computing Center Stuttgart (HLRS)
Ralph Eisenschmid, OPTIMA pharma GmbH
03.12.2013 :: ::
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::
WHY SIMULATING THE AIRFLOW IN CLEAN ROOMS?
Pharma Forum 2013
Design:
How to avoid the
• pollution of vails?
• contamination of staff?
Testing and justification
03.12.2013 :: ::
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::
WHY SIMULATING THE AIRFLOW IN CLEAN ROOMS?
Pharma Forum 2013
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
OPENFOAM® - A TOOLBOX FOR CFD
Pharma Forum 2013
Mesh generation (SnappyHexMesh)
Initial and boundary conditions
Surface data in STL format
Solver
Post-processing
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
OPENFOAM® - A TOOLBOX FOR CFD
Pharma Forum 2013
Mesh generation
Initial and boundary conditions
Solver
Post-processing
/*--------------------------------*- C++ -*-------------------------*\
| ========= | |
| \\ / F ield | OpenFOAM: The Open Source CFD Toolbox |
| \\ / O peration | Version: 2.1.1 |
| \\ / A nd | Web: www.OpenFOAM.org |
| \\/ M anipulation | |
\*------------------------------------------------------------------*/
FoamFile
{
version 2.0;
format ascii;
class volScalarField;
object p;
}
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
dimensions [0 2 -2 0 0 0 0];
internalField uniform 0;
boundaryField
{
inlet
{
type zeroGradient;
}
outlet
{
type fixedValue;
value $internalField;
}
03.12.2013 :: ::
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::
OPENFOAM® - A TOOLBOX FOR CFD
Pharma Forum 2013
Mesh generation
Initial and boundary conditions
Solver
Post-processing
/*--------------------------------*- C++ -*-------------------------*\
| ========= | |
| \\ / F ield | OpenFOAM: The Open Source CFD Toolbox |
| \\ / O peration | Version: 2.1.1 |
| \\ / A nd | Web: www.OpenFOAM.org |
| \\/ M anipulation | |
\*------------------------------------------------------------------*/
FoamFile
{
version 2.0;
format ascii;
class dictionary;
object controlDict;
}
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
application simpleFoam;
startFrom startTime;
startTime 0;
stopAt endTime;
endTime 500;
deltaT 1;
writeControl timeStep;
writeInterval 100;
Steady-state solver for incompressible, turbulent flow
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
OPENFOAM® - A TOOLBOX FOR CFD
Pharma Forum 2013
Mesh generation
Initial and boundary conditions
Solver
Post-processing
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
OPENFOAM® - RUNNING IN PARALLEL
Pharma Forum 2013
Parallel solver
Domain decomposition
Parallel mesh generation
Reconstruction
Block Mesh
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
OPENFOAM® - RUNNING IN PARALLEL
Pharma Forum 2013
Parallel solver
Domain decomposition
Parallel mesh generation
Reconstruction
Mesh generation
20 min
20 min
Serial tools: 40 min
Clean room simulations example, one run: • 12 million mesh cells • Memory requirement: 96 GByte • 64 compute cores • Queuing time: 5 ... 600 minutes
03.12.2013 :: ::
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:: SEAIP 2013
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
VR VISUALIZATION OF A CAPPER
SEAIP 2013
Capper Bottle
03.12.2013 :: ::
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::
INTERACTIVE SIMULATIONS
SEAIP 2013
Mesh generation
Geometry generation
Domain decomposition
Simulation
Post Processing
Visualization
Geometry modification
Mesh refinement
Number of domains / algorithm
Boundary condition
Interactive visualization
< 1
Min
ute
03.12.2013 :: ::
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::
SIMULATION COUPLING
SEAIP 2013
Code Type Coupling mode
StarCD CFD SimLib, Fortran user subroutine, Loose
CFX CFD SimLib, Fortran user subroutine, Loose
Fluent CFD SimLib, C user subroutine, Loose
OpenFoam CFD SimLib, C++ user subroutine, Loose
Fidap CFD Script, Black-Box, Loose
Fenfloss CFD SimLib, C Plugin, Loose
Diablo Diffusion in metal alloys Script, Black-Box, Loose
Trans3D Laser ablation COVISE Modul C++, Tight
Uranus CFD Socket interface, coupling module, C++, Loose
SunFace Radiation COM/DCOM, coupling module, C++, Hybrid
