Electronic Chips & Systems Design Languages

  • Jean Mermet

Table of contents

  1. Front Matter
    Pages i-ix
  2. VHDL Extensions

    1. Front Matter
      Pages 1-1
    2. Analog and Mixed-Signal Modelling and Simulation

    3. OO-VHDL

      1. Peter J. Ashenden, Philip A. Wilsey, Dale E. Martin
        Pages 57-70
      2. Martin Radetzki, Wolfgang Nebel
        Pages 71-84
  3. System Level Design

    1. Front Matter
      Pages 85-85
    2. HW/SW Co-design

      1. Luis Sánchez Fernández, Simon Pickin, Angel Groba, Natividad Martínez Madrid, Alejandro Alonso
        Pages 89-98
      2. François Cloute, Jean-Noël Contensou, Daniel Esteve, Pascal Pampagnin, Philippe Pons, Yves Favard
        Pages 111-120
      3. P. G. Plöger, Reinhard Budde, Karl H. Sylla
        Pages 131-142
    3. Co-simulation

      1. Per Bjuréus, Axel Jantsch
        Pages 145-157
      2. Vincent Moser, Alexis Boegli, Hans Peter Amann, Fausto Pellandini
        Pages 159-168
      3. Matthias Bauer, Wolfgang Ecker, Andreas Zinn
        Pages 169-178
    4. SLD methodology

      1. Axel Jantsch, Shashi Kumar, Ingo Sander, Bengt Svantesson, Johnny Öberg, Ahmed Hemani et al.
        Pages 181-192
      2. Francis Cook, Nathan Messer, Andy Carpenter
        Pages 193-203
      3. Gérard Berry, Ed Harcourt, Luciano Lavagno, Ellen Sentovich
        Pages 205-212

About this book

Introduction

Electronic Chips & Systems Design Languagesoutlines and describes the latest advances in design languages. The challenge of System on a Chip (SOC) design requires designers to work in a multi-lingual environment which is becoming increasingly difficult to master. It is therefore crucial for them to learn, almost in real time, from the experiences of their colleagues in the use of design languages and how these languages have become more advanced to cope with system design.
System designers, as well as students willing to become system designers, often do not have the time to attend all scientific events where they could learn the necessary information. This book will bring them a selected digest of the best contributions and industry strength case studies. All the levels of abstraction that are relevant, from the informal user requirements down to the implementation specifications, are addressed by different contributors. The author, together with colleague authors who provide valuable additional experience, presents examples of actual industrial world applications. Furthermore the academic concepts presented in this book provide excellent theories to student readers and the concepts described are up to date and in so doing provide most suitable root information for Ph.D. postgraduates.

Keywords

Embedded System Hardware Turing architecture circuit design formal verification modeling optimization stability

Editors and affiliations

  • Jean Mermet
    • 1
  1. 1.CNRS, ECSIFrance

Bibliographic information

  • DOI https://doi.org/10.1007/978-1-4757-3326-6
  • Copyright Information Springer-Verlag US 2001
  • Publisher Name Springer, Boston, MA
  • eBook Packages Springer Book Archive
  • Print ISBN 978-1-4419-4884-7
  • Online ISBN 978-1-4757-3326-6
  • About this book