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This book-presents new methods and tools for the integration and
simulation of smart devices. The design approach described in this
book explicitly accounts for integration of Smart Systems
components and subsystems as a specific constraint. It includes
methodologies and EDA tools to enable multi-disciplinary and
multi-scale modeling and design, simulation of multi-domain
systems, subsystems and components at all levels of abstraction,
system integration and exploration for optimization of functional
and non-functional metrics. By covering theoretical and practical
aspects of smart device design, this book targets people who are
working and studying on hardware/software modelling, component
integration and simulation under different positions (system
integrators, designers, developers, researchers, teachers, students
etc.). In particular, it is a good introduction to people who have
interest in managing heterogeneous components in an efficient and
effective way on different domains and different abstraction
levels. People active in smart device development can understand
both the current status of practice and future research directions.
* Provides a comprehensive overview of smart systems design,
focusing on design challenges and cutting-edge solutions; * Enables
development of a co-simulation and co-design environment that
accounts for the peculiarities of the basic subsystems and
components to be integrated; * Describes development of modeling
and design techniques, methods and tools that enable multi-domain
simulation and optimization at various levels of abstraction and
across different technological domains.
This book-presents new methods and tools for the integration and
simulation of smart devices. The design approach described in this
book explicitly accounts for integration of Smart Systems
components and subsystems as a specific constraint. It includes
methodologies and EDA tools to enable multi-disciplinary and
multi-scale modeling and design, simulation of multi-domain
systems, subsystems and components at all levels of abstraction,
system integration and exploration for optimization of functional
and non-functional metrics. By covering theoretical and practical
aspects of smart device design, this book targets people who are
working and studying on hardware/software modelling, component
integration and simulation under different positions (system
integrators, designers, developers, researchers, teachers, students
etc.). In particular, it is a good introduction to people who have
interest in managing heterogeneous components in an efficient and
effective way on different domains and different abstraction
levels. People active in smart device development can understand
both the current status of practice and future research directions.
* Provides a comprehensive overview of smart systems design,
focusing on design challenges and cutting-edge solutions; * Enables
development of a co-simulation and co-design environment that
accounts for the peculiarities of the basic subsystems and
components to be integrated; * Describes development of modeling
and design techniques, methods and tools that enable multi-domain
simulation and optimization at various levels of abstraction and
across different technological domains.
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VLSI-SoC: Design and Engineering of Electronics Systems Based on New Computing Paradigms - 26th IFIP WG 10.5/IEEE International Conference on Very Large Scale Integration, VLSI-SoC 2018, Verona, Italy, October 8-10, 2018, Revised and Extended Selected Papers (Paperback, 1st ed. 2019)
Nicola Bombieri, Graziano Pravadelli, Masahiro Fujita, Todd Austin, Ricardo Reis
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R1,558
Discovery Miles 15 580
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Ships in 10 - 15 working days
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This book contains extended and revised versions of the best papers
presented at the 26th IFIP WG 10.5/IEEE International Conference on
Very Large Scale Integration, VLSI-SoC 2018, held in Verona, Italy,
in October 2018. The 13 full papers included in this volume were
carefully reviewed and selected from the 27 papers (out of 106
submissions) presented at the conference. The papers discuss the
latest academic and industrial results and developments as well as
future trends in the field of System-on-Chip (SoC) design,
considering the challenges of nano-scale, state-of-the-art and
emerging manufacturing technologies. In particular they address
cutting-edge research fields like heterogeneous, neuromorphic and
brain-inspired, biologically-inspired, approximate computing
systems.
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