03.12.2013 :: ::
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::
INTERACTIVE SIMULATION IN COVISE
SEAIP 2013
Grid generation
Domain decomposition Simulation
Post processing
Rendering
03.12.2013 :: ::
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::
VIRTUAL WATER TURBINE TEST-BED
SEAIP 2013
Simulation of the river power
station Kiebingen, Neckar
Through interactive simulation,
the output could be increased by
30%, simply by substituting the
runner and wicked gate
03.12.2013 :: ::
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::
VIRTUAL TURBINE TEST-BED
SEAIP 2013
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
• EU-Projekt: FP7 ICT Call 7
• Budget: 3,614,210€ (funded: 2,645,000€)
• Duration: 30 Months
• Start: Oktober 2011
• Consortium
34 CoolEmAll – eine Einführung
03.12.2013 :: ::
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::
GOAL AND MAIN RESULTS
35 2nd Review Meeting, Brussels, 13.11.2013
Goal: To enable data centre designers and operators to reduce its
energy impact combining optimization of IT, cooling and
workload management
Main Results:
• ComputeBox Blueprints and Data Centre Efficiency Building Blocks (DEBBs)
abstracting IT infrastructure on different granularity level n
Levels: node, node-group (RECS), ComputeBox1 (rack), ComputeBox2 (DC)
• SVD-Toolkit allowing analysis and optimisation of modular IT infrastructure
(level n+1) built of DEBBs (level n), taking into account (input parameters):
• HW-Models (represented by DEBBs on level n)
• Workloads and Application Models
• Workload- & Resource Management Policies
• Cooling methods and environmental conditions
• To be achieved by combining:
(i) coupled simulations of various workloads and applications,
(ii) CFD simulation to analyze airflow and heat transfer in a data centres
(iii) visualization of results
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
Deep insight
into workload
execution and
hw behaviour
Adequate
metrics
Savings
potential
36
Depending on a use case:
• Rack re-arrangement: 25% for racks cooled by CRAC
• Capacity management: 20% + performance gains
• Free cooling: 30% for free cooling, up to 4% per 0.5C increase
Workload and Resource Simulation
CFD Simulation
Metrics Calculation
260
280
300
320
340
360
380
400
420
440
460
10:58 10:59 10:59 11:00 11:00 11:01 11:01 11:02 11:02
Po
we
r u
se
d
Date\nTime
Linpack 4c
Daemon outputReal output
03.12.2013 :: ::
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::
Comparison of real
measurements with
simulation models
Definition of open Data
Center Efficiency
Building Blocks
USE OF PREDICTABLE TRENDS USING DCIM AND MODELING TOOLS
37 Simulations based on real measurements and re-usable building blocks
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
The best rather
than just highest
utilisation
Minimizing
utilisation along
with smart
resource
mamagement
Hierarchical
monitoring and
aggregation of
metrics
EFFICIENT MONITORING AND INTELLIGENT WORKLOAD AND RESOURCE MANAGEMENT
38
CPU-intensive Application
Data-intensive Application
Web Server Application
CR
AC
C
RA
C
03.12.2013 :: ::
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::
PROJECT HIGHLIGHTS IN 2013
SEAIP 2013
• Specification and simulation of node groups
03.12.2013 :: ::
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::
SVD - Toolkit
COVISE / Simulation Workflow
CO
VIS
E Simulation
Post-Processing
Web
Serv
ice Visualisation
Pipeline
•Modules•Parameters•Links
•Events
Even
t Q
ueu
es
•Web Server
DEBB
Airthroughput
Powerusage
CF
D S
olv
er
(Op
en
Fo
am
/
An
sy
s C
FX
)
Data Center Workload
and Resource
Management
Simulator
Sample points
histogram
Data
(1)
(2) (3)
Airthroughput
Powerusage(4) (4)
(5)
(6)
Simulation
parameters
Simulation
results
(8)
Interaction
(9)
(10)
(11)
(7)
Metrics Calculator
MO
P G
UI
CoolEmAll Web GUI
Simulation
Interaction &
Visualisation
(COVISE)
(MOP) Database
Simulation Workflow (COVISE)
- Components
- Power profile
- Air thr. profile
- ge
om
etry
- po
sitio
n
DEBB
Repository
Workload
Repository
Application
Profile
Repository
Application
(with Paremeters)
