Scientific Computing Masterclass: Parallel and Distributed




Scientific Computing Masterclass: Parallel and Distributed

Welcome to the First-ever High Performance Computing (HPC) Systems course on the Udemy platform.  The goal main of this course is to introduce you with the HPC systems and its software stack. This course has been specially designed to enable you to utilize parallel & distributed programming  and computing resources to accelerate the solution of a  complex problem with the help of HPC systems and Supercomputers.  You can then use your knowledge in Machine learning, Deep learning, Data Sciences, Big data and so on.

HPC clusters typically have a large number of computers  (often called ‘nodes’) and, in general, most of these nodes would be configured identically. Though from the out side the cluster may look like a single system, the internal workings to make this happen can be quite complex. This idea should not be confused with a more general client-server model of computing as the idea behind clusters is quite unique. Cluster computing utilize multiple machines to provide a more powerful computing environment perhaps through a single operating system.

WHAT DO YOU LEARN?

  • A Little bit of Supercomputing history, Supercomputing examples, Supercomputers vs. HPC clusters, HPC clusters computers, Benefits of using cluster computing.

  • Components of a High Performance Systems (HPC) cluster, Properties of Login  node(s), Compute node(s), Master node(s), Storage node(s), HPC networks  and so on.

  • Introduction to PBS, PBS basic commands, PBS `qsub`,  PBS `qstat`, PBS `qdel`  command,  PBS `qalter`, PBS job states, PBS variables,     PBS  interactive jobs, PBS arrays, PBS MATLAB example

  • Introduction to Slurm, Slurm commands, A simple Slurm job, Slurm distrbuted MPI and  GPU jobs, Slurm multi-threaded OpenMP jobs,     Slurm interactive jobs,  Slurm array jobs, Slurm job dependencies

  • OpenMP basics, Open MP - clauses,  worksharing constructs, OpenMP- Hello  world!,  reduction and parallel `for-loop`,  section parallelization,  vector addition,

  • MPI - hello world! send/ receive and `ping-pong`

  • Parallel programming - GPU and CUDA: Finally,  it gives you a concise beginner friendly guide to the GPUs - graphics  processing units, GPU Programming - CUDA, CUDA - hello world and so on! We understand that CUDA is a difficult API, particularly the memory models. We have added some easy to understand CUDA lessons with examples to make your life easy and comfortable to grasp the basics fast!

  • AWS HPC: With the recent advantage of the faster Cloud technologies, AWS provides the most elastic and scalable cloud infrastructure to run your HPC applications. With virtually unlimited capacity, engineers, researchers, and HPC system owners can innovate beyond the limitations of on-premises HPC infrastructure. We have added lectures to show and tell you on how to build a AWS HPC cluster and how to run codes -easily!

Based on your earlier feedback, we are introducing a Zoom live class lecture series on this course through which we will explain different aspects of the Parallel and distributed computing and the High Performance Computing (HPC) systems software stack: Slurm, PBS Pro, OpenMP, MPI and CUDA! Live classes will be delivered through the Scientific Programming School, which is an interactive and advanced e-learning platform for learning scientific coding. Students purchasing this course will receive free access to the interactive version (with Scientific code playgrounds) of this course from the Scientific Programming School (SCIENTIFIC PROGRAMMING IO). Instructions to join are given in the additional contents section.

DISCLAIMER

We created here a total of one university semester worth of knowledge (valued USD $2500-6000) into one single video course, and hence, it's a high-level overview.  Don't forget to join our Q&A live community where you can get free help anytime from other students and the instructor. This awesome course is a component of the Learn Scientific Computing master course.

Parallel & Distributed Programming: OpenMP, CUDA, MPI & HPC cluster systems with Slurm and PBS, AWS HPC Parallel Cluster

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What you will learn
  • Learn about Supercomputing
  • HPC system's basic components
  • HPC software stack

Rating: 3.3

Level: Intermediate Level

Duration: 4.5 hours

Instructor: Scientific Programmer™ Team


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