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@@ -8,16 +8,17 @@ The bootcamp content focuses on how to follow the Analyze, Parallelize and Optim
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| Lab | Description |
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-| [N-Ways](https://github.com/gpuhackathons-org/gpubootcamp/tree/master/hpc/nways) | This lab will cover multiple GPU programming models and choose the one that best fits your needs. The material supports different programmin glangauges including C ( CUDA C, OpenACC C, OpenMP C, C++ stdpar ), Fortran ( CUDA Fortran, OpenACC Fortran, OpenMP Fortran, ISO DO CONCURRENT |
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+| [N-Ways](https://github.com/gpuhackathons-org/gpubootcamp/tree/master/hpc/nways) | This lab will cover multiple GPU programming models and choose the one that best fits your needs. The material supports different programming langauges including C ( CUDA C, OpenACC C, OpenMP C, C++ stdpar ), Fortran ( CUDA Fortran, OpenACC Fortran, OpenMP Fortran, ISO DO CONCURRENT ) Python ( Numba, CuPy ) |
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| [OpenACC](https://github.com/gpuhackathons-org/gpubootcamp/tree/master/hpc/openacc) | The lab will cover how to write portable parallel program that can run on multicore CPUs and accelerators like GPUs and how to apply incremental parallelization strategies using OpenACC |
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- [Convergence of HPC and AI](https://github.com/gpuhackathons-org/gpubootcamp/tree/master/hpc_ai) ::
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-The bootcamp content focuses on how AI can accelerate HPC simulations by introducing concepts of Deep Neural Networks, including data pre-processing, techniques on how to build, compare and improve accuracy of deep learning models.
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+The bootcamp content focuses on how AI can accelerate HPC simulations by introducing concepts of Deep Neural Networks, including data pre-processing, techniques on how to build, compare and improve accuracy of deep learning models. The bootcamp covers
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| Lab | Description |
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| [Weather Pattern Recognition](https://github.com/gpuhackathons-org/gpubootcamp/tree/master/hpc_ai/ai_science_climate) | This Bootcamp will introduce developers to fundamentals of AI and how data driven approach can be applied to Climate/Weather domain |
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| [CFD Flow Prediction](https://github.com/gpuhackathons-org/gpubootcamp/tree/master/hpc_ai/ai_science_cfd) | This Bootcamp will introduce developers to fundamentals of AI and how they can be applied to CFD (Computational Fluid Dynamics) |
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+| [PINN](https://github.com/gpuhackathons-org/gpubootcamp/tree/master/hpc_ai/ai_science_cfd) | This Bootcamp will introduce developers to fundamentals of using Physics Informed Neural Network and how they can be applied to different scientific domains using Nvidia SimNet |
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- [AI](https://github.com/gpuhackathons-org/gpubootcamp/tree/master/ai)::
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The bootcamp content focuses on using popular accelerated AI frameworks and using optimization techniques to get max performance from accelerators like GPU.
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@@ -39,5 +40,5 @@ Each lab contains docker and singularity definition files. Follow the readme fil
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- Bootcamp users may request for newer training material or file a bug by filing a github issues
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- Please do go through the existing list of issues to get more details of upcoming features and bugs currently being fixed [Issues](https://github.com/gpuhackathons-org/gpubootcamp/issues)
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-## Questions?
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-Please join [OpenACC Slack Channel](https://openacclang.slack.com/messages/openaccusergroup) for questions.
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+## Join OpenACC Community
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+Please join [OpenACC Slack Channel](https://openacclang.slack.com/messages/openaccusergroup).
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