LCG/gLite BDII performance measurements - PowerPoint PPT Presentation

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LCG/gLite BDII performance measurements

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LCG/gLite BDII performance measurements Lev Shamardin shamardin_at_theory.sinp.msu.ru Scobeltsyn Institute of Nuclear Physics, Moscow State University – PowerPoint PPT presentation

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Title: LCG/gLite BDII performance measurements


1
  • LCG/gLite BDII performance measurements
  • Lev Shamardin
  • shamardin_at_theory.sinp.msu.ru
  • Scobeltsyn Institute of Nuclear Physics, Moscow
    State University

2
What is BDII really?
  • OpenLDAP with LDBM backend
  • Three running servers with role rotation
  • One is updated every minute with a set of
    processed ldapsearch results from any grid site.
  • One is used to serve the requests via a port
    forwarding proxy
  • One is setteling down

3
BDII users
  • Primary users
  • lfc- utilities looking for storage elements
  • Resource Brokers updating grid information cache
  • Some other grid utilities, but these are much
    less popular then the first two.

4
lfc utilities
  • Typcal query
  • (GlueSEUniqueIDltse_namegt)
  • ((GlueServiceURIlthostnamegt)
    (GlueServiceTypesrm_v1))
  • Results
  • Several rows for each query

5
WMS cache update
  • Typcal query
  • ((objectClassgluevoview) ((objectClassgluece
    sebind) ((objectClassgluece)
    ((objectClassgluecluster)
    (objectClassgluesubcluster)))))
  • Results
  • Huge dump of grid resources, 15-20 Mbytes.

6
Testing method
  • A number of parallel quering processes, with
    synchronized start.
  • Each process runs a number of query sets in a
    random sequence.
  • Results from each process are collected.
  • First implementation in perl using NetLDAP
    appeared to be amazingly slow and memory-hungry,
    so written in C with openldap-client libs.

7
SE search queries
There is almost no dependence of the response
time from the number of sequential queries
8
SE search queries (2)
9
SE search queries (3)
10
WMS queries
11
WMS queries (2)
12
Conclusion
  • Seems to scale linearly. Just throw in more CPUs?
  • High loads cause connection timeouts, but our
    test show that high load for a production BDII
    means gt1000 simulteneous queries!
  • Protocol and implementation are quite
    inefficient. Network delay for the transfer of
    WMS dump data is 2 sec, so could be the response
    time for the sequential same queries.

13
Conclusion (2)
  • Numbers for the modeling (next talk).
  • NetLDAP is very slow.

14
Acknowledgements
  • The research was partially supported by
  • INTAS-CERN Grant 2005-7509
  • RFBR Grant 06-07-89199
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