Abstract
The memory hierarchy plays a critical role on the performance of current chip multiprocessors. Main memory is shared by all the running processes, which can cause important bandwidth contention. In addition, when the processor implements SMT cores, the L1 bandwidth becomes shared among the threads running on each core. In such a case, bandwidth-aware schedulers emerge as an interesting approach to mitigate the contention. This work investigates the performance degradation that the processes suffer due to memory bandwidth constraints. Experiments show that main memory and L1 bandwidth contention negatively impact the process performance; in both cases, performance degradation can grow up to 40 percent for some of applications. To deal with contention, we devise a scheduling algorithm that consists of two policies guided by the bandwidth consumption gathered at runtime. The process selection policy balances the number of memory requests over the execution time to address main memory bandwidth contention. The process allocation policy tackles L1 bandwidth contention by balancing the L1 accesses among the L1 caches. The proposal is evaluated on a Xeon E5645 platform using a wide set of multiprogrammed workloads, achieving performance benefits up to 6.7 percent with respect to the Linux scheduler.
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