This book offers the first comprehensive view on integrated circuit and system design for the Internet of Things (IoT), and in particular for the tiny nodes at its edge. The authors provide a fresh perspective on how the IoT will evolve based on recent and foreseeable trends in the semiconductor industry, highlighting the key challenges, as well as the opportunities for circuit and system innovation to address them. This book describes what the IoT really means from the design point of view, and how the constraints imposed by applications translate into integrated circuit requirements and design guidelines. Chapter contributions equally come from industry and academia.
After providing a system perspective on IoT nodes, this book focuses on state-of-the-art design techniques for IoT applications, encompassing the fundamental sub-systems encountered in Systems on Chip for IoT:
ultra-low power digital architectures and circuits
low- and zero-leakage memories(including emerging technologies)
circuits for hardware security and authentication
System on Chip design methodologies
on-chip power management and energy harvesting
ultra-low power analog interfaces and analog-digital conversion
short-range radios
miniaturized battery technologies
packaging and assembly of IoT integrated systems (on silicon and non-silicon substrates).
As a common thread, all chapters conclude with a prospective view on the foreseeable evolution of the related technologies for IoT. The concepts developed throughout the book are exemplified by two IoT node system demonstrations from industry.
The unique balance between breadth and depth of this book:
enables expert readers quickly to develop an understanding of the specific challenges and state-of-the-art solutions for IoT, as well as their evolution in the foreseeable futureprovides non-experts with a comprehensive introduction to integrated circuit design for IoT, and serves as an excellent starting point for further learning, thanks to the broad coverage of topics and selected references
makes it very well suited for practicing engineers and scientists working in the hardware and chip design for IoT, and as textbook for senior undergraduate, graduate and postgraduate students ( familiar with analog and digital circuits).
After providing a system perspective on IoT nodes, this book focuses on state-of-the-art design techniques for IoT applications, encompassing the fundamental sub-systems encountered in Systems on Chip for IoT:
ultra-low power digital architectures and circuits
low- and zero-leakage memories(including emerging technologies)
circuits for hardware security and authentication
System on Chip design methodologies
on-chip power management and energy harvesting
ultra-low power analog interfaces and analog-digital conversion
short-range radios
miniaturized battery technologies
packaging and assembly of IoT integrated systems (on silicon and non-silicon substrates).
As a common thread, all chapters conclude with a prospective view on the foreseeable evolution of the related technologies for IoT. The concepts developed throughout the book are exemplified by two IoT node system demonstrations from industry.
The unique balance between breadth and depth of this book:
enables expert readers quickly to develop an understanding of the specific challenges and state-of-the-art solutions for IoT, as well as their evolution in the foreseeable futureprovides non-experts with a comprehensive introduction to integrated circuit design for IoT, and serves as an excellent starting point for further learning, thanks to the broad coverage of topics and selected references
makes it very well suited for practicing engineers and scientists working in the hardware and chip design for IoT, and as textbook for senior undergraduate, graduate and postgraduate students ( familiar with analog and digital circuits).
"The book itself comprises a lengthy and well-written introduction to IoT, followed by several chapters giving guidance with respect to design details and methodologies. ... this work provides useful insight into the field. Each chapter is well illustrated and well referenced." (Computing Reviews, August, 2017)