P2P Parallel Computing Using MCMS Architecture - PowerPoint PPT Presentation

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P2P Parallel Computing Using MCMS Architecture

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128.255.163.92 (MacOSX, G3, 350 MHz/1 MB cache, 128 MB, SDRAM 12 GB HD) ... 218.255.163.101 (MacOSX, G3, 350MHz/1 MB cache, 64MB, SDRAM 6GB HD) ... – PowerPoint PPT presentation

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Title: P2P Parallel Computing Using MCMS Architecture


1
P2P Parallel Computing Using MCMS Architecture
2
MCMS Architecture
Client
Servers
Job distribution node (client node)
Computational nodes (servers)
3
Equipment Resources
  • Total 14 Legacy Macs with G3 processors
  • Dynamic IPs as Server nodes (13 computation node)
  • 128.255.163.92 (MacOSX, G3, 350 MHz/1 MB
    cache, 128 MB, SDRAM 12 GB HD)
  • 128.255.163.135 (MacOSX, G3, 350 MHz/1 MB cache,
    64 MB, SDRAM 6 GB HD)
  • 128.255.163.106 (MacOSX, G3, 350 MHz/1 MB cache,
    128 MB, SDRAM 12 GB HD)
  • 128.255.163.219 (MacOSX, G3, 350 MHz/1 MB cache,
    128 MB, SDRAM 12 GB HD)
  • 128.255.163.227 (MacOSX, G3, 350 MHz/1 MB cache,
    128 MB, SDRAM 12 GB HD)
  • 128.255.163.228 (MacOSX, G3, 350 MHz/1 MB cache,
    256 MB, SDRAM 6 GB HD)
  • 128.255.163.237 (MacOSX, G3, 350 MHz/1 MB cache,
    128 MB, SDRAM 12 GB HD)
  • 128.255.163.16 (MacOSX, G3, 350 MHz/1 MB
    cache, 128 MB, SDRAM 12 GB HD)
  • 128.255.163.242 (MacOSX, G3, 350 MHz/1 MB cache,
    128 MB, SDRAM 12 GB HD)
  • 128.255.163.96 (MacOSX, G3, 350 MHz/1 MB cache,
    128 MB, SDRAM 12 GB HD)
  • 128.255.163.133 (MacOSX, G3, 350 MHz/1 MB
    cache, 128 MB, SDRAM 12 GB HD)
  • 128.255.163.136 (MacOSX, G3, 350 MHz/1 MB
    cache, 128 MB, SDRAM 12 GB HD)
  • 128.255.163.141 (MacOSX, G3, 350 MHz/1 MB
    cache, 128 MB, SDRAM 12 GB HD)
  • Dynamic IPs as 1 client node (job distribution
    node, or service node, which performs
    decomposition and job distribution)
  • 218.255.163.101 (MacOSX, G3, 350MHz/1 MB cache,
    64MB, SDRAM 6GB HD)

4
(No Transcript)
5
Numerical Integration
  • Newton-Cotes Method
  • Decomposition

6
Numerical Integration
  • Global assembling
  • Total Global intervals
  • 1 billion (light intensive computation performed
    on each computational node)
  • 10 billions (intensive computation performed on
    each computational node)
  • 100 billions (very intensive computation
    performed on each computational node)

7
(No Transcript)
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