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dc.contributor.advisorMartin Rinard
dc.contributor.authorMisailovic, Sasaen_US
dc.contributor.authorCarbin, Michaelen_US
dc.contributor.authorAchour, Saraen_US
dc.contributor.authorQi, Zichaoen_US
dc.contributor.authorRinard, Martinen_US
dc.contributor.otherComputer Architectureen
dc.date.accessioned2014-01-09T23:45:05Z
dc.date.available2014-01-09T23:45:05Z
dc.date.issued2014-01-09
dc.identifier.urihttp://hdl.handle.net/1721.1/83843
dc.description.abstractEmerging high-performance architectures are anticipated to contain unreliable components (e.g., ALUs) that offer low power consumption at the expense of soft errors. Some applications (such as multimedia processing, machine learning, and big data analytics) can often naturally tolerate soft errors and can therefore trade accuracy of their results for reduced energy consumption by utilizing these unreliable hardware components. We present and evaluate a technique for reliability-aware optimization of approximate computational kernel implementations. Our technique takes a standard implementation of a computation and automatically replaces some of its arithmetic operations with unreliable versions that consume less power, but may produce incorrect results with some probability. Our technique works with a developer-provided specification of the required reliability of a computation -- the probability that it returns the correct result -- and produces an unreliable implementation that satisfies that specification. We evaluate our approach on five applications from the image processing, numerical analysis, and financial analysis domains and demonstrate how our technique enables automatic exploration of the trade-off between the reliability of a computation and its performance.en_US
dc.format.extent11 p.en_US
dc.relation.ispartofseriesMIT-CSAIL-TR-2014-001en_US
dc.titleReliability-Aware Optimization of Approximate Computational Kernels with Relyen_US
dc.date.updated2014-01-09T23:45:06Z


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