Predictable performance in SMT processors
Proceedings of the 1st conference on Computing frontiers
Throttling-Based Resource Management in High Performance Multithreaded Architectures
IEEE Transactions on Computers
APPT'05 Proceedings of the 6th international conference on Advanced Parallel Processing Technologies
| Hi-index | 0.00 |
Simultaneous Multithreading (SMT) attempts to attain higher processor utilization by allowing instructions from multiple independent threads to coexist in a processor and compete for shared resources. Previous studies have shown, however, that its throughput may be limited by the number of threads. A reason is that a fixed thread scheduling policy cannot be optimal for the varying mixes of threads it may face in an SMT processor. Our Adaptive Dynamic Thread Scheduling (ADTS) was previously proposed to achieve higher utilization by allowing a detector thread to make use of wasted pipeline slots with nominal hardware and software costs. The detector thread adaptively switches between various fetch policies. Our previous study showed that a single fixed thread scheduling policy presents much room (some 30%) for improvement compared to an oracle-scheduled case. In this paper, we take a closer look at ADTS. We implemented the functional model of the ADTS and its software architecture to evaluate various heuristics for determining a better fetch policy for a next scheduling quantum. We report that performance could be improved by as much as 25%.