Area-Efficient Instruction Set Extension Exploration with Hardware Design Space Exploration

Abstract

Instruction set extension (ISE) is an effective approach to improve the processor performance without tremendous modification in its core architecture. To execute ISE(s), a processor core must be augmented with a new functional unit, called application specific functional unit (ASFU), which consists of multiple hardware implementation options of ISEs (ISE_HW). Obviously, since ISE_HW increases the production cost of a processor core, minimizing the area size of ISE_HW becomes important for ISE exploration. On the other hand, because of different requirements in space and speed, ISE_HW usually has multiple hardware implementation options. Under pipeline-stage timing constrain:, some of these options may have the same performance improvement but entail different hardware costs. According to this phenomenon, the area size of ISE_HW can be reduced by performing hardware design space exploration of ISE_HW. Therefore, in this paper, we propose an ISE exploration algorithm that explores not only ISE but also the hardware design space of ISE_HW. Compared with the previous research, our approach resulted in significant improvement in area efficiency and the execution performance.