Abstract—Dynamic branch predictors account for between 10 % and 40 % of a processor’s dynamic power consumption. This power cost is proportional to the number of accesses made to that dynamic predictor during a program’s execution. In this paper we propose the combined use of local delay region scheduling and profiling with an original adaptive branch bias measurement. The adaptive branch bias measurement takes note of the dynamic predictor’s accuracy for a given branch and decides whether or not to assign a static prediction for that branch. The static prediction and local delay region scheduling information is represented as two hint bits in branch instructions. We show that, with the combined use of these two methods, the number of dynam...
Ever increasing performance requirements have elevated deeply pipelined architectures to a standard ...
Branch predictor (BP) is an essential component in modern processors since high BP accuracy can impr...
Main goal of the paper is to introduce a branch prediction scheme suitable for energy-efficient VLIW...
Dynamic branch predictors account for between 10% and 40% of a processor’s dynamic power consumptio...
Dynamic branch predictor logic alone accounts for approximately 10% of total processor power dissipa...
Energy efficiency is of the utmost importance in modern high-performance embedded processor design. ...
This paper explores the role of branch predictor organization in power/energy/performance tradeoffs ...
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...
The importance of accurate branch prediction to future processors has been widely recognized. The co...
Abstract — Branch prediction has been playing an increas-ingly important role in improving the perfo...
Modern superscalar processors rely on branch predictors to sustain a high instruction fetch throughp...
Branch prediction has been playing an increasingly important role in improving the performance and e...
Main goal of the paper is introducing a dynamic branch prediction scheme suitable for energy-aware V...
Recent work has demonstrated that a better branch predictor can increase the energy-efficiency of th...
Ever increasing performance requirements have elevated deeply pipelined architectures to a standard ...
Branch predictor (BP) is an essential component in modern processors since high BP accuracy can impr...
Main goal of the paper is to introduce a branch prediction scheme suitable for energy-efficient VLIW...
Dynamic branch predictors account for between 10% and 40% of a processor’s dynamic power consumptio...
Dynamic branch predictor logic alone accounts for approximately 10% of total processor power dissipa...
Energy efficiency is of the utmost importance in modern high-performance embedded processor design. ...
This paper explores the role of branch predictor organization in power/energy/performance tradeoffs ...
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...
The importance of accurate branch prediction to future processors has been widely recognized. The co...
Abstract — Branch prediction has been playing an increas-ingly important role in improving the perfo...
Modern superscalar processors rely on branch predictors to sustain a high instruction fetch throughp...
Branch prediction has been playing an increasingly important role in improving the performance and e...
Main goal of the paper is introducing a dynamic branch prediction scheme suitable for energy-aware V...
Recent work has demonstrated that a better branch predictor can increase the energy-efficiency of th...
Ever increasing performance requirements have elevated deeply pipelined architectures to a standard ...
Branch predictor (BP) is an essential component in modern processors since high BP accuracy can impr...
Main goal of the paper is to introduce a branch prediction scheme suitable for energy-efficient VLIW...