The problem of learning parallel computer performance is investigated in the context of multicore processors. Given a fixed workload, the effect of varying system configuration on performance is sought. Conventionally, the performance speedup due to a single resource enhancement is formulated using Amdahl's law. However, in case of multiple configurable resources the conventional formulation results in several disconnected speedup equations that cannot be combined together to determine the overall speedup. To solve this problem, we propose to (1) extend Amdahl's law to accommodate multiple configurable resources into the overall speedup equation, and (2) transform the speedup equation into a multivariable regression problem suitable for mac...
At Sandia National Laboratories, we are currently en-gaged in research involving massively parallel ...
International audienceEstimating the potential performance of parallel applicationson the yet-to-be-...
To continuously comply with Moore's Law, modern parallel machines become increasingly complex. Effec...
An important issue in the effective use of parallel processing is the estimation of the speed-up one...
Since many years, we observe a shift from classical multiprocessor systems tomulticores, which tight...
Using Amdahl’s law as a metric, the authors illustrate a technique for developing efficient code on ...
Extending Amdahl\u27s law to identify optimal power-performance configurations requires considering ...
In 1967 Amdahl expressed doubts about the ultimate utility of multiprocessors. The formulation, now ...
Amdahl's Law states that speedup in moving from one processor to N identical processors can nev...
Amdahl\u27s Law states that speedup in moving from one processor to N identical processors can never...
We apply Amdahl's Law to multicore chips using symmetric cores, asymmetric cores, and dynamic techni...
This paper studies the speedup for multi-level parallel computing. Two models of parallel speedup ar...
Although parallel computers have existed for many years, recently there has been a surge of academic...
This paper presents a fundamental law for parallel performance: it shows that parallel performance i...
To continuously comply with Moore's Law, modern parallel machines become increasingly complex. Effec...
At Sandia National Laboratories, we are currently en-gaged in research involving massively parallel ...
International audienceEstimating the potential performance of parallel applicationson the yet-to-be-...
To continuously comply with Moore's Law, modern parallel machines become increasingly complex. Effec...
An important issue in the effective use of parallel processing is the estimation of the speed-up one...
Since many years, we observe a shift from classical multiprocessor systems tomulticores, which tight...
Using Amdahl’s law as a metric, the authors illustrate a technique for developing efficient code on ...
Extending Amdahl\u27s law to identify optimal power-performance configurations requires considering ...
In 1967 Amdahl expressed doubts about the ultimate utility of multiprocessors. The formulation, now ...
Amdahl's Law states that speedup in moving from one processor to N identical processors can nev...
Amdahl\u27s Law states that speedup in moving from one processor to N identical processors can never...
We apply Amdahl's Law to multicore chips using symmetric cores, asymmetric cores, and dynamic techni...
This paper studies the speedup for multi-level parallel computing. Two models of parallel speedup ar...
Although parallel computers have existed for many years, recently there has been a surge of academic...
This paper presents a fundamental law for parallel performance: it shows that parallel performance i...
To continuously comply with Moore's Law, modern parallel machines become increasingly complex. Effec...
At Sandia National Laboratories, we are currently en-gaged in research involving massively parallel ...
International audienceEstimating the potential performance of parallel applicationson the yet-to-be-...
To continuously comply with Moore's Law, modern parallel machines become increasingly complex. Effec...