Steven Dropsho scite author profile

Abstract-Improving cache performance requires understanding cache behavior. However, measuring cache performance for one or two data input sets provides little insight into how cache behavior varies across all data input sets and all cache configurations. This paper uses locality analysis to generate a parameterized model of program cache behavior. Given a cache size and associativity, this model predicts the miss rate for arbitrary data input set sizes. This model also identifies critical data input sizes where cache behavior exhibits marked changes. Experiments show this technique is within 2 percent of the hit rate for set associative caches on a set of floating-point and integer programs using array and pointer-based data structures. Building on the new model, this paper presents an interactive visualization tool that uses a three-dimensional plot to show miss rate changes across program data sizes and cache sizes and its use in evaluating compiler transformations. Other uses of this visualization tool include assisting machine and benchmark-set design. The tool can be accessed on the Web at http://www.cs.rochester.edu/research/locality.

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Steven Dropsho

Dynamic frequency and voltage control for a multiple clock domain microarchitecture

Integrating adaptive on-chip storage structures for reduced dynamic power

Managing static leakage energy in microprocessor functional units

Miss rate prediction across all program inputs

Profile-based dynamic voltage and frequency scaling for a multiple clock domain microprocessor

Profile-based dynamic voltage and frequency scaling for a multiple clock domain microprocessor

Dynamic frequency and voltage scaling for a multiple-clock-domain microprocessor

Miss Rate Prediction Across Program Inputs and Cache Configurations

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