Compiling Parallel Loops for High Performance Computers

Name: Compiling Parallel Loops for High Performance Computers
Brand: Springer-Verlag New York Inc.
SKU: 9781461363866
Price: 99.78 EUR
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Partitioning, Data Assignment and Remapping

Autor: David E. Hudak, Santosh G. Abraham

Jazyk:

Väzba: Brožovaná

Vydavateľ: Springer-Verlag New York Inc.

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The exploitationof parallel processing to improve computing speeds is being examined at virtually al...

Informácie o knihe

Autor

David E. Hudak, Santosh G. Abraham

Jazyk

Angličtina

Väzba

Kniha - Brožovaná

Vydalo

2012

Stránok

159

EAN

9781461363866

ISBN

1461363861

Enbook ID

02016369

Vydavateľ

Springer-Verlag New York Inc.

Hmotnosť

284

Rozmery

155 x 235 x 11

Kompletný popis

The exploitationof parallel processing to improve computing speeds is being examined at virtually all levels of computer science, from the study of parallel algorithms to the development of microarchitectures which employ multiple functional units. The most visible aspect of this interest in parallel processing is the commercially available multiprocessor systems which have appeared in the past decade. Unfortunately, the lack of adequate software support for the development of scientific applications that will run efficiently on multiple processors has stunted the acceptance of such systems. §One of the major impediments to achieving high parallel efficiency on many data-parallel scientific applications is communication overhead, which is exemplified by cache coherency traffic and global memory overhead of interprocessors with a logically shared address space and physically distributed memory. Such techniques can be used by scientific application designers seeking to optimize code for a particular high-performance computer. In addition, these techniques can be seen as a necesary step toward developing software to support efficient paralled programs. §In multiprocessor sytems with physically distributed memory, reducing communication overhead involves both data partitioning and data placement. Adaptive Data Partitioning (ADP) reduces the execution time of parallel programs by minimizing interprocessor communication for iterative data-parallel loops with near-neighbor communication. Data placement schemes are presented that reduce communication overhead. Under the loop partition specified by ADP, global data is partitioned into classes for each processor, allowing each processor to cache certain regions of the global data set. In addition, for many scientific applications, peak parallel efficiency is achieved only when machine-specific tradeoffs between load imbalance and communication are evaluated and utilized in choosing the data partition. The techniques in this book evaluate these tradeoffs to generate optimum cyclic partitions for data-parallel loops with either a linearly varying or uniform computational structure and either neighborhood or dimensional multicast communication patterns. This tradeoff is also treated within the CPR (Collective Partitioning and Remapping) algorithm, which partitions a collection of loops with various computational structures and communication patterns. Experiments that demonstrate the advantage of ADP, data placement, cyclic partitioning and CPR were conducted on the Encore Multimax and BBN TC2000 multiprocessors using the ADAPT system, a program partitioner which automatically restructures iterative data-parallel loops. §This book serves as an excellent reference and may be used as the text for an advanced course on the subject. §

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Compiling Parallel Loops for High Performance Computers

Partitioning, Data Assignment and Remapping

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Kompletný popis

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