© 2000

Code Optimization Techniques for Embedded Processors

Methods, Algorithms, and Tools


Table of contents

  1. Front Matter
    Pages i-viii
  2. Rainer Leupers
    Pages 1-28
  3. Rainer Leupers
    Pages 29-58
  4. Rainer Leupers
    Pages 59-79
  5. Rainer Leupers
    Pages 101-125
  6. Rainer Leupers
    Pages 149-163
  7. Rainer Leupers
    Pages 165-180
  8. Rainer Leupers
    Pages 181-182
  9. Back Matter
    Pages 183-216

About this book


The building blocks of today's and future embedded systems are complex intellectual property components, or cores, many of which are programmable processors. Traditionally, these embedded processors mostly have been pro­ grammed in assembly languages due to efficiency reasons. This implies time­ consuming programming, extensive debugging, and low code portability. The requirements of short time-to-market and dependability of embedded systems are obviously much better met by using high-level language (e.g. C) compil­ ers instead of assembly. However, the use of C compilers frequently incurs a code quality overhead as compared to manually written assembly programs. Due to the need for efficient embedded systems, this overhead must be very low in order to make compilers useful in practice. In turn, this requires new compiler techniques that take the specific constraints in embedded system de­ sign into account. An example are the specialized architectures of recent DSP and multimedia processors, which are not yet sufficiently exploited by existing compilers.


Hardware algorithms architecture computer-aided design (CAD) design development digital signal processor embedded systems multimedia optimization programming quality software software development technology

Authors and affiliations

  1. 1.University of DortmundGermany

Bibliographic information