Application
ProfilerRepository
(1)
(1)
(0)
(10)
(8)
(12)
DC
-WO
RM
S GU
I
CFD Simulator - Integrate CFX as second CFD Solver
COVISE -integrated post processing
THE SVD TOOLKIT COMPONENTS
SEAIP 2013 MOP GUI Web GUI DB integration
DEB
B co
nfigu
rator
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
2ND RELEASE OF THE SVD TOOKIT
SEAIP 2013
• CoolEmAll WEB-GUI – advanced Visualisation Tool
• Web based GUIs to all components easy usage of SVD
Toolkit
• DEBB configuration, definition
• Selection of Application Profiles, Workloads
• View workload simulation
• Interact and view CFD simulation
• MOP-GUI
• Report GUI
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
2ND RELEASE OF THE SVD TOOKIT
SEAIP 2013
• CFD Simulation using COVISE
• Rack rearrangement in Compute-Room
• interactive simulation
• Remote steering
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
AUGMENTED REALITY
SEAIP 2013
Mixed Reality
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
DEEP DRAWING OF A CUP
SEAIP 2013
Flange
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
COMPUTATIONAL ELECTRODYNAMICS
SEAIP 2013
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
:: SEAIP 2013
CoolEmAll
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
MODELL WIND TUNNEL AT THE FKFS
SEAIP 2013
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
WIND TUNNEL AT FKFS
SEAIP 2013
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
FREIGHTLINER CASCADIA (SC11)
SEAIP 2013
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
ABDOMINAL AORTIC ANEURYSM (AAA)
SEAIP 2013
• AAA can be found at 2% of the older population
• Diagnosis is difficult and discovery of existence of an AAA occurs mostly by chance
• There is a substantial risk of burst which typically ends deadly (Albert Einstein, April 18th 1955)
• Two forms: saccular and tube-like
• Dimensions:
– Diameter: 2-4 inches (normally 1)
– Volume: 120-280 cm (norm. 22-30)
• Ralf Schneider, Björn Sander, Peter Lammers, Daniela Pless, Thorsten Fleiter
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
WORKFLOW FOR BLOOD FLOW SIMULATIONS
SEAIP 2013
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
INTERACTIVE VISUALIZATION OF AN AAA
SEAIP 2013
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
INTERACTIVE VISUALIZATION OF AN AAA
SEAIP 2013
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
BONE IMPLANT SYSTEMS
SEAIP 2013
• Patient specific FE simulations of bone-implant-systems within 2h
• Realistic and patient specific modeling of
• Bone geometry
• Bone tissue
• Muscle forces
• Implant placement
• Simulations fully based on clinical imaging techniques like CT, MRI and US
• Support of diagnostic decisions with respect to:
• Implant Type
• Positioning of Implant
• Prediction of healing process
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
• Absolute stress results for implant structure
PRESENTATION FOR DOCTORS/PATIENTS
SEAIP 2013
Development of von Mises equivalence stresses in Targon PF implant during slow step Load situation: person of 76.5kg bodyweight, Reduced set of Muscle forces, Fracture A2.3 according to AO
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
CSI@HLRS STATE OFFICE OF CRIMINAL INVESTIGATION
SEAIP 2013
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
EFFICIENT VISUALIZATION OF BEE HIVES
SEAIP 2013
03.12.2013 :: ::
::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: ::::: :::::
::
THE HLRS VIS-TEAM
SEAIP 2013
• Martin Aumüller – Parallel Rendering;Parallel Visualization,Remote Rendering (CRESTA)
• Nico Eichhorn – Cloud Visualization, Virtualization of Graphics hardware, Remote Rendering(GAIA-Cloud)
• Andreas Gottlieb – Automatic optimization (Daimler CFD)
• N.N. – Interactive Simulation, Air conditioning; (CoolEmAll)
• Jutta Sauer – Video streaming; Video Conferencing; COVISE Dev.; 3D Modeling
• Jörg Scheurich – Virtual Reality, VRML, X3D
• Wolfgang Schotte – Virtual Reality, CSI-Stuttgart (VISIONAIR);
• Aihong Yin – Web services, Web GUIs, (GAIA-Cloud)
• Uwe Zimmat – Video service
Aumueller-eichhorn-gottlieb-rathgeb-sauer-scheurich-schotte-woessner-yin-zimmat@hlrs.de