TY - BOOK ID - 46203229 TI - Efficient Design of Variation-Resilient Ultra-Low Energy Digital Processors AU - Reyserhove, Hans. AU - Dehaene, Wim. PY - 2019 SN - 3030124851 3030124843 PB - Cham : Springer International Publishing : Imprint: Springer, DB - UniCat KW - Integrated circuits KW - Design and construction. KW - Systems engineering. KW - Electronics. KW - Circuits and Systems. KW - Signal, Image and Speech Processing. KW - Electronics and Microelectronics, Instrumentation. KW - