Execution History Guided Instruction Prefetching

Abstract

The increasing gap in performance between processors and main memory has made effective instructions prefetching techniques more important than ever. A major deficiency of existing prefetching methods is that most of them require an extra port to I-cache. A recent study by Rivers et al. [19] shows that this factor alone explains why most modern microprocessors do not use such hardware-based I-cache prefetch schemes. The contribution of this paper is two-fold. First, we present a method that does not require an extra port to I-cache. Second, the performance improvement for our method is greater than the best competing method BHGP [23] even disregarding the improvement from not having an extra port. The three key features of our method that prevent the above deficiencies are as follows. First, late prefetching is prevented by correlating misses to dynamically preceding instructions. For example, if the I-cache miss latency is 12 cycles, then the instruction that was fetched 12 cycles prior to the miss is used as the prefetch trigger. Second, the miss history table is kept to a reasonable size by grouping contiguous cache misses together and associated them with one preceding instruction, and therefore, one table entry. Third, the extra I-cache port is avoided through efficient prefetch filtering methods. Experiments show that for our benchmarks, chosen for their poor I-cache performance, an average improvement of 9.2% in runtime is achieved versus the BHGP methods [23], while the hardware cost is also reduced. The improvement will be greater if the runtime impact of avoiding an extra port is considered. When compared to the original machine without prefetching, our method improves performance by about 35% for our benchmarks.