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Real Parallel Computers

Real Parallel Computers. Background Information. Recent trends in the marketplace of high performance computing Strohmaier, Dongarra, Meuer, Simon Parallel Computing 2005. Short history of parallel machines. 1970s: vector computers 1990s: Massively Parallel Processors (MPPs)

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Real Parallel Computers

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  1. Real Parallel Computers

  2. Background Information Recent trends in the marketplace of high performance computing Strohmaier, Dongarra, Meuer, Simon Parallel Computing 2005

  3. Short history of parallel machines • 1970s: vector computers • 1990s: Massively Parallel Processors (MPPs) • Standard microprocessors, special network and I/O • 2000s: • Cluster computers (using standard PCs) • Advanced architectures (BlueGene) • Comeback of vector computer(Japanese Earth Simulator) • GPUs, IBM Cell/BE

  4. Performance development and predictions

  5. Clusters • Cluster computing • Standard PCs or workstations connected by a fast network • Good price/performance ratio • Exploit existing (idle) machines or use (new) dedicated machines • Cluster computers versus supercomputers (MPPs) • Processing power is similar: based on microprocessors • Communication performance was the key difference • Modern networks (Myrinet, Infiniband) have bridged this gap

  6. Overview • Cluster computers at our department • DAS-1: 128-node Pentium-Pro / Myrinet cluster (gone) • DAS-2: 72-node dual-Pentium-III / Myrinet-2000 cluster • DAS-3: 85-node dual-core dual Opteron / Myrinet-10G cluster • Part of a wide-area system: Distributed ASCI Supercomputer

  7. Distributed ASCI Supercomputer(1997-2001)

  8. DAS-1 node configuration • 200 MHz Pentium Pro • 128 MB memory • 2.5 GB disk • Fast Ethernet 100 Mbit/s • Myrinet 1.28 Gbit/s (full duplex) • Operating system: Red Hat Linux

  9. DAS-2 Cluster (2002-2006) • 72 nodes, each with 2 CPUs (144 CPUs in total) • 1 GHz Pentium-III • 1 GB memory per node • 20 GB disk • Fast Ethernet 100 Mbit/s • Myrinet-2000 2 Gbit/s (crossbar) • Operating system: Red Hat Linux • Part of wide-area DAS-2 system (5 clusters with 200 nodes in total) Ethernet switch Myrinet switch

  10. DAS-3 Cluster (Sept. 2006) • 85 nodes, each with 2 dual-core CPUs(340 cores in total) • 2.4 GHz AMD Opterons (64 bit) • 4 GB memory per node • 250 GB disk • Gigabit Ethernet • Myrinet-10G 10 Gb/s (crossbar) • Operating system: Scientific Linux • Part of wide-area DAS-3 system (5 clusters with 263 nodes in total),using SURFnet-6 optical network with 40-80 Gb/s wide-area links

  11. DAS-3 Networks Nortel 5530 + 3 * 5510 ethernet switch 85 compute nodes 85 * 1 Gb/s ethernet Nortel 1 or 10 Gb/s Campus uplink 10 Gb/s ethernet 8 * 10 Gb/s eth (fiber) 85 * 10 Gb/s Myrinet 80 Gb/s DWDM SURFnet6 Nortel OME 6500 with DWDM blade Myrinet 10 Gb/s Myrinet 10 Gb/s ethernet blade Myri-10G switch Headnode (10 TB mass storage)

  12. DAS-1 Myrinet Components: • 8-port switches • Network interface card for each node (on PCI bus) • Electrical cables: reliable links Myrinet switches: • 8 x 8 crossbar switch • Each port connects to a node (network interface) or another switch • Source-based, cut-through routing • Less than 1 microsecond switching delay

  13. 24-node DAS-1 cluster

  14. 128-node DAS-1 cluster • Ring topology would have: • 22 switches • Poor diameter: 11 • Poor bisection width: 2

  15. PC PC PC PC Topology 128-node cluster • 4 x 8 grid withwrap-around • Each switch is connectedto 4 other switchesand 4 PCs • 32 switches (128/4) • Diameter: 6 • Bisection width: 8

  16. Performance • DAS-2: • 9.6 μsec 1-way null-latency • 168 MB/sec throughput • DAS-3: • 2.6 μsec 1-way null-latency • 950 MB/sec throughput

  17. MareNostrum: large Myrinet cluster • IBM system at Barcelona Supercomputer Center • 4812 PowerPC 970 processors, 9.6 TB memory (2006)

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