A Power-aware Branch Predictor for Embedded Processors 


Vol. 14,  No. 6, pp. 347-356, Dec.  2007
10.3745/KIPSTA.2007.14.6.347


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  Abstract

In designing a branch predictor, in addition to accuracy, microarchitects should consider power consumption, especially for embedded processors. This paper proposes a power-aware branch predictor, which is based on the gshare predictor, by accessing the BTB (Branch Target Buffer) only when the prediction from the PHT (Pattern History Table) is taken. To enable the selective access to the BTB, the PHT in the proposed branch predictor is accessed one cycle earlier than the traditional PHT to prevent the additional delay. As a side effect, two predictions from the PHT are obtained through one access to the PHT, which leads to more power savings. The proposed branch predictor reduces the power consumption, not requiring any additional storage arrays, not incurring additional delay (except just one MUX delay) and never harming accuracy. Simulation results show that the proposed predictor reduces the power consumption by 35~48 % compared to the traditional predictor.

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[IEEE Style]

C. H. Kim and S. G. Song, "A Power-aware Branch Predictor for Embedded Processors," The KIPS Transactions:PartA, vol. 14, no. 6, pp. 347-356, 2007. DOI: 10.3745/KIPSTA.2007.14.6.347.

[ACM Style]

Cheol Hong Kim and Sung Gun Song. 2007. A Power-aware Branch Predictor for Embedded Processors. The KIPS Transactions:PartA, 14, 6, (2007), 347-356. DOI: 10.3745/KIPSTA.2007.14.6.347.

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