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# Introduction
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The main part of W-SLDA Toolkit is an engine for solving BdG-type equations. However, the solution of these equations does not solve a full problem, which typically requires further exploration of results. For this you can use VisIt, however, in many cases it is not sufficient. For this reason [extensions](https://gitlab.fizyka.pw.edu.pl/gabrielw/wslda/-/tree/public/extensions) were introduced.
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The main part of W-SLDA Toolkit is an engine for solving BdG-type equations. However, the solution of these equations does not solve a full problem, which typically requires further exploration of results. For this you can use VisIt, however, in many cases it is not sufficient. For this reason [extensions](https://gitlab.fizyka.pw.edu.pl/wtools/wslda/-/tree/public/extensions) were introduced.
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Extensions are small C codes that can be used to support the computation process and data analysis process. The toolkit is equipped with various templates for such codes and examples.
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... | ... | @@ -21,4 +21,4 @@ gcc -std=gnu99 -I$WSLDA/hpc-engine -I$WSLDA/lib-wdata -L$WSLDA/lib-wdata -lwdata |
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```
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where `YOUR_PROJECT_FOLDER` points to the folder where your `predefines.h` is located. It is recommended to copy and compile extension codes in the project folder, then `YOUR_PROJECT_FOLDER=.`.
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The simplest way of learning how to use W-SLDA Toolkit API is just to explore provided templates and codes in [extensions](https://gitlab.fizyka.pw.edu.pl/gabrielw/wslda/-/tree/public/extensions). |
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The simplest way of learning how to use W-SLDA Toolkit API is just to explore provided templates and codes in [extensions](https://gitlab.fizyka.pw.edu.pl/wtools/wslda/-/tree/public/extensions). |
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