Main goal of the paper is to introduce a branch prediction scheme suitable for energy-efficient VLIW (Very Long Instruction Word) processors aiming at reducing the energy associated with the prediction phase by filtering the accesses to the branch predictor block. To analyze the effectiveness of the proposed low-power branch prediction scheme, we combined it to some well-known dynamic branch prediction techniques suitable for VLIW processors. Experimental results have been carried out on Lx, a 4-issue VLIW architecture with 6-stage pipeline. The proposed solution implies a performance improvement of 7% on average and an average energy reduction of 15%
Branch predictor (BP) is an essential component in modern processors since high BP accuracy can impr...
Abstract—Dynamic branch predictors account for between 10 % and 40 % of a processor’s dynamic power ...
textPerformance of modern pipelined processor depends on steady flow of useful instructions for proc...
Main goal of the paper is to introduce a branch prediction scheme suitable for energy-efficient VLIW...
Main goal of the paper is to introduce a branch prediction scheme suitable for energy-efficient VLIW...
Main goal of the paper is to introduce a branch prediction scheme suitable for energy-efficient VLIW...
Main goal of the paper is introducing a dynamic branch prediction scheme suitable for energy-aware V...
The paper introduces a dynamic branch prediction scheme suitable for energy-aware Very Long Instruct...
Main goal of the paper is introducing a dynamic branch pre-diction scheme suitable for energy-aware ...
Energy efficiency is of the utmost importance in modern high-performance embedded processor design. ...
Accurate branch prediction can improve processor performance, while reducing energy waste. Though so...
Although high branch prediction accuracy is necessary for high performance, it typically comes at th...
Ever increasing performance requirements have elevated deeply pipelined architectures to a standard ...
Modern superscalar processors rely on branch predictors to sustain a high instruction fetch throughp...
This paper explores the role of branch predictor organization in power/energy/performance tradeoffs ...
Branch predictor (BP) is an essential component in modern processors since high BP accuracy can impr...
Abstract—Dynamic branch predictors account for between 10 % and 40 % of a processor’s dynamic power ...
textPerformance of modern pipelined processor depends on steady flow of useful instructions for proc...
Main goal of the paper is to introduce a branch prediction scheme suitable for energy-efficient VLIW...
Main goal of the paper is to introduce a branch prediction scheme suitable for energy-efficient VLIW...
Main goal of the paper is to introduce a branch prediction scheme suitable for energy-efficient VLIW...
Main goal of the paper is introducing a dynamic branch prediction scheme suitable for energy-aware V...
The paper introduces a dynamic branch prediction scheme suitable for energy-aware Very Long Instruct...
Main goal of the paper is introducing a dynamic branch pre-diction scheme suitable for energy-aware ...
Energy efficiency is of the utmost importance in modern high-performance embedded processor design. ...
Accurate branch prediction can improve processor performance, while reducing energy waste. Though so...
Although high branch prediction accuracy is necessary for high performance, it typically comes at th...
Ever increasing performance requirements have elevated deeply pipelined architectures to a standard ...
Modern superscalar processors rely on branch predictors to sustain a high instruction fetch throughp...
This paper explores the role of branch predictor organization in power/energy/performance tradeoffs ...
Branch predictor (BP) is an essential component in modern processors since high BP accuracy can impr...
Abstract—Dynamic branch predictors account for between 10 % and 40 % of a processor’s dynamic power ...
textPerformance of modern pipelined processor depends on steady flow of useful instructions for proc...