Having multiple data stores that can potentially serve content is common in modern networked applications. Data stores often publish approximate summaries of their content to enable effective utilization. Since these summaries are not entirely accurate, forming an efficient access strategy to multiple data stores becomes a complex risk management problem.This paper formally models this problem, and introduces practical algorithms with guaranteed approximation ratios, and in particular we show that our algorithms are optimal in a variety of settings. We also perform an extensive simulation study based on real data, and show that our algorithms are more robust than existing heuristics. That is, they exhibit near optimal performance in various settings whereas the efficiency of existing approaches depends upon system parameters that may change over time, or be otherwise unknown.
Access Strategies for Network Caching / Cohen, I.; Einziger, G.; Friedman, R.; Scalosub, G.. - 2019-:(2019), pp. 28-36. (Intervento presentato al convegno 2019 IEEE Conference on Computer Communications, INFOCOM 2019 tenutosi a fra nel 2019) [10.1109/INFOCOM.2019.8737427].
Access Strategies for Network Caching
Cohen I.;
2019
Abstract
Having multiple data stores that can potentially serve content is common in modern networked applications. Data stores often publish approximate summaries of their content to enable effective utilization. Since these summaries are not entirely accurate, forming an efficient access strategy to multiple data stores becomes a complex risk management problem.This paper formally models this problem, and introduces practical algorithms with guaranteed approximation ratios, and in particular we show that our algorithms are optimal in a variety of settings. We also perform an extensive simulation study based on real data, and show that our algorithms are more robust than existing heuristics. That is, they exhibit near optimal performance in various settings whereas the efficiency of existing approaches depends upon system parameters that may change over time, or be otherwise unknown.File | Dimensione | Formato | |
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Access_Strategies_Infocom_CR.pdf
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Cohen-Access.pdf
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https://hdl.handle.net/11583/2873190