2020
DOI: 10.1007/978-3-030-49556-5_18
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Benchmarking Solvers for the One Dimensional Cubic Nonlinear Klein Gordon Equation on a Single Core

Abstract: Many parallel computing benchmarks specify a specific algorithm that should be used to solve a specific problem, with much effort focused on machine specific optimization of a reference implementation. Since the solution of linear systems of equations, is often the most time consuming part for many problems in high performance scientific computing, a number of recent benchmarks for high performance computers suggest the use of an iterative method for solving sparse linear systems of equations to rank computer … Show more

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“…The effects of job placement and communication interference on result reproducibility will also be studied, an area for which there are still challenges [22]. Finally, there are other numerical methods that can be used to solve the Klein Gordon equation [34], it would be interesting to use these other methods to aid in performance prediction and optimal matching of algorithm to hardware architecture.…”
Section: Further Workmentioning
confidence: 99%
“…The effects of job placement and communication interference on result reproducibility will also be studied, an area for which there are still challenges [22]. Finally, there are other numerical methods that can be used to solve the Klein Gordon equation [34], it would be interesting to use these other methods to aid in performance prediction and optimal matching of algorithm to hardware architecture.…”
Section: Further Workmentioning
confidence: 99%