Most of recent research on distributed shared memory (DSM)systems have focused on either careful design of node controllersor cache coherenceprotocols. Whileevaluating these designs, simpliJed models of networks (constant latency or average latency based on the network size) are typically used, Such models completely ignore network contention. Tohelp network designers to design better networks for DSM systems, in this papel; we focus on two goals: 1) to isolate and quantify the impact of network link contention and network interface contention on the overall performance of DSM applications and 2) to study the impact of critical architectural parameters on these two categories of network contention. We achieve these goals by evaluating a set of SPLASH2 benchmarks on a DSM simulator using three network models. For an 8 x 8 wormhole system, our results show that network contention can degrade performance up to 59.8%. Out of this, up to 7.2% is caused by network interface contention alone...
Donglai Dai, Dhabaleswar K. Panda