We apply Amdahl's Law to multicore chips using symmetric cores, asymmetric cores, and dynamic techniques that allows cores to work together on sequential execution. To Amdahl's simple software model, we add a simple hardware model based on fixed chip resources. A key result we find is that, even as we enter the multicore era, researchers should still seek methods of speeding sequential execution. Moreover, methods that appear locally inefficient (e.g., tripling sequential performance with a 9x resource cost) can still be globally efficient as they reduce the sequential phase when the rest of the chip's resources are idle
The problem of learning parallel computer performance is investigated in the context of multicore pr...
In 1967 Amdahl expressed doubts about the ultimate utility of multiprocessors. The formulation, now ...
Amdahl's Law dictates that in parallel applications serial sections establish an upper limit on the ...
This paper presents a fundamental law for parallel performance: it shows that parallel performance i...
Amdahl's Law dictates that in parallel applications serial sections establish an upper limit on the ...
Abstract. Multicore architecture has become the trend of high perfor-mance processors. While it is g...
Since many years, we observe a shift from classical multiprocessor systems tomulticores, which tight...
International audienceAmdahl’s law is a fundamental tool for understanding the evolution of performa...
On each new technology generation, miniaturization permits putting twice as many computing cores on ...
Amdahl’s Law is based upon two assumptions – that of boundlessness and homogeneity – and so it can f...
Using Amdahl’s law as a metric, the authors illustrate a technique for developing efficient code on ...
Amdahl's Law states that speedup in moving from one processor to N identical processors can nev...
This paper studies the speedup for multi-level parallel computing. Two models of parallel speedup ar...
A consideration of Amdahl’s Law [9] suggests a single-chip multiprocessor with asymmetric cores is a...
An important issue in the effective use of parallel processing is the estimation of the speed-up one...
The problem of learning parallel computer performance is investigated in the context of multicore pr...
In 1967 Amdahl expressed doubts about the ultimate utility of multiprocessors. The formulation, now ...
Amdahl's Law dictates that in parallel applications serial sections establish an upper limit on the ...
This paper presents a fundamental law for parallel performance: it shows that parallel performance i...
Amdahl's Law dictates that in parallel applications serial sections establish an upper limit on the ...
Abstract. Multicore architecture has become the trend of high perfor-mance processors. While it is g...
Since many years, we observe a shift from classical multiprocessor systems tomulticores, which tight...
International audienceAmdahl’s law is a fundamental tool for understanding the evolution of performa...
On each new technology generation, miniaturization permits putting twice as many computing cores on ...
Amdahl’s Law is based upon two assumptions – that of boundlessness and homogeneity – and so it can f...
Using Amdahl’s law as a metric, the authors illustrate a technique for developing efficient code on ...
Amdahl's Law states that speedup in moving from one processor to N identical processors can nev...
This paper studies the speedup for multi-level parallel computing. Two models of parallel speedup ar...
A consideration of Amdahl’s Law [9] suggests a single-chip multiprocessor with asymmetric cores is a...
An important issue in the effective use of parallel processing is the estimation of the speed-up one...
The problem of learning parallel computer performance is investigated in the context of multicore pr...
In 1967 Amdahl expressed doubts about the ultimate utility of multiprocessors. The formulation, now ...
Amdahl's Law dictates that in parallel applications serial sections establish an upper limit on the ...