PRETZEL: Opening The Black Box Of Machine Learning Prediction Serving Systems

Authors:
Yunseong Lee Seoul National University
Alberto Scolari Politecnico di Milano
Byung-Gon Chun Seoul National University
Marco Domenico Santambrogio Politecnico di Milano
Markus Weimer Microsoft
Matteo Interlandi Microsoft

Introduction:

Machine Learning models are often composed of pipelines of transformations. prediction serving has different requirements. the authors present PRETZEL, a prediction serving system introducing a novel white box architecture enabling both end-to-end and multi-model optimizations. Using production-like model pipelines, our experiments show that PRETZEL is able to introduce performance improvements over different dimensions; compared to state-of-the-art approaches PRETZEL is on average able to reduce 99th percentile latency by 5.5× while reducing memory footprint by 25×, and increasing throughput by 4.7×.

Abstract:

Machine Learning models are often composed of pipelines of transformations. While this design allows to efficiently execute single model components at training time, prediction serving has different requirements such as low latency, high throughput and graceful performance degradation under heavy load. Current prediction serving systems consider models as black boxes, whereby prediction-time-specific optimizations are ignored in favor of ease of deployment. In this paper, we present PRETZEL, a prediction serving system introducing a novel white box architecture enabling both end-to-end and multi-model optimizations. Using production-like model pipelines, our experiments show that PRETZEL is able to introduce performance improvements over different dimensions; compared to state-of-the-art approaches PRETZEL is on average able to reduce 99th percentile latency by 5.5× while reducing memory footprint by 25×, and increasing throughput by 4.7×.

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