Parallel Programming Workshop @ BSC

CET
Vertex Building, Room VS208 (Barcelona BSC Campus Nord)

Vertex Building, Room VS208

Barcelona BSC Campus Nord

Description

The registration to this course is now open. Please, bring your own laptop. All the PATC courses at BSC are free of charge.

Course Convener: Xavier Martorell

LOCATION: UPC Campus Nord premises.Vertex Building, Room VS208

Level: 

Intermediate: For trainees with some theoretical and practical knowledge, some programming experience.

Advanced: For trainees able to work independently and requiring guidance for solving complex problems.

Attendants can bring their own applications and work with them during the course for parallelization and analysis.


Prerequisites: Fortran, C or C++ programming. All examples in the course will be done in C

Objectives: 

The objectives of this course are to understand the fundamental concepts supporting message-passing and shared memory programming models. The course covers the two widely used programming models: MPI for the distributed-memory environments, and OpenMP for the shared-memory architectures. The course also presents the main tools developed at BSC to get information and analyze the execution of parallel applications, Paraver and Extrae. It also presents the Parallware Assistant tool, which is able to automatically parallelize a large number of program structures, and provide hints to the programmer with respect to how to change the code to improve parallelization. It deals with debugging alternatives, including the use of GDB and Totalview.

The use of OpenMP in conjunction with MPI to better exploit the shared-memory capabilities of current compute nodes in clustered architectures is also considered. Paraver will be used along the course as the tool to understand the behavior and performance of parallelized codes. The course is taught using formal lectures and practical/programming sessions to reinforce the key concepts and set up the compilation/execution environment.

Attendants can bring their own applications and work with them during the course for parallelization and analysis.

Learning Outcomes:

The students who finish this course will be able to develop benchmarks and applications with the MPI, OpenMP and mixed MPI/OpenMP programming models, as well as analyze their execution and tune their behaviour in parallel architectures.

Agenda:

Day 1 (Monday)

Session 1 / 9:30 am – 1:00 pm (2 h lectures, 1 h practical)

1. Introduction to parallel architectures, algorithms design and performance parameters

2. Introduction to the MPI programming model

3. Practical: How to compile and run MPI applications

 

Session 2 / 2:00pm – 5:30 pm (2h lectures, 1h practical)

1. MPI: Point-to-point communication, collective communication

2. Practical: Simple matrix computations

3. MPI: Blocking and non-blocking communications

 

 Day 2 (Tuesday)

Session 1 / 9:30 am - 1:00 pm (1.5 h lectures, 1.5 h practical)

1. MPI: Collectives, Communicators, Topologies

2. Practical: Heat equation example

 

Session 2 / 2:00 pm - 5:30 pm (1.5 h lectures, 1.5 h practical)

1. Introduction to Paraver: tool to analyze and understand performance

2. Practical: Trace generation and trace analysis

 

Day 3 (Wednesday)

Session 1 / 9:30 am - 1:00 pm (1 h lecture, 2h practical)

1. Parallel debugging in MareNostrumIII, options from print to Totalview

2. Practical: GDB and IDB

3. Practical: Totalview

4. Practical: Valgrind for memory leaks

 

Session 2 / 2:00 pm - 5:30 pm (2 h lectures, 1 h practical)

1. Shared-memory programming models, OpenMP fundamentals

2. Parallel regions and work sharing constructs

3. Synchronization mechanisms in OpenMP

4. Practical: heat diffusion in OpenMP

 

Day 4 (Thursday)

Session 1 / 9:30am – 1:00 pm  (2 h practical, 1 h lectures)

1. Tasking in OpenMP 3.0/4.0/4.5

2. Programming using a hybrid MPI/OpenMP approach

3. Practical: multisort in OpenMP and hybrid MPI/OpenMP

 

Session 2 / 2:00pm – 5:30 pm (1.5 h lectures, 1.5 h practical)

1. Parallware: guided parallelization

2. Practical session with Parallware examples

 

Day 5 (Friday)

Session 1 / 9:30 am – 1:00 pm (2 hour lectures, 1 h practical)

1. Introduction to the OmpSs programming model

2. Practical: heat equation example and divide-and-conquer

 

Session 2 / 2:00pm – 5:30 pm (1 h lectures, 2 h practical)

1. Programming using a hybrid MPI/OmpSs approach

2. Practical: heat equation example and divide-and-conquer

 

END of COURSE

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