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BayesPerf: minimizing performance monitoring errors using Bayesian statistics

Subho S. Banerjee, Saurabh Jha, Zbigniew Kalbarczyk, Ravishankar K. Iyer

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Abstract

Hardware performance counters (HPCs) that measure low-level architectural and microarchitectural events provide dynamic contextual information about the state of the system. However, HPC measurements are error-prone due to non determinism (e.g., undercounting due to event multiplexing, or OS interrupt-handling behaviors). In this paper, we present BayesPerf, a system for quantifying uncertainty in HPC measurements by using a domain-driven Bayesian model that captures microarchitectural relationships between HPCs to jointly infer their values as probability distributions. We provide the design and implementation of an accelerator that allows for low-latency and low-power inference of the BayesPerf model for x86 and ppc64 CPUs. BayesPerf reduces the average error in HPC measurements from 40.1% to 7.6% when events are being multiplexed. The value of BayesPerf in real-time decision-making is illustrated with a simple example of scheduling of PCIe transfers.

Topics & Concepts

Computer scienceMicroarchitectureReal-time computingx86Latency (audio)Probability estimationInferenceBayesian probabilityBayesian inferenceInterruptPCI ExpressScheduling (production processes)Probabilistic logicEmbedded systemField-programmable gate arrayOperating systemArtificial intelligenceSoftwareMicrocontrollerEconomicsOperations managementTelecommunicationsParallel Computing and Optimization TechniquesRadiation Effects in ElectronicsDistributed systems and fault tolerance
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