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This book provides an invaluable primer on the techniques utilized
in the design of low power digital semiconductor devices. Readers
will benefit from the hands-on approach which starts form the
ground-up, explaining with basic examples what power is, how it is
measured and how it impacts on the design process of
application-specific integrated circuits (ASICs). The authors use
both the Unified Power Format (UPF) and Common Power Format (CPF)
to describe in detail the power intent for an ASIC and then guide
readers through a variety of architectural and implementation
techniques that will help meet the power intent. From analyzing
system power consumption, to techniques that can be employed in a
low power design, to a detailed description of two alternate
standards for capturing the power directives at various phases of
the design, this book is filled with information that will give
ASIC designers a competitive edge in low-power design.
iming, timing, timing! That is the main concern of a digital
designer charged with designing a semiconductor chip. What is it,
how is it T described, and how does one verify it? The design team
of a large digital design may spend months architecting and
iterating the design to achieve the required timing target. Besides
functional verification, the t- ing closure is the major milestone
which dictates when a chip can be - leased to the semiconductor
foundry for fabrication. This book addresses the timing
verification using static timing analysis for nanometer designs.
The book has originated from many years of our working in the area
of timing verification for complex nanometer designs. We have come
across many design engineers trying to learn the background and
various aspects of static timing analysis. Unfortunately, there is
no book currently ava- able that can be used by a working engineer
to get acquainted with the - tails of static timing analysis. The
chip designers lack a central reference for information on timing,
that covers the basics to the advanced timing veri- cation
procedures and techniques.
This book provides an invaluable primer on the techniques utilized
in the design of low power digital semiconductor devices. Readers
will benefit from the hands-on approach which starts form the
ground-up, explaining with basic examples what power is, how it is
measured and how it impacts on the design process of
application-specific integrated circuits (ASICs). The authors use
both the Unified Power Format (UPF) and Common Power Format (CPF)
to describe in detail the power intent for an ASIC and then guide
readers through a variety of architectural and implementation
techniques that will help meet the power intent. From analyzing
system power consumption, to techniques that can be employed in a
low power design, to a detailed description of two alternate
standards for capturing the power directives at various phases of
the design, this book is filled with information that will give
ASIC designers a competitive edge in low-power design.
iming, timing, timing! That is the main concern of a digital
designer charged with designing a semiconductor chip. What is it,
how is it T described, and how does one verify it? The design team
of a large digital design may spend months architecting and
iterating the design to achieve the required timing target. Besides
functional verification, the t- ing closure is the major milestone
which dictates when a chip can be - leased to the semiconductor
foundry for fabrication. This book addresses the timing
verification using static timing analysis for nanometer designs.
The book has originated from many years of our working in the area
of timing verification for complex nanometer designs. We have come
across many design engineers trying to learn the background and
various aspects of static timing analysis. Unfortunately, there is
no book currently ava- able that can be used by a working engineer
to get acquainted with the - tails of static timing analysis. The
chip designers lack a central reference for information on timing,
that covers the basics to the advanced timing veri- cation
procedures and techniques.
Learn to model for synthesis using VHDL. See the details of how
VHDL gets translated into logic gates in this book. Also, see how
hardware elements are described in synthesizable VHDL. This book is
a must primer for anyone who is beginning to learn synthesis using
VHDL. A chapter on verification explains the many causes of
simulation mismatches between pre and post synthesis models and how
to avoid these. Modeling guidelines are also provided to help
improve synthesis results.
DESCRIPTION: (This softcover edition of the book has no
accompanying CD). This is a beginner's book on SystemC targeted for
both system designers as well as logic designers. Designers who
already know VHDL or Verilog HDL will find the book very easy to
read and learn about SystemC. Designers can in a very short time
start writing SystemC models and simulating them with the
information provided in the book. An excellent foreword has been
provided by Stan Krolikoski, the Open SystemC Initiative Chairman
-- " ...a primer that gradually introduces the reader to the
complexities of SystemC by reference to common digital design
concepts ..." REVIEW: "Is easy to understand for anyone with
digital logic design background . . . suitable as an introduction
book to SystemC . . . Examples are very helpful" - Xiaoyan Huang "I
enjoyed reading the SystemC Primer book. It was very easy to read
and the examples were excellent. I feel like I have a good
understanding of the language. I felt that the examples showed the
positive attributes of the new language specifically the
parameterization of models so they can be reusable. By using the
examples the designer can focus more on the design itself and not
the language" - Jean Witinski "This is a very useful book for those
interested in SystemC for hardware design. It has many practical
examples and gives pragmatic advice on what is possible with
hardware synthesis" - Grant Martin, Fellow, Cadence Labs "This book
provides an excellent introduction to SystemC. SystemC concepts are
clearly explained and illustrated with practical examples. It is a
must read for people interested in modeling hardware in SystemC" -
Abhijit Ghosh, Synopsys "This is definitely a reference for
designers who want to learn SystemC. Numerous examples guide the
reader towards a sound understanding of the language. Higher level
SystemC features are introduced and not kept aside. Bottom line, a
very good book to SystemC . . . " - Yves Vanderperren, Alcatel
Microelectronics "Excellent introduction to SystemC constructs
explained with detailed examples, complete with corresponding logic
diagrams. A must for every SystemC designer's desk" - Sanjiv
Narayan "I enjoyed reading it. Recommended to designers learning
SystemC for modeling and synthesis . . . it will also be welcomed
on both graduate and advanced undergraduate courses" - David Long,
Doulos "Well suited as a text book for students and a great value
for hardware designers that want to get started with SystemC" -
Bernhard Niemann, Fraunhofer Institute for Integrated Circuits
Exchange formats demystified with clear and concise examples.
Reading the book will give you the power to understand these
formats faster. The book describes DEF, LEF, PDEF, SDF, SPEF and
VCD. It describes what is in the standard, what its format looks
like and clear explanations of its semantics.
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