A fast Fourier transform compiler
Proceedings of the ACM SIGPLAN 1999 conference on Programming language design and implementation
Analytical Modeling of Set-Associative Cache Behavior
IEEE Transactions on Computers
Performance optimization of financial option calculations
Parallel Computing - Special issue on parallel computing in economics, finance and decision-making
Performance Engineering of Software Systems
Performance Engineering of Software Systems
SvPablo: A Multi-language Performance Analysis System
TOOLS '98 Proceedings of the 10th International Conference on Computer Performance Evaluation: Modelling Techniques and Tools
Modeling Multi-threaded Architectures in PAMELA for Real-time High Performance Applications
HIPC '97 Proceedings of the Fourth International Conference on High-Performance Computing
Modeling and predicting the efficiency of application execution in distributed environments
ICCOMP'06 Proceedings of the 10th WSEAS international conference on Computers
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With the rapid expansion in the use of distributed systems the need for optimisation and the steering of application execution has become more important. The unquestionable aim to overcome bottle-neck problems, allocation, and performance degradation due to shared CPU time has prompted many investigations into the best way in which the performance of an application can be enhanced. In this work, we demonstrate the impact of using a Performance Prediction Toolset, PACE, which can be used in Dynamic (On-The-Fly) decision making for optimising application execution. An example application, the FFTW (The Fastest Fourier Transform in the West), is used to illustrate the approach which itself is a novel method that optimises the execution of an FFT. It is shown that performance prediction can provide the same quality of information as a measurement process for application optimisation but in a fraction of the time and thus improving the overall application performance.