Performance growth of single-core processors has come to a halt in the past decade, but was re-enabled by the introduction of parallelism in processors. Multicore frameworks along with Graphical Processing Units empowered to enhance parallelism broadly. Couples of compilers are updated to developing challenges forsynchronization and threading issues. Appropriate program and algorithm classifications will have advantage to a great extent to the group of software engineers to get opportunities for effective parallelization. In present work we investigated current species for classification of algorithms, in that related work on classification is discussed along with the comparison of issues that challenges the classification. The set of algor...
The design of high-performance computing architectures requires performance analysis of large-scale ...
Parallel software is now required to exploit the abundance of threads and processors in modern multi...
Automatic parallelization techniques for finding loop-based parallelism fail to find efficient paral...
Abstract—Performance growth of single-core processors has come to a halt in the past decade, but was...
Code generation and programming have become ever more challenging over the last decade due to the sh...
Multi-core and many-core were already major trends for the past six years, and are expected to conti...
The shift towards parallel processor architectures has made programming, performance prediction and ...
This paper presents an overview of automatic program parallelization techniques. It covers dependenc...
Speeding up sequential programs on multicores is a challenging problem that is in urgent need of a s...
Characteristics of full applications found in scientific computing industries today lead to challeng...
This paper presents a technique to fully automatically generate efficient and readable code for para...
Compiling for parallelism is a longstanding topic of compiler research. This book describes the fund...
Modern computers will increasingly rely on parallelism to achieve high computation rates. Techniques...
The limited ability of compilers to nd the parallelism in programs is a signi cant barrier to the us...
The design of high-performance computing architectures requires performance analysis of large-scale ...
Parallel software is now required to exploit the abundance of threads and processors in modern multi...
Automatic parallelization techniques for finding loop-based parallelism fail to find efficient paral...
Abstract—Performance growth of single-core processors has come to a halt in the past decade, but was...
Code generation and programming have become ever more challenging over the last decade due to the sh...
Multi-core and many-core were already major trends for the past six years, and are expected to conti...
The shift towards parallel processor architectures has made programming, performance prediction and ...
This paper presents an overview of automatic program parallelization techniques. It covers dependenc...
Speeding up sequential programs on multicores is a challenging problem that is in urgent need of a s...
Characteristics of full applications found in scientific computing industries today lead to challeng...
This paper presents a technique to fully automatically generate efficient and readable code for para...
Compiling for parallelism is a longstanding topic of compiler research. This book describes the fund...
Modern computers will increasingly rely on parallelism to achieve high computation rates. Techniques...
The limited ability of compilers to nd the parallelism in programs is a signi cant barrier to the us...
The design of high-performance computing architectures requires performance analysis of large-scale ...
Parallel software is now required to exploit the abundance of threads and processors in modern multi...
Automatic parallelization techniques for finding loop-based parallelism fail to find efficient paral...