CSC Summer School in High-Performance Computing

CSC Summer School in High-Performance Computing

About

Updated for e717459 (2026-06-23 07:08:40 +0300)

Slides (HTML)

1. Welcome to CSC Summer School in High-Performance Computing

1. Introduction to high-performance computing

2. Working in supercomputers

3. Parallel computing

Case study: Heat equation

1. Introduction to MPI

2. Point-to-point communication I

3. Point-to-point communication II

4. Non-blocking communication

5. Collective communication I

6. Collective communication II

7. User-defined communicators

8. Further MPI topics

Parallel debugging

Message Passing Game

Extra: One-sided communication

Extra: Persistent communication

Extra: Process topologies

Extra: User-defined datatypes

1. Introduction to OpenMP

2. Data environment of threads

3. Thread execution control

4. Reduction

5. Dynamic load balancing and tasks

6. Using MPI with OpenMP threads

7. Process and thread affinity

8. Next steps with OpenMP

1. Input/Output (I/O) in HPC

1. Introduction to GPU programming

2. HIP, CUDA and GPU kernels

3. Memory Hierarchy and Memory Accesses in GPUs

4. Streams, events, and synchronization

5. Memory allocations, access, and unified memory

6. Kernel optimisation

7. OpenMP offload for GPU programming: Part 1

8. OpenMP offload for GPU programming: Part 2

9. Multi-GPU programming

1. HPC software project design

2. HPC application deployment & production

1. Application performance

2. Profiling tools — perf and Scalasca

1. Closing

Slides (PDF)

1. Welcome to CSC Summer School in High-Performance Computing

1. Introduction to high-performance computing

2. Working in supercomputers

3. Parallel computing

Case study: Heat equation

1. Introduction to MPI

2. Point-to-point communication I

3. Point-to-point communication II

4. Non-blocking communication

5. Collective communication I

6. Collective communication II

7. User-defined communicators

8. Further MPI topics

Parallel debugging

Message Passing Game

Extra: One-sided communication

Extra: Persistent communication

Extra: Process topologies

Extra: User-defined datatypes

1. Introduction to OpenMP

2. Data environment of threads

3. Thread execution control

4. Reduction

5. Dynamic load balancing and tasks

6. Using MPI with OpenMP threads

7. Process and thread affinity

8. Next steps with OpenMP

1. Input/Output (I/O) in HPC

1. Introduction to GPU programming

2. HIP, CUDA and GPU kernels

3. Memory Hierarchy and Memory Accesses in GPUs

4. Streams, events, and synchronization

5. Memory allocations, access, and unified memory

6. Kernel optimisation

7. OpenMP offload for GPU programming: Part 1

8. OpenMP offload for GPU programming: Part 2

9. Multi-GPU programming

1. HPC software project design

2. HPC application deployment & production

1. Application performance

2. Profiling tools — perf and Scalasca

1. Closing

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