In this paper three models of parallel speedup are studied. They are fixed-size speedup, fixed-time speedup and memory-bounded speedup. The latter two consider the relationship between speedup and problem scalability. Two sets of speedup formulations are derived for these three models. One set considers uneven workload allocation and communication overhead and gives more accurate estimation. Another set considers a simplified case and provides a clear picture on the impact of the sequential portion of an application on the possible performance gain from parallel processing. The simplified fixed-size speedup is Amdahl's law. The simplified fixed-time speedup is Gustafson's scaled speedup. The simplified memory-bounded speedup contains both A...
This paper describes two models of the cost of data movement in parallel numerical algorithms. One m...
AbstractTwo “folk theorems” that permeate the parallel computation literature are reconsidered in th...
The speedup is usually limited by two main laws in high-performance computing, that is, the Amdahl's...
This paper studies the speedup for multi-level parallel computing. Two models of parallel speedup ar...
An important issue in the effective use of parallel processing is the estimation of the speed-up one...
Amdahl\u27s Law states that speedup in moving from one processor to N identical processors can never...
Amdahl's Law states that speedup in moving from one processor to N identical processors can nev...
In 1967 Amdahl expressed doubts about the ultimate utility of multiprocessors. The formulation, now ...
Generalized speedup is defined as parallel speed over sequential speed. The generalized speedup and ...
In high performance computing environments, we observe an ongoing increase in the available numbers ...
Using Amdahl’s law as a metric, the authors illustrate a technique for developing efficient code on ...
The effective use of computational resources requires a good understanding of parallel architectures...
In the problem size-ensemble size plane, fixed-sized and scaled-sized paradigms have been the subset...
An asymptotic scalability metric, called Constant-Memory-per-Processor (CMP) scalability, is present...
At Sandia National Laboratories, we are currently en-gaged in research involving massively parallel ...
This paper describes two models of the cost of data movement in parallel numerical algorithms. One m...
AbstractTwo “folk theorems” that permeate the parallel computation literature are reconsidered in th...
The speedup is usually limited by two main laws in high-performance computing, that is, the Amdahl's...
This paper studies the speedup for multi-level parallel computing. Two models of parallel speedup ar...
An important issue in the effective use of parallel processing is the estimation of the speed-up one...
Amdahl\u27s Law states that speedup in moving from one processor to N identical processors can never...
Amdahl's Law states that speedup in moving from one processor to N identical processors can nev...
In 1967 Amdahl expressed doubts about the ultimate utility of multiprocessors. The formulation, now ...
Generalized speedup is defined as parallel speed over sequential speed. The generalized speedup and ...
In high performance computing environments, we observe an ongoing increase in the available numbers ...
Using Amdahl’s law as a metric, the authors illustrate a technique for developing efficient code on ...
The effective use of computational resources requires a good understanding of parallel architectures...
In the problem size-ensemble size plane, fixed-sized and scaled-sized paradigms have been the subset...
An asymptotic scalability metric, called Constant-Memory-per-Processor (CMP) scalability, is present...
At Sandia National Laboratories, we are currently en-gaged in research involving massively parallel ...
This paper describes two models of the cost of data movement in parallel numerical algorithms. One m...
AbstractTwo “folk theorems” that permeate the parallel computation literature are reconsidered in th...
The speedup is usually limited by two main laws in high-performance computing, that is, the Amdahl's...