Sun Fire X2270 M2 Demonstrates Outstanding Single Node Performance on MSC.Nastran Benchmarks

Oracle's Sun Fire X2270 M2 server results showed outstanding performance running the MCAE application MSC.Nastran as shown by the MD Nastran MDR3 serial and parallel test cases.

Performance Landscape

Complete information about the serial results presented below can be found on the MSC Nastran website.


MD Nastran MDR3 Serial Test Results
Platform Benchmark Problem
Results are total elapsed run time in seconds
xl0imf1 xx0xst0 xl1fn40 vl0sst1
Sun Fire X2270 M2 999 704 2337 115
Sun Blade X6275 1107 798 2285 120
Intel Nehalem 1235 971 2453 123
Intel Nehalem w/ SSD 1484 767 2456 120
IBM:P6 570 ( I8 )
1510 4612 132
IBM:P6 570 ( I4 ) 1016 1618 5534 147

Complete information about the parallel results presented below can be found on the MSC Nastran website.


MD Nastran MDR3 Parallel Test Results
Platform Benchmark Problem
Results are total elapsed run time in seconds
xx0cmd2 md0mdf1
Serial DMP=2 DMP=4 DMP=8 Serial DMP=2 DMP=4
Sun Blade X6275 840 532 391 279 880 422 223
Sun Fire X2270 M2 847 558 371 297 889 462 232
Intel Nehalem w/ 4 SSD 887 639 405
902 479 235
Intel Nehalem 915 561 408
922 470 251
IBM:P6 570 ( I8 ) 920 574 392 322


IBM:P6 570 ( I4 ) 959 616 419 343 911 469 242

Results and Configuration Summary

Hardware Configuration:

Sun Fire X2270 M2
2 x 2.93 GHz Intel Xeon X5670 processors
48 GB memory
4 x 24 GB SSDs (striped)

Software Configuration:

64-bit SUSE Linux Enterprise Server 10 SP 3
MSC Software MD 2008 R3
MD Nastran MDR3 benchmark test suite

Benchmark Description

The benchmark tests are representative of typical MSC.Nastran applications including both serial and parallel (DMP) runs involving linear statics, nonlinear statics, and natural frequency extraction as well as others. MD Nastran is an integrated simulation system with a broad set of multidiscipline analysis capabilities.

Key Points and Best Practices

  • The test cases for the MSC.Nastran module all have a substantial I/O component where 15% to 25% of the total run times are associated with I/O activity (primarily scratch files). The required scratch file size ranges from less than 1 GB on up to about 140 GB. To obtain best performance, it is important to have a high performance storage system when running MD Nastran.

  • To improve performance, it is possible to make use of the MD Nastran feature which sets the maximum amount of memory the application will use. This allows a user to configure where temporary files are held, including in memory file systems like tmpfs.

See Also

Disclosure Statement

MSC.Software is a registered trademark of MSC. All information on the MSC.Software website is copyrighted. MD Nastran MDR3 results from http://www.mscsoftware.com and this report as of June 28, 2010.

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BestPerf is the source of Oracle performance expertise. In this blog, Oracle's Strategic Applications Engineering group explores Oracle's performance results and shares best practices learned from working on Enterprise-wide Applications.

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