Improving Prediction for Procedure Returns with Return-Address-Stack Repair Mechanisms
Report ID: TR-577-98Author: Martonosi, Margaret / Skadron, Kevin / Clark, Douglas W. / Ahuja, Pritpal S.
Date: 1998-03-00
Pages: 13
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Abstract:
This paper evaluates several mechanisms for repairing the return-address stack after branch mispredictions. The return-address stack is a small but important structure for achieving better control-flow prediction accuracy and therefore better performance. But wrong-path execution after mispredictions frequently corrupts the return-address stack, making repair mechanisms necessary. If the processor implements multipath execution -- simultaneously executing both sides of a branch -- the contention among different paths makes the problem more severe.
For conventional, single-path processors, this paper proposes saving both the top-of-stack pointer and the top-of-stack contents for later restoration in case of a misprediction. This simple technique achieves nearly 100% hit rates and improves performance by up to 8.7% compared to a stack with no repair mechanism. For multipath processors, providing each path with its own return-address stack completely eliminates contention, improving performance by over 25%.
- This technical report has been published as
- Improving Prediction for Procedure Returns with Return-Address-Stack Repair Mechanisms. K. Skadron, P.S. Ahuja, M. Martonosi, and D.W. Clark. In Proceedings of the 31st Annual ACM/IEEE International Symposium on Microarchitecture, pp. 259-71, December 1998.