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Title: Layered Routing in Irregular Interconnection Networks


1
Layered Routing in Irregular Interconnection
Networks
  • Olav Lysne, Tor Skeie, Sven-Arne Reinemo and
    Ingebjørg Theiss
  • Simula Research Laboratory

2
What is an interconnection network?
3
What is an interconnection network
  • High speed.
  • Extremely low latency.
  • Short distance few tens of meters.
  • Safe communication the network will never drop
    information.
  • Used within computers, within switches and within
    routers.

4
Interconnection networks in Norway
  • Dolphin Interconnect Solutions
  • Since approx 1990.
  • Ships interconnects based on the SCI standard
  • From the ashes of Norsk Data
  • Scali supercomputers
  • From Kongsberg Information Control
  • Ships clusters and support software for
    supercomputers.
  • Cooperates tightly with Dolphin
  • SUN Microsystems
  • Bought staff and licensed technology from Dolphin
  • Development center at Skullerud
  • Simula Research Laboratory
  • Working on these issues from the start
  • The second most productive academic research
    group in Europe on Interconnection Networks.

5
This work is
  • Olav Lysne, Tor Skeie, Sven-Arne Reinemo and
    Ingebjørg Theiss, Layered Routing in Irregular
    Networks, Submitted to IEEE Transactions on
    Parallel and Distributed Systems.
  • Referee-comments have been received and revision
    is in progress.
  • A compilation of four published papers
  • Olav Lysne and Tor Skeie, Load balancing of
    irregular system area networksthrough multiple
    roots, Proceedings of the International
    Conference on Communication in Computing, CIC
    2001, CSREA Press, pages 165 -171
  • Tor Skeie, Ingebjørg Theiss and Olav Lysne,
    Evaluation of Minimal Deterministic Routing in
    Irregular Networks, Proceedings of the SSGRR
    International Conference on Infrastructure for
    e-Business, e-education, e-Science, and
    e-Medicine (SSGRR) 2002
  • Tor Skeie, Olav Lysne and Ingebjørg Theiss,
    Layered Shortest Path (LASH) Routing in Irregular
    System Area Networks, Proceedings of
    Communication Architecture for Clusters (CAC02),
    IEEE Computer society 2002.
  • Ingebjørg Theiss, Tor Skeie and Olav Lysne,
    Minimal Routing in Irregular Networks,
    Proceedings of the International Conference on
    Communications in Computing (CIC) 2002, IEEE
    Computer Society

6
Link level flow control
  • Challenges
  • Irregularity introduced by topology-agnostic
    technologies, and System Area Network COTS.
  • Deadlock is an issue
  • Shortest path routing generally hard in irregular
    networks.

C
D
A
B
  • Link level flow control
  • Mainly used in interconnects and System area
    networks (Myrinet, Servernet, AutoNet, 3GIO, AS,
    InfiniBand)

7
Network Layers
  • Physical channels are divided into a number (N)
    of virtual channels
  • Infiniband has up to 16, PCI-AS has up to
    16,interconnect in BlueGene/L has 4,
  • These channels have mainly been provided for
    other purposes in most technologies
  • Assuming N virtual channels per physical, view
    the network as N virtual networks, that are
    logically disjoint.
  • Each of these networks are in the following
    called a layer.

8
Main idea
  • Assign each source destination pair to one layer,
    such that
  • Each individual layer is deadlock free.
  • Each individual layer need not be fully
    connected, but the sum of all layers should be.
  • Through this we obtain routing flexibility
    previously not inherent in deadlock prone
    technologies.
  • This flexibility is in the paper used to obtain
    higher throughput in the network

9
Two new classes of routing strategies methods
  • Load-balancing - MROOTS
  • One fully connected routing function in each
    layer (Up\Down)
  • Known hot spots (Up\Down root) are distributed
    as far from each other as possible.
  • Shortest path LAyered SHortest Path - LASH
  • Each layer has a subset of the source destination
    pairs, for which the deadlock problem does not
    appear
  • No layer is fully connected
  • The union of all layers is fully connected.

10
The method has been evaluated for three classes
of networks
  • Deterministically routed networks
  • All source destination pairs have but one
    possible path
  • InfiniBand, Myrinet, most variants of Ethernet
  • Source adaptive networks
  • Multiple paths possible between sources and
    destinations, but the path for each
    packet/connection is decided a priori by the
    source (source routing)
  • Advanced Switching
  • Switch-adaptive networks
  • Multiple paths possible between sources and
    destinations, and the path decisions are taken on
    the fly by the switches.
  • BlueGene\L

11
Evaluated routing methods
12
Results deterministic routing
13
Results Source Adaptive Routing
14
Results Switch Adaptive Routing
15
Conclusions
  • We have developed a new class of deadlock free
    routing methods
  • Outperforms all prior art routing-functions in
    the deterministic as well as the source-adaptive
    case
  • In the switch-adaptive case, we are not better
    than existing methods.
  • With the enhancement we give for deterministic
    routing, source adaptivity is no longer suited
    for performance enhancement
  • Source adaptivity is, however, still useful for
    fault tolerance.
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