© 2015 ACM. Semiconductor device engineers are hard-pressed to relate observed device-level properties of potential CMOS replacements to computation performance. We address this challenge by developing a model linking device properties to algorithm parallelism, total computational work, and degree of voltage and frequency scaling. We then use the model to provide insight into how device properties influence execution time, average power dissipation, and overall energy usage of parallel algorithms executing in the presence of hardware concurrency. The model facilitates studying tradeoffs: It lets researchers formulate joint energy-delay metrics that account for device properties. We support our analysis with data from a dozen large digital c...
Abstract—Multiple beyond-CMOS information processing de-vices are presently under active research an...
Modern microprocessors integrate a growing number of compo-nents on a single chip, such as processor...
As computing devices evolve with successive technology generations, many machines target either the ...
Energy consumption by computer systems has emerged as an important concern, both at the level of ind...
Power consumption has become one of the most critical concerns for processor design. Parallelism of...
The overarching goal of this thesis is to provide an algorithm-centric approach to analyzing the rel...
The ever-increasing ecological footprint of Information Technology (IT) sector coupled with adverse ...
International audienceNowadays, System-on-Chip architectures are composed of several execution resou...
This paper looks at the power-performance implications of running parallel applications on chip mult...
In this paper we introduce an energy-delay efficiency metric that captures any trade-off between the...
Abstract—Although users of high-performance computing are most interested in raw performance, both e...
This paper looks at the power-performance implications of running parallel applications on chip mult...
System designers and application programmers must consider trade-offs between performance and energy...
In designing a new processor, computer architects consider a myriad of possible organizations and de...
Although users of high-performance computing are most interested in raw performance, both energy and...
Abstract—Multiple beyond-CMOS information processing de-vices are presently under active research an...
Modern microprocessors integrate a growing number of compo-nents on a single chip, such as processor...
As computing devices evolve with successive technology generations, many machines target either the ...
Energy consumption by computer systems has emerged as an important concern, both at the level of ind...
Power consumption has become one of the most critical concerns for processor design. Parallelism of...
The overarching goal of this thesis is to provide an algorithm-centric approach to analyzing the rel...
The ever-increasing ecological footprint of Information Technology (IT) sector coupled with adverse ...
International audienceNowadays, System-on-Chip architectures are composed of several execution resou...
This paper looks at the power-performance implications of running parallel applications on chip mult...
In this paper we introduce an energy-delay efficiency metric that captures any trade-off between the...
Abstract—Although users of high-performance computing are most interested in raw performance, both e...
This paper looks at the power-performance implications of running parallel applications on chip mult...
System designers and application programmers must consider trade-offs between performance and energy...
In designing a new processor, computer architects consider a myriad of possible organizations and de...
Although users of high-performance computing are most interested in raw performance, both energy and...
Abstract—Multiple beyond-CMOS information processing de-vices are presently under active research an...
Modern microprocessors integrate a growing number of compo-nents on a single chip, such as processor...
As computing devices evolve with successive technology generations, many machines target either the ...