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  • High Performance Computing 2019
  • Pair Programming 
    • Pair Programming
    • Sheet 2 (AVX Shuffles, Instruction Parallelism)
    • Sheet 3 (Stochastic PI, Shallow Deep Learning)
    • Sheet 4 (Conjugate Gradient with MPI, Asynchronous 2D Jacobi Partitioning)
    • Sheet 6 (std::async, block-cyclic distribution)
    • Sheet 7 (Atomics, Queue)
    • Sheet 8 (Sorting, Riemann Zeta)
    • Sheet 5 (Reverse-Engineering MPI, SUMMA)
    • Sheet 9 (Data Dependencies, Triangular Matrix Vector)
    • Sheet 10: Lockfree Hashmaps
    • Sheet 11 (Position Based Dynamics)
    • Sheet 12 ( Outer Product, Kmer Counting)
    • Tutorial 0: C++ Examples
    • Tutorials_extra
    • All Exercises
    • testSheet
    • Sheet 2 Redoable
    • Sheet 3 Redoable
    • Sheet 4 Redoable
    • Sheet 5 Redoable
    • Sheet 6 Redoable
    • Sheet 7 Redoable
    • Sheet 8 Redoable
    • Sheet 9 Redoable
    • Sheet 10 Redoable
    • Sheet 11 Redoable
    • Sheet 12 Redoable
  • Assignments 
    • Lecture 3: AVX SOA normalization
    • Lecture 4: MPI PI
    • Lecture 5: Asynchronous 1D Jacobi Partitioning
    • Lecture 6: Interleaved SUMMA
    • Lecture 7: Thread distributions MVM
    • Lecture 8: Dynamic Schedule of All-Pairs distance computation
    • Lecture 9: 1NN classifier on MNIST data
    • Lecture 10: Backward Substitution
    • Lecture 11: Lockfree List using an Array
    • Lecture 11: Lockfree Hashmap
    • Lecture 12: Kepler Orbits

Pair Programming Sheet

Start time:
Do 10 Okt 2019 10:15:00
End time:
Di 11 Feb 2020 10:15:00

Assignments: 11

Lecture 3: AVX SOA normalization
Lecture 4: MPI PI
Lecture 5: Asynchronous 1D Jacobi Partitioning
Lecture 6: Interleaved SUMMA
Lecture 7: Thread distributions MVM
Lecture 8: Dynamic Schedule of All-Pairs distance computation
Lecture 9: 1NN classifier on MNIST data
Lecture 10: Backward Substitution
If you think your solution is correct, uncomment the line: std::cout << "I think my solution is correct!" << std::endl;
Lecture 11: Lockfree List using an Array
Lecture 11: Lockfree Hashmap
Lecture 12: Kepler Orbits

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