Some resources for teaching concurrency
Proceedings of the 7th Workshop on Parallel and Distributed Systems: Testing, Analysis, and Debugging
Implementation of Parallel Genetic Algorithm Based on CUDA
ISICA '09 Proceedings of the 4th International Symposium on Advances in Computation and Intelligence
Reducing task creation and termination overhead in explicitly parallel programs
Proceedings of the 19th international conference on Parallel architectures and compilation techniques
Towards metaprogramming for parallel systems on a chip
Euro-Par'09 Proceedings of the 2009 international conference on Parallel processing
Analysis of parallel multicore performance on sobel edge detector
Proceedings of the 15th WSEAS international conference on Computers
AdaStreams: a type-based programming extension for stream-parallelism with ada 2005
Ada-Europe'10 Proceedings of the 15th Ada-Europe international conference on Reliable Software Technologies
Generating GPU code from a high-level representation for image processing kernels
Euro-Par'11 Proceedings of the 2011 international conference on Parallel Processing
StreamPI: a stream-parallel programming extension for object-oriented programming languages
The Journal of Supercomputing
Proceeding of the 44th ACM technical symposium on Computer science education
Non-blocking parallel subset construction on shared-memory multicore architectures
AusPDC '13 Proceedings of the Eleventh Australasian Symposium on Parallel and Distributed Computing - Volume 140
A Speculative Parallel DFA Membership Test for Multicore, SIMD and Cloud Computing Environments
International Journal of Parallel Programming
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With the rise of multi-core architecture, parallel programming is an increasingly important topic for software engineers and computer system designers. Written by well-known researchers Larry Snyder and Calvin Lin, this highly anticipated first edition emphasizes the principles underlying parallel computation, explains the various phenomena, and clarifies why these phenomena represent opportunities or barriers to successful parallel programming. Ideal for an advanced upper-level undergraduate course, Parallel Programming supplies enduring knowledge that will outlive the current hardware and software, aiming to inspire future researchers to build tomorrow's solutions. "...the first basic book on the subject that I've ever seen that seems to have the pulse on the true issues of parallelism that are relevant for students." --Alan Edelman, MIT "Principles of Parallel Programming is a wonderful book and I plan to use it in our new parallel programming course..."---Peiyi Tang, University of Arkansas, Little Rock "I like [Principles of Parallel Programming] very much for a few specific reasons: it's concise, covers the most relevant topics but does not take thousand pages to do it, it is hands on and it covers. ..recent developments with multi-core and GPGPU." --Edin Hodzic, Santa Clara University