A computer consists of multiple components such as functional units, cache and main memory. At each moment of execution, a program may have a varied amount of work for each component. Recent development has exploited this imbalance to save energy by slowing the components that have a lower load. Example techniques include dynamic scaling and clock gating used in processors from Transmeta and Intel
This paper presents a technique called "workload decomposition" in which the CPU workload ...
Recently, the power and energy consumed by a chip has become a primary design constraint for embedde...
Embedded microprocessor systems are used every day by millions of people, but these systems are not ...
A computer consists of multiple components such as functional units, cache and main memory. At each ...
The information and communication technology (ICT) sector is consuming an increasing proportion of g...
A variety of computer systems from HPC to mobile systems are power limited and performance sensitive...
The energy usage of computer systems is becoming more important, especially for battery operated sys...
Current microprocessors require both high performance and low-power consumption. In order to reduce ...
Reducing power consumption has become a major challenge in the design and operation of to-day’s comp...
To alleviate the memory wall problem, current architectural trends suggest implementing large instru...
The use of Trace Caches is a well known technique to overcome the problem of limited instruction fet...
To alleviate the memory wall problem, current architec-tural trends suggest implementing large instr...
Most embedded systems rely on batteries as their source of energy, and hence, low power consumption ...
Energy efficiency in modern microprocessor design is a first order concern. Every facet of the micr...
Current Intel processors implement a variety of power saving features like frequency scaling and idl...
This paper presents a technique called "workload decomposition" in which the CPU workload ...
Recently, the power and energy consumed by a chip has become a primary design constraint for embedde...
Embedded microprocessor systems are used every day by millions of people, but these systems are not ...
A computer consists of multiple components such as functional units, cache and main memory. At each ...
The information and communication technology (ICT) sector is consuming an increasing proportion of g...
A variety of computer systems from HPC to mobile systems are power limited and performance sensitive...
The energy usage of computer systems is becoming more important, especially for battery operated sys...
Current microprocessors require both high performance and low-power consumption. In order to reduce ...
Reducing power consumption has become a major challenge in the design and operation of to-day’s comp...
To alleviate the memory wall problem, current architectural trends suggest implementing large instru...
The use of Trace Caches is a well known technique to overcome the problem of limited instruction fet...
To alleviate the memory wall problem, current architec-tural trends suggest implementing large instr...
Most embedded systems rely on batteries as their source of energy, and hence, low power consumption ...
Energy efficiency in modern microprocessor design is a first order concern. Every facet of the micr...
Current Intel processors implement a variety of power saving features like frequency scaling and idl...
This paper presents a technique called "workload decomposition" in which the CPU workload ...
Recently, the power and energy consumed by a chip has become a primary design constraint for embedde...
Embedded microprocessor systems are used every day by millions of people, but these systems are not ...