Add to ORKGThis paper enunciates the principle of Computational Similarity, whereby calculations with the same values for certain dimension less ratios are said to be ''computationally similar'' and as a consequence have the same optimum self-speedup and optimum number of processors. Based on a three-parameter description of the computer hardware, two dimensionless ratios, which are only a function of the problem size and the hardware parameters, completely determine the scaling. Contours of constant self-speedup can be drawn on a two-dimensional dimensionless Universal Scaling Diagram (DUSD). This diagram is for a particular class of timing expressions that can be shown to represent approximately the performance of a corresponding class of computer p...
The field of computational complexity theory--which chiefly aims to quantify the difficulty encounte...
To better understand the deep significance of our best physical theories it could be interesting to ...
Amdahl's Law states that speedup in moving from one processor to N identical processors can nev...
The paper enunciates the principle of computational similarity, whereby calculations with the same v...
The results obtained from this project will fundamentally change the way we look at computer perform...
This paper describes what is the parallel time for sequential models, what is the sequential time fo...
The internal representation of numerical data, their speed of manipulation to generate the desired r...
The internal representation of numerical data, their speed of manipulation to generate the desired r...
The internal representation of numerical data, their speed of manipulation to generate the desired r...
The internal representation of numerical data, their speed of manipulation to generate the desired r...
International audienceWe revisit the non-preemptive speed-scaling problem, in which a set of jobs ha...
<p>We determined how the runtime of ENCORE scales with (A) the number of computer cores when executi...
Speed scaling has long been used as a power-saving mechanism at a chip level. However, in recent yea...
Parallel architectures in computer systems are powerful tools for processing enormous amounts of inf...
Generally, parallel scientific applications are executed on a fixed number of processors determined ...
The field of computational complexity theory--which chiefly aims to quantify the difficulty encounte...
To better understand the deep significance of our best physical theories it could be interesting to ...
Amdahl's Law states that speedup in moving from one processor to N identical processors can nev...
The paper enunciates the principle of computational similarity, whereby calculations with the same v...
The results obtained from this project will fundamentally change the way we look at computer perform...
This paper describes what is the parallel time for sequential models, what is the sequential time fo...
The internal representation of numerical data, their speed of manipulation to generate the desired r...
The internal representation of numerical data, their speed of manipulation to generate the desired r...
The internal representation of numerical data, their speed of manipulation to generate the desired r...
The internal representation of numerical data, their speed of manipulation to generate the desired r...
International audienceWe revisit the non-preemptive speed-scaling problem, in which a set of jobs ha...
<p>We determined how the runtime of ENCORE scales with (A) the number of computer cores when executi...
Speed scaling has long been used as a power-saving mechanism at a chip level. However, in recent yea...
Parallel architectures in computer systems are powerful tools for processing enormous amounts of inf...
Generally, parallel scientific applications are executed on a fixed number of processors determined ...
The field of computational complexity theory--which chiefly aims to quantify the difficulty encounte...
To better understand the deep significance of our best physical theories it could be interesting to ...
Amdahl's Law states that speedup in moving from one processor to N identical processors can nev...