Week |
Subject |
Related Preparation |
1) |
Parallel algorithm design |
1. Parallel Computing, Theory and practice, M.J.Quinn, McGraw Hill.
2. Parallel programming wiyh MPI, P.S. Pacheco.Morgan Kaufmann.
3. GPU Gems 1&2, Nvidia. |
2) |
Decomposition techniques, distribution of calculation items and planning (mapping & scheduling) |
1. Parallel Computing, Theory and practice, M.J.Quinn, McGraw Hill.
2. Parallel programming wiyh MPI, P.S. Pacheco.Morgan Kaufmann.
3. GPU Gems 1&2, Nvidia. |
3) |
Programming of public address systems: OpenMP, Cilk/Cilk++, Pthreads |
1. Parallel Computing, Theory and practice, M.J.Quinn, McGraw Hill.
2. Parallel programming wiyh MPI, P.S. Pacheco.Morgan Kaufmann.
3. GPU Gems 1&2, Nvidia. |
4) |
Application development with OpenMP |
1. Parallel Computing, Theory and practice, M.J.Quinn, McGraw Hill.
2. Parallel programming wiyh MPI, P.S. Pacheco.Morgan Kaufmann.
3. GPU Gems 1&2, Nvidia. |
5) |
Application development with Cilk/Cilk++ |
1. Parallel Computing, Theory and practice, M.J.Quinn, McGraw Hill.
2. Parallel programming wiyh MPI, P.S. Pacheco.Morgan Kaufmann.
3. GPU Gems 1&2, Nvidia. |
6) |
Application development with Pthreads |
1. Parallel Computing, Theory and practice, M.J.Quinn, McGraw Hill.
2. Parallel programming wiyh MPI, P.S. Pacheco.Morgan Kaufmann.
3. GPU Gems 1&2, Nvidia. |
7) |
Parallel computer architectures: Shared-memory parallel systems and cache consistency in these systems, distributed-memory parallel systems, interconnection circuits and routing |
1. Parallel Computing, Theory and practice, M.J.Quinn, McGraw Hill.
2. Parallel programming wiyh MPI, P.S. Pacheco.Morgan Kaufmann.
3. GPU Gems 1&2, Nvidia. |
8) |
Midterm |
|
9) |
Programming scalable systems, message interlaced systems: MPI and PVM |
1. Parallel Computing, Theory and practice, M.J.Quinn, McGraw Hill.
2. Parallel programming wiyh MPI, P.S. Pacheco.Morgan Kaufmann.
3. GPU Gems 1&2, Nvidia. |
10) |
Application development with MPI |
1. Parallel Computing, Theory and practice, M.J.Quinn, McGraw Hill.
2. Parallel programming wiyh MPI, P.S. Pacheco.Morgan Kaufmann.
3. GPU Gems 1&2, Nvidia. |
11) |
Application development with MPI |
1. Parallel Computing, Theory and practice, M.J.Quinn, McGraw Hill.
2. Parallel programming wiyh MPI, P.S. Pacheco.Morgan Kaufmann.
3. GPU Gems 1&2, Nvidia. |
12) |
GPU programming with CUDA |
1. Parallel Computing, Theory and practice, M.J.Quinn, McGraw Hill.
2. Parallel programming wiyh MPI, P.S. Pacheco.Morgan Kaufmann.
3. GPU Gems 1&2, Nvidia. |
13) |
Application development with CUDA |
1. Parallel Computing, Theory and practice, M.J.Quinn, McGraw Hill.
2. Parallel programming wiyh MPI, P.S. Pacheco.Morgan Kaufmann.
3. GPU Gems 1&2, Nvidia. |
14) |
Performance measurement and analysis of parallel programs |
1. Parallel Computing, Theory and practice, M.J.Quinn, McGraw Hill.
2. Parallel programming wiyh MPI, P.S. Pacheco.Morgan Kaufmann.
3. GPU Gems 1&2, Nvidia. |
15) |
Parallel performance measurement and analysis applications |
1. Parallel Computing, Theory and practice, M.J.Quinn, McGraw Hill.
2. Parallel programming wiyh MPI, P.S. Pacheco.Morgan Kaufmann.
3. GPU Gems 1&2, Nvidia. |
16) |
final |
1. Parallel Computing, Theory and practice, M.J.Quinn, McGraw Hill.
2. Parallel programming wiyh MPI, P.S. Pacheco.Morgan Kaufmann.
3. GPU Gems 1&2, Nvidia. |
|
Program Outcomes |
Level of Contribution |
1) |
Competent knowledge of mathematics, science and technology, and computer engineering; ability to apply this knowledge to engineering solutions. |
|
2) |
Skills to design and conduct experiments, collect data, analyze and interpret results. |
|
3) |
Ability to design a complex system, process, device or product under realistic constraints and conditions to meet specific requirements; ability to apply modern design methods for this purpose. |
|
4) |
Ability to develop, select and use modern techniques and tools required for analysis and solution of complex problems encountered in engineering practice; ability to use information technologies effectively. |
|
5) |
Ability to design and conduct experiments, collect data, analyze and interpret results to investigate complex engineering problems or discipline-specific research topics. |
|
6) |
Ability to work effectively in intra-disciplinary and multi-disciplinary teams; ability to work individually. |
|
7) |
Ability to communicate effectively in Turkish, both orally and in writing; Knowledge of at least one foreign language; the ability to write and understand written reports effectively, to prepare design and production reports, to make effective presentations, to give and receive clear and understandable instructions. |
|
8) |
Awareness of the necessity of lifelong learning; the ability to access information, to follow developments in science and technology, and to constantly renew oneself. |
|
9) |
Acting in accordance with ethical principles, professional and ethical responsibility awareness; information about standards used in engineering applications. |
|
10) |
Information about business life practices such as project management, risk management and change management; awareness of entrepreneurship, innovation; information about sustainable development. |
|
11) |
Knowledge about the universal and social effects of engineering applications on health, environment and safety and the problems of the age reflected in the field of engineering; awareness of the legal consequences of engineering solutions. |
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