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The parameters used in the datasets try to represent at best typical industrial runs in order to obtain representative speedups. For example, the iterative solvers are never converged to machine accuracy, but only as a percentage of the initial residual.
How to execute Alya with a given dataset
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In order to run ALYA, you need at least the following input files per execution:
X.dom.dat
X.ker.dat
X.nsi.dat
X.dat
To execute a simulation, you must be inside the input directory and you should submit a job like:
How to measure the speedup
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There are many ways to compute the scalability of Nastin module.
1. For the complete cycle including: element assembly + boundary assembly + subgrid scale assembly + solvers, etc.
2. For single kernels: element assembly, boundary assembly, subgrid scale assembly, solvers
3. Using overall times
2. Single kernels. Here, average and maximum times are indicated in *.nsi.cvg at each iteration of each time step:
Element assembly: 19. Ass. ave cpu time 20. Ass. max cpu time
Boundary assembly: 33. Bou. ave cpu time 34. Bou. max cpu time
Subgrid scale assembly: 31. SGS ave cpu time 32. SGS max cpu time
Iterative solvers: 21. Sol. ave cpu time 22. Sol. max cpu time
Note that in the case of using Runge-Kutta time integration (the case of the sphere), the element and boundary assembly times are this of the last assembly of current time step (out of three for third order).
3. At the end of *.log file, total timings are shown for all modules. In this case we use the first value of the NASTIN MODULE.
Contact
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If you have any question regarding the runs, please feel free to contact Guillaume Houzeaux: guillaume.houzeaux@bsc.es