Your cart

Your cart is empty

Computer Organization and Design MIPS : The Hardware / Software Interface

Regular price $238.95
Unit price
per
  • Author:
    PATTERSON David / HENNESSY John
  • ISBN:
    9780128201091
  • Publication Date:
    December 2020
  • Edition:
    6
  • Pages:
    832
  • Binding:
    Paperback
  • Publisher:
    Morgan Kaufmann Publishers
  • Country of Publication:
    United Kingdom
Computer Organization and Design MIPS : The Hardware / Software Interface
Computer Organization and Design MIPS : The Hardware / Software Interface

Computer Organization and Design MIPS : The Hardware / Software Interface

Regular price $238.95
Unit price
per
  • Author:
    PATTERSON David / HENNESSY John
  • ISBN:
    9780128201091
  • Publication Date:
    December 2020
  • Edition:
    6
  • Pages:
    832
  • Binding:
    Paperback
  • Publisher:
    Morgan Kaufmann Publishers
  • Country of Publication:
    United Kingdom

Description

Computer Organization and Design: The Hardware/Software Interface, Sixth Edition, the leading, award-winning textbook from Patterson and Hennessy used by more than 40,000 students per year, continues to present the most comprehensive and readable introduction to this core computer science topic. Improvements to this new release include new sections in each chapter on Domain Specific Architectures (DSA) and updates on all real-world examples that keep it fresh and relevant for a new generation of students.

Key Features:

  • Covers parallelism in-depth, with examples and content highlighting parallel hardware and software topics
  • Includes new sections in each chapter on Domain Specific Architectures (DSA)
  • Discusses and highlights the "Eight Great Ideas" of computer architecture, including Performance via Parallelism, Performance via Pipelining, Performance via Prediction, Design for Moore-s Law, Hierarchy of Memories, Abstraction to Simplify Design, Make the Common Case Fast and Dependability via Redundancy
(0 in cart)
Shipping calculated at checkout.

You may also like

  • Computer Organization and Design: The Hardware/Software Interface, Sixth Edition, the leading, award-winning textbook from Patterson and Hennessy used by more than 40,000 students per year, continues to present the most comprehensive and readable introduction to this core computer science topic. Improvements to this new release include new sections in each chapter on Domain Specific Architectures (DSA) and updates on all real-world examples that keep it fresh and relevant for a new generation of students.

    Key Features:

    • Covers parallelism in-depth, with examples and content highlighting parallel hardware and software topics
    • Includes new sections in each chapter on Domain Specific Architectures (DSA)
    • Discusses and highlights the "Eight Great Ideas" of computer architecture, including Performance via Parallelism, Performance via Pipelining, Performance via Prediction, Design for Moore-s Law, Hierarchy of Memories, Abstraction to Simplify Design, Make the Common Case Fast and Dependability via Redundancy

Computer Organization and Design: The Hardware/Software Interface, Sixth Edition, the leading, award-winning textbook from Patterson and Hennessy used by more than 40,000 students per year, continues to present the most comprehensive and readable introduction to this core computer science topic. Improvements to this new release include new sections in each chapter on Domain Specific Architectures (DSA) and updates on all real-world examples that keep it fresh and relevant for a new generation of students.

Key Features:

  • Covers parallelism in-depth, with examples and content highlighting parallel hardware and software topics
  • Includes new sections in each chapter on Domain Specific Architectures (DSA)
  • Discusses and highlights the "Eight Great Ideas" of computer architecture, including Performance via Parallelism, Performance via Pipelining, Performance via Prediction, Design for Moore-s Law, Hierarchy of Memories, Abstraction to Simplify Design, Make the Common Case Fast and Dependability via Redundancy