Multicore Technology: Architecture, Reconfiguration, and Modeling

Купить бумажную книгу и читать

Купить бумажную книгу

По кнопке выше можно купить бумажные варианты этой книги и похожих книг на сайте интернет-магазина "Лабиринт".

Using the button above you can buy paper versions of this book and similar books on the website of the "Labyrinth" online store.

Реклама. ООО "ЛАБИРИНТ.РУ", ИНН: 7728644571, erid: LatgCADz8.

Название:Multicore Technology: Architecture, Reconfiguration, and Modeling

АвторMuhammad Yasir Qadri, Stephen J. Sangwine

Издательство: CRC Press

Серия:Embedded Multi-Core Systems

Год: 2013

Страниц:491

Язык: English

Формат: pdf

Размер: 36 Mb

Features

Includes contributions by top academics and researchers in the field

Covers the background of the technology, examples of various configurations, and questions that require further research

Contains information on multicore reconfiguration and optimization

Targets both high-performance computing (HPC) and embedded communities

Provides a survey of the state of the art in the field of multicore technology

Summary

The saturation of design complexity and clock frequencies for single-core processors has resulted in the emergence of multicore architectures as an alternative design paradigm. Nowadays, multicore/multithreaded computing systems are not only a de-facto standard for high-end applications, they are also gaining popularity in the field of embedded computing.

The start of the multicore era has altered the concepts relating to almost all of the areas of computer architecture design, including core design, memory management, thread scheduling, application support, inter-processor communication, debugging, and power management. This book gives readers a holistic overview of the field and guides them to further avenues of research by covering the state of the art in this area. It includes contributions from industry as well as academia.

able of Contents

Architecture and Design Flow

MORA: High-Level FPGA Programming Using a Many-Core Framework

Wim Vanderbauwhede, Sai Rahul Chalamalasetti, and Martin Margala

Implementing Time-Constrained Applications on a Predictable MPSoc

Sander Stuijk, Akash Kumar, Roel Jordans, and Henk Corporaal

SESAM: A Virtual Prototyping Solution to Design Multicore Architectures

Nicolas Ventroux, Tanguy Sassolas, Alexandre Guerre, and Caaliph Andriamisaina

Parallelism and Optimization

Verified Multicore Parallelism Using Atomic Verifiable Operations

Michal Dobrogost, Christopher Kumar Anand, and Wolfram Kahl

Accelerating Critical Section Execution with Multicore Architectures

M. Aater Suleman and Onur Mutlu

Memory Systems

TMbox: A Flexible and Reconfigurable Hybrid Transactional Memory System

Nehir Sonmez, Oriol Arcas, Osman S. Unsal, Adrián Cristal, and Satnam Singh

EM2

Omer Khan, Mieszko Lis, Keun Sup Shim, Myong Hyon Cho, and Srinivas Devadas

CAFÉ: Cache-Aware Fair and Efficient Scheduling for CMPs

Richard West, Puneet Zaroo, Carl A. Waldspurger, and Xiao Zhang

Debugging

Software Debugging Infrastructure for Multicore Systems-on-Chip

Bojan Mihajlović, Warren J. Gross, and Željko Žilić

Networks-on-Chip

On Chip Interconnects for Multicore Architectures

Prasun Ghosal and Soumyajit Poddar

Routing in Multicore NoCs

Prasun Ghosal and Tuhin Subhra Das

Efficient Topologies for 3-D Networks-on-Chip

Mohammad Ayoub Khan and Abdul Quaiyum Ansari

Network-on-Chip Performance Evaluation Using an Analytical Method

Sahar Foroutan, Abbas Sheibanyrad, and Frédéric Pétrot

Bibliography

Дата создания страницы: