This course will not be taught for the time being as its contents are
under discussion. Motivated students can follow this course on the
basis of an individual program.
In such a case, you should contact
me first and make an
agreement on how to proceed.
Starting from the academic year 2005-2006, the course has
renewed contents and it is no longer possible to do an examination
based on the old contents.
The course can be seen as a follow-up to the HDL-Based SoC
Design module of the
System-on-Chip Design course. It is
also open to students with an equivalent preparation, such as the ASIC Design Laboratory.
The rest of the text on this page refers to the 2005-2006 edition of
the course.
Contents
As the coming edition will be the first one for this course, the
contents are not fully fixed. Some keywords:
Low-power design techniques at the system and register-transfer
levels.
The material to be studied for this course consists of:
A series of papers and books as specified below.
The slides of the lectures (see below).
List of papers and books
Pedram, M., Power Minimization in IC Design: Principles and
Applications, ACM Transactions on Design Automation of Electronic
Systems, Vol. 1(1), (January 1996). On-line
copy (only in UT-domain).
Pedram, M. and A. Abdollahi, Low-Power RT-Level Synthesis
Techniques: A Tutorial, IEE Proceedings on Computers and Digital
Techniques, Vol. 152(3), pp 333-343, (May 2005).
On-line copy (only in UT-domain).
Benini, L., G. De Micheli and E. Macii, Designing Low-Power
Circuits: Practical Recipes, IEEE Circuits and Systems Magazine,
Vol. 1(1), pp 6-25, (2001).
On-line
copy (only in UT-domain).
Verbauwhede, I. and C. Nicol, Low Power DSPs for Wireless
Communications, International Symposium on Low-Power Electronic
Design, ISLPED'00, Rapallo, Italy, pp 303-310, (2000).
On-line
copy (only in UT-domain).
Sparsoe, J. and S. Furber (Eds.), Principles of Asynchronous
Circuit Design, A Systems Perspective, Kluwer Academic Publishers,
Boston, (2001). The first 8 chapters can be downloaded from
Jens Sparsoe's home page. To be
studied: Chapters 1, 2, 3, Sections 4.1, 4.2, Chapter 5, Sections 7.1,
8.3, and 8.4.
Berkel, K. van , J. Kessels, M. Roncken, R. Seijs and F. Schalij,
The VLSI-Programming Language Tangram and Its Translation into
Handshake Circuits, European Conference on Design Automation,
EDAC'91, pp 384-389, (1991).
On-line
copy (only in UT-domain).
Peeters, A. and K. van Berkel, Single-Rail Handshake Circuits,
Second Working Conference on Asynchronous Design Methodologies, pp
53-62, (May 1995).
On-line
copy (only in UT-domain).
Peeters, A., Single-Rail Handshake Circuits, Ph.D. Thesis,
Eindhoven University of Technology, Institute for Programming
Research and Algorithmics (TUE-IPA), (June 1996). On-line
copy. This material is optional, only meant for background
reading.
The examination consists of a discussion on your project results
and an oral examination on the entire theory. You will receive
separate marks for each project. The average of the two marks is your
base mark. Your performance in the theory part of the oral examination
will be used to correct the base mark at most by one point (up or
down) to become the final mark.