Optimization Techniques and Performance Analyses of Two Life Science Algorithms for Novel GPU Architectures

Optimization Techniques and Performance Analyses of Two Life Science Algorithms for Novel GPU Architectures

In this paper we evaluate two life science algorithms, namely Needleman-Wunsch sequence alignment and Direct Coulomb Summation, for GPUs. Whereas for Needleman-Wunsch it is difficult to get good performance numbers, Direct Coulomb Summation is particularly suitable for graphics cards. We present sev...

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Bibliographische Detailangaben
Hauptverfasser: Dilch, D., Mehofer, E.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Computer architecture
CUDA
Fermi
Graphics processing unit
Hardware
Instruction sets
Kernel
life science algorithms
OpenCL
Optimization
optimizations
performance evaluation
Synchronization
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Beschreibung
Zusammenfassung:In this paper we evaluate two life science algorithms, namely Needleman-Wunsch sequence alignment and Direct Coulomb Summation, for GPUs. Whereas for Needleman-Wunsch it is difficult to get good performance numbers, Direct Coulomb Summation is particularly suitable for graphics cards. We present several optimization techniques, analyze the theoretical potential of the optimizations with respect to the algorithms, and measure the effect on execution times. We target the recent NVIDIA Fermi architecture to evaluate the performance impacts of novel hardware features like the cache subsystem on optimizing transformations. We compare the execution times of CUDA and OpenCL code versions for Fermi and predecessor models with parallel OpenMP versions executed on the main CPU.
ISSN:1066-6192
2377-5750
DOI:10.1109/PDP.2012.87