SpecC - TECHNICAL DOCUMENTS -

Technical Documents

SpecC Reference Compiler version 1.0 http://www.cecs.uci.edu/~specc/reference/
Language Reference Manual (open to public)
Vesion2.0[PDF:510KB]
Release Notes [PDF:6KB]
UCI homapege http://www.ics.uci.edu/~specc/
Presentetion Document 00/06/ 05 stoc_dac00_presen.pdf (779K)

reference book

	SYSTEM DESIGN: A Practical Guide With SpecC Andreas Gerstlauer Rainer Dömer Junyu Peng Daniel D. Gajski University of California, Irvine KLUWER ACADEMIC PUBLISHERS ISBN 0-7923-7387-1
(reprint from front cover of System Design book)
SYSTEM DESIGN: A hactical Guide ,vith SpecC will benefit designers and design managers of complex SOCs, or embedded systems in general, by allowing them to develop new methodologies from these results, in order to increase design productivity by orders of magnitude. Designers at RTL, Iogical or physical levels, who are interested in moving up to the system-level, will find a comprehensive overview within. The design inodels in the book define IP models and functions for IP exchange between IP providers and their users. A well-defined methodology like the one presented in this book will help product plauning divisions to quickly develop new products or to derive completely new business models, like e-design or product-on-demand. Finally, researchers and students in the area of system design will find an example of a formal, well-structured design flow in this book.

SPEC C:
Specification Language and Design Methodology
Daniel D. Gajski
Jianwen Zhu
Rainer Dömer
Andreas Gerstlauer
Shuqing Zhao
University of California, Irvine

KLUWER ACADEMIC PUBLISHERS

ISBN 0-7923-7822-9

(reprint from front cover of Spec C book)

For the near future, the recent predictions and roadmaps on silicon semiconductor technology all agree that the number of transistors on a chip will keep growing exponentially according to Moore's Law, pushing technology towards the system-on-a-chip (SOC) era. However, we are increasingly experiencing a productivity gap where the chip complexity that can be handled by current design teams falls short of the possibilities offered by technological advances. Together with growing time-to-market pressures, this drives the need for innovative measures to increase design productivity by orders of magnitude.

It is commonly agreed that the solutions for achieving such a leap in design productivity lie in a shift of the focus of the design process to higher levels of abstraction on the one hand and in the massive reuse of predesigned, comp[ex system components (intellectual property, IP) on the other hand. In order to be successful, both concepts eventually require the adoption of new languages and methodologies for system design, backed-up by the availability of a corresponding set of system-level design automation tools.

This book presents the Spec C system-level design language (SLDL) and the corresponding Spec C design methodology.

The Spec C Ianguage is intended for specification and design of SOCs or embedded systems including software and hardware whether using fixed platforms, integrating systems from different IPs, or synthesizing the system blocks from programming or hardware description languages. SPEC C: SPECIFICATION LANGUAGE AND METHODOLOGY describes the Spec C methodology that leads designers from an executable specification to an RTL implementation through a well-defined sequence of steps. Each model is described and guidelines are given for generating these models from executable specifications. Finally, the Spec C methodology is demonstrated on an industrial-size example. The design community is now entering the system level of abstraction era and Spec C is the enabling element to achieve a paradigm shift in design culture needed tor system'product design and manufacturing.

SPEC C: SPECIFICATION LANGUAGE AND METHODOLOGY will be of interest to researchers, designers, and managers dealing with system-level design, design flows and methodologies as well as students learning system specification, modeling and design.