Intel Ethernet 10 Gigabit iWARP LS-DYNA Performance Study
iWARP vs. Infiniband Performance:
LS-DYNA
LS-DYNA, developed by Livermore
Software Technology Corporation (LSTC),
is a general-purpose, transient-dynamic
nite-element program designed to
simulate complex real-world problems. It
is optimized for shared and distributed
memory UNIX*, Linux, and Windows*-
based platforms. Related products include
LS-OPT, a standalone Design Optimization
and Probabilistic Analysis package with
an interface to LS-DYNA; and LS-PrePost,
an advanced interactive program used
for preparing input data for LS-DYNA and
processing the results from LS-DYNA
analyses. For more information, see the
LS-DYNA website. [1]
Test Scenario
In the test case simulated here, a van
crashes into the rear of a compact car,
which in turn crashes into a midsize car.
Vehicle models were created by the
National Crash Analysis Center (NCAC)
and assembled into the input le by Mike
Berger, consultant to LSTC. For this study,
the input les were downloaded from the
Top Crunch Project. [2] This model has
794,780 elements with six contact sur-
faces and 1,052 materials. The simulation
time of collision is 150 ms.
Conclusion
By providing realistic application
performance instead of micro-benchmark
test results, this report illustrates the
danger of relying solely on synthetic
benchmarking when evaluating
networking options. HPC workloads
behave much differently than, for
example, a half round-trip latency test:
using multiple connections in a switched
environment with non-uniform I/O
patterns.
The real-world application results shown
in this report show the viability of iWARP
Ethernet as an alternative to discrete,
proprietary fabrics for HPC workloads.
The fundamental advantages of a
converged Ethernet network combined
with easier IP-based management and
native routing capability make iWARP a
compelling solution for HPC use cases.
References
[1] http://www.ls-dyna.com/.
[2] http://www.topcrunch.org/.
Figure 1. LS-DYNA iWARP versus InfiniBand* Performance-Testing Results (lower
y-axis figures are better)
0.00
100.00
200.00
300.00
400.00
500.00
600.00
4x1 4x2 8x1 4x4 8x2 4x8 8x4 8x8
Time (mins)
Cores (nodes x cores per node)
Infinband*
iWARP
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Intel® Ethernet 10 Gigabit iWARP LS-DYNA Performance Study
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Intel® Ethernet 10 Gigabit iWARP LS-DYNA Performance Study