Most complex software programs are characterized by program phase behavior and runtime distribution. Dynamism of the two characteristics often makes the design-time workload prediction difficult and inefficient. Especially, memory stall time whose variation is significant in memory-bound applications has been mostly neglected or handled in a too simplistic manner in previous works. In this paper, we present a novel online dynamic voltage and frequency scaling (DVFS) method which takes into account both program phase behavior and runtime distribution of memory stall time, as well as computational workload. The online DVFS problem is addressed in two ways: intraphase workload prediction and program phase detection. The intraphase workload pre...
This paper presents a method of dynamic voltage scaling (DVS) that tackles both switching and leakag...
Current embedded computing systems demand not only a high performance but also lower power consumpti...
Making modern computer systems energy-efficient is of paramount importance. Dynamic Voltage...
Minimising energy use is an important factor in the operation of many classes of embedded systems — ...
Minimising energy use is an important factor in the operation of many classes of embedded systems - ...
Energy consumption has become a major constraint in providing increased functionality for devices wi...
Minimising energy use is an important factor in the operation of many classes of embedded systems — ...
This paper describes a dynamic voltage and frequency scaling (DVFS) technique for MPEG decoding to r...
This paper presents a technique called "workload decomposition" in which the CPU workload ...
Making modern computer systems energy-efficient is of paramount importance. Dynamic Voltage and Freq...
This paper describes a dynamic voltage and frequency scaling (DVFS) technique for MPEG decoding to r...
Computer architecture has experienced a major paradigm shift from focusing only on raw performance t...
Computer architecture has experienced a major paradigm shift from focusing only on raw performance t...
Dynamic voltage and frequency scaling (DVFS) is a well-known method for saving energy consumption. S...
Abstract: Many recent dynamic voltage-scaling (DVS) algorithms use hardware events (such as cache mi...
This paper presents a method of dynamic voltage scaling (DVS) that tackles both switching and leakag...
Current embedded computing systems demand not only a high performance but also lower power consumpti...
Making modern computer systems energy-efficient is of paramount importance. Dynamic Voltage...
Minimising energy use is an important factor in the operation of many classes of embedded systems — ...
Minimising energy use is an important factor in the operation of many classes of embedded systems - ...
Energy consumption has become a major constraint in providing increased functionality for devices wi...
Minimising energy use is an important factor in the operation of many classes of embedded systems — ...
This paper describes a dynamic voltage and frequency scaling (DVFS) technique for MPEG decoding to r...
This paper presents a technique called "workload decomposition" in which the CPU workload ...
Making modern computer systems energy-efficient is of paramount importance. Dynamic Voltage and Freq...
This paper describes a dynamic voltage and frequency scaling (DVFS) technique for MPEG decoding to r...
Computer architecture has experienced a major paradigm shift from focusing only on raw performance t...
Computer architecture has experienced a major paradigm shift from focusing only on raw performance t...
Dynamic voltage and frequency scaling (DVFS) is a well-known method for saving energy consumption. S...
Abstract: Many recent dynamic voltage-scaling (DVS) algorithms use hardware events (such as cache mi...
This paper presents a method of dynamic voltage scaling (DVS) that tackles both switching and leakag...
Current embedded computing systems demand not only a high performance but also lower power consumpti...
Making modern computer systems energy-efficient is of paramount importance. Dynamic Voltage...