Power consumption has become one of the most critical concerns for processor design. Parallelism offers a pathway to increased performance under power constraints — many slow processors can complete a parallel implementation of a task using less time and less energy than a fast uniprocessor. This relies on the energy-time trade-offs present in CMOS circuits, including voltage scaling. Understanding these trade-offs and their connection with algorithms will be a key for extracting performance in future multicore processor designs. I propose simple models for analysing algorithms and deriving lower bounds that reflect the energy-time trade-offs and parallelism of CMOS circuits. For example, the models constrain computational elements ...
Thompson's model of VLSI computation relates the energy of a computation to the product of the circu...
In this paper we investigate algorithmic instruments leading to low power consumption in computing d...
Abstract. We improve complexity bounds for energy-efficient speed scheduling problems for both the s...
Power consumption has become one of the most critical concerns for processor design. Parallelism of...
We investigate an efficiency metric for VLSI computation that includes energy, E, and time, t, in th...
In this paper we introduce an energy-delay efficiency metric that captures any trade-off between the...
It seems to be a corollary to the laws of physics that, all else being equal, higher performance dev...
© 2015 ACM. Semiconductor device engineers are hard-pressed to relate observed device-level properti...
Energy consumption by computer systems has emerged as an important concern, both at the level of ind...
An energy complexity model for CSP programs to be implemented in CMOS VLSI is developed. This model ...
We initiate the systematic study of the energy complexity of algorithms (in addition to time and spa...
Speed scaling is a power management technology that involves dynamically changing the speed of a pro...
Abstract—In this work, we argue that energy management should be a guiding principle for design and ...
The overarching goal of this thesis is to provide an algorithm-centric approach to analyzing the rel...
We present theoretical algorithmic research of processor scheduling in an energy aware environment u...
Thompson's model of VLSI computation relates the energy of a computation to the product of the circu...
In this paper we investigate algorithmic instruments leading to low power consumption in computing d...
Abstract. We improve complexity bounds for energy-efficient speed scheduling problems for both the s...
Power consumption has become one of the most critical concerns for processor design. Parallelism of...
We investigate an efficiency metric for VLSI computation that includes energy, E, and time, t, in th...
In this paper we introduce an energy-delay efficiency metric that captures any trade-off between the...
It seems to be a corollary to the laws of physics that, all else being equal, higher performance dev...
© 2015 ACM. Semiconductor device engineers are hard-pressed to relate observed device-level properti...
Energy consumption by computer systems has emerged as an important concern, both at the level of ind...
An energy complexity model for CSP programs to be implemented in CMOS VLSI is developed. This model ...
We initiate the systematic study of the energy complexity of algorithms (in addition to time and spa...
Speed scaling is a power management technology that involves dynamically changing the speed of a pro...
Abstract—In this work, we argue that energy management should be a guiding principle for design and ...
The overarching goal of this thesis is to provide an algorithm-centric approach to analyzing the rel...
We present theoretical algorithmic research of processor scheduling in an energy aware environment u...
Thompson's model of VLSI computation relates the energy of a computation to the product of the circu...
In this paper we investigate algorithmic instruments leading to low power consumption in computing d...
Abstract. We improve complexity bounds for energy-efficient speed scheduling problems for both the s...