The implementation and evaluation of dynamic code decompression using DISE

Abstract

Code compression coupled with dynamic decompression is an important technique for both embedded and general-purpose microprocessors. Postfetch decompression , in which decompression is performed after the compressed instructions have been fetched, allows the instruction cache to store compressed code but requires a highly efficient decompression implementation. We propose implementing postfetch decompression using a new hardware facility called dynamic instruction stream editing (DISE). DISE provides a programmable decoder---similar in structure to those in many IA-32 processors---that is used to add functionality to an application by injecting custom code snippets into its fetched instruction stream. We present a DISE-based implementation of postfetch decompression and show that it naturally supports customized program-specific decompression dictionaries, enables parameterized decompression allowing similar-but-not-identical instruction sequences to share dictionary entries, and uses no decompression-specific hardware. We present extensive experimental results showing the virtue of this approach and evaluating the factors that impact its efficacy. We also present implementation-neutral results that give insight into the characteristics of any postfetch decompression technique. Our experiments not only demonstrate significant reduction in code size (up to 35%) but also significant improvements in performance (up to 20%) and energy (up to 10%).