Digital Design from the VLSI Perspective - Taraate, Vaibbhav
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This volume covers digital design techniques, exercises and applications. The book discusses digital design and implementation in the context of VLSI and embedded system design. It covers basic digital design techniques to high speed design techniques. The contents also cover performance improvement, optimization concepts and design case studies. It includes pedagogical features such as design examples and illustrations. This book will be a useful guide for hardware engineers, logic design engineers, professionals and hobbyists looking to learn and use the digital design to develop VLSI based algorithms, architectures and products.…mehr

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Produktbeschreibung
This volume covers digital design techniques, exercises and applications. The book discusses digital design and implementation in the context of VLSI and embedded system design. It covers basic digital design techniques to high speed design techniques. The contents also cover performance improvement, optimization concepts and design case studies. It includes pedagogical features such as design examples and illustrations. This book will be a useful guide for hardware engineers, logic design engineers, professionals and hobbyists looking to learn and use the digital design to develop VLSI based algorithms, architectures and products.

Autorenporträt
Vaibbhav Taraate is Entrepreneur and Mentor at "1 Rupee S T". He holds a B.E. (Electronics) degree from Shivaji University, Kolhapur (1995) and secured a gold medal for standing first in all engineering branches. He has completed his M.Tech. (Aerospace Control and Guidance) in 1999 from Indian Institute of Technology (IIT) Bombay. He has over 18 years of experience in semi-custom ASIC and FPGA design, primarily using HDL languages such as Verilog and VHDL. He has worked with few multinational corporations as consultant, senior design engineer, and technical manager. His areas of expertise include RTL design using VHDL, RTL design using Verilog, complex FPGA-based design, low power design, synthesis/optimization, static timing analysis, system design using microprocessors, high speed VLSI designs, and architecture design of complex SOCs.