A. Foong, Jason M. Fung, D. Newell, S. Abraham, Peggy Irelan, Alex A. Lopez-Estrada
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Architectural Characterization of Processor Affinity in Network Processing
Network protocol stacks, in particular TCP/IP software implementations, are known for its inability to scale well in general-purpose monolithic operating systems (OS) for SMP. Previous researchers have experimented with affinitizing processes/thread, as well as interrupts from devices, to specific processors in a SMP system. However, general purpose operating systems have minimal consideration of user-defined affinity in their schedulers. Our goal is to expose the full potential of affinity by in-depth characterization of the reasons behind performance gains. We conducted an experimental study of TCP performance under various affinity modes on IA-based servers. Results showed that interrupt affinity alone provided a throughput gain of up to 25%, and combined thread/process and interrupt affinity can achieve gains of 30%. In particular, calling out the impact of affinity on machine clears (in addition to cache misses) is characterization that has not been done before
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