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"Lin, Kate"
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Srivastava, Milind; Hung, Shao-Tse; Namkung, Hun; Lin, Kate Ching-Ju; Liu, Zaoxing; Sekar, Vyas (, ACM)While sketch-based network telemetry is attractive, realizing its potential benefits has been elusive in practice. Existing sketch so- lutions offer low-level interfaces and impose high effort on op- erators to satisfy telemetry intents with required accuracies. Ex- tending these approaches to reduce effort results in inefficient deployments with poor accuracy-resource tradeoffs. We present SketchPlan, an abstraction layer for sketch-based telemetry to re- duce effort and achieve high efficiency. SketchPlan takes an en- semble view across telemetry intents and sketches, instead of ex- isting approaches that consider each intent-sketch pair in isola- tion. We show that SketchPlan improves accuracy-resource trade- offs by up-to 12x and up-to 60x vs. baselines, in single-node and network-wide settings. SketchPlan is open-sourced at: https: //github.com/milindsrivastava1997/SketchPlanmore » « lessFree, publicly-accessible full text available November 4, 2025
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Srivastava, Milind; Hung, Shao-Tse; Namkung, Hun; Lin, Kate Ching-Ju; Liu, Zaoxing; Sekar, Vyas (, ACM IMC)While sketch-based network telemetry is attractive, realizing its potential benefits has been elusive in practice. Existing sketch solutions offer low-level interfaces and impose high effort on operators to satisfy telemetry intents with required accuracies. Extending these approaches to reduce effort results in inefficient deployments with poor accuracy-resource tradeoffs. We present SketchPlan, an abstraction layer for sketch-based telemetry to reduce effort and achieve high efficiency. SketchPlan’s takes an ensemble view across telemetry intents and sketches, instead of existing approaches that consider each intent-sketch pair in isolation. We show that SketchPlan improves accuracy-resource tradeoffs by up-to 12x and up-to 60x vs. baselines, in single-node and network-wide settings.more » « less
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