Eiger: Difference between revisions

392 bytes added ,  22 February 2017
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  INTEGRATE: total elapsed wall-clock time      53.1 sec
  INTEGRATE: total elapsed wall-clock time      53.1 sec
Back to 16 JOBS and 16 PROCESSORS, but with MCDRAM in ''flat'' mode und <code>numactl --preferred=1 xds_par</code> (thus using all 16GB for arrays, and nothing for cache):
Back to 16 JOBS and 16 PROCESSORS, but with MCDRAM in ''flat'' mode und <code>numactl --preferred=1 xds_par</code> (thus using all 16GB for arrays, and nothing for cache):
INIT.LP:        elapsed wall-clock time      29.5 sec
INIT.LP:        elapsed wall-clock time      29.5 sec
  COLSPOT:        elapsed wall-clock time      38.6 sec
  COLSPOT:        elapsed wall-clock time      38.6 sec
  INTEGRATE: total elapsed wall-clock time      53.2 sec
  INTEGRATE: total elapsed wall-clock time      53.2 sec
 
Now setting the KNL to SNC4 mode, and the MCDRAM to cache (using it in flat mode is impractical because the --preferred argument takes only 1 argument, but 4 would have to be specified unless heavy scripting were done):
INIT.LP:        elapsed wall-clock time      29.6 sec
COLSPOT.LP:      elapsed wall-clock time      37.8 sec
INTEGRATE: total elapsed wall-clock time      50.2 sec


Conclusion: since INIT benefits from more PROCESSORs, one could run XDS twice for fastest turnaround; the first run with JOBS=XYCORR INIT and a high number of processors (99 is maximum). The second run with JOB=COLSPOT IDXREF DEFPIX INTEGRATE CORRECT, and an optimized JOBS/PROCESSORS combination.
Conclusion: since INIT benefits from more PROCESSORs, one could run XDS twice for fastest turnaround; the first run with JOBS=XYCORR INIT and a high number of processors (99 is maximum). The second run with JOB=COLSPOT IDXREF DEFPIX INTEGRATE CORRECT, and an optimized JOBS/PROCESSORS combination.
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