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[[_TOC_]]
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# ELPA Library
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# ELPA Library
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For static calculations, it is recommended to use [ELPA](https://elpa.mpcdf.mpg.de/) Library, which has better performance than ScaLapack. In particular, ELPA allows for the utilization of GPUs which provide a significant boost for calculations. In order to activate ELPA lib in [predefines.h](https://gitlab.fizyka.pw.edu.pl/gabrielw/wslda/-/tree/public/st-myproject-template/predefines.h) set:
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For static calculations, it is recommended to use [ELPA](https://elpa.mpcdf.mpg.de/) Library, which has better performance than ScaLapack. In particular, ELPA allows for the utilization of GPUs which provide a significant boost for calculations. In order to activate ELPA lib in [predefines.h](https://gitlab.fizyka.pw.edu.pl/gabrielw/wslda/-/tree/public/st-myproject-template/predefines.h) set:
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```c
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```c
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| ... | @@ -45,6 +47,7 @@ It is recommended to use `PZHEEVR`. This engine takes advantage from the fact th |
... | @@ -45,6 +47,7 @@ It is recommended to use `PZHEEVR`. This engine takes advantage from the fact th |
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# Benchmarks & Scalings
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# Benchmarks & Scalings
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All tests correspond to the extraction of **all** eigenvectors.
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All tests correspond to the extraction of **all** eigenvectors.
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## Table
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| matrix size | p | q | mb | nb | prec. | routine | system | time [sec] | cost |
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| matrix size | p | q | mb | nb | prec. | routine | system | time [sec] | cost |
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| ------------|---|---|----|----|--------|---------|--------|------------|------|
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| ------------|---|---|----|----|--------|---------|--------|------------|------|
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| ... | @@ -69,6 +72,6 @@ All tests correspond to the extraction of **all** eigenvectors. |
... | @@ -69,6 +72,6 @@ All tests correspond to the extraction of **all** eigenvectors. |
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## Plots
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## Plots
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These scalings are derived empirically: points correspond to **real** measurement on target system, while line shows a fit of ideal scaling for level-3 rutines ($`\sim N^3`$)
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These scalings are derived empirically: points correspond to **real** measurement on target system, while line shows a fit of ideal scaling for level-3 rutines ($`\sim N^3`$)
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### Summit
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### [Summit](https://docs.olcf.ornl.gov/systems/summit_user_guide.html)
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The scaling was derived within ALCC grant [Quantum Turbulence in Fermi Superfluids](https://www.olcf.ornl.gov/web-project/quantum-turbulence-in-fermi-superfluids/).
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The scaling was derived within ALCC grant [Quantum Turbulence in Fermi Superfluids](https://www.olcf.ornl.gov/web-project/quantum-turbulence-in-fermi-superfluids/).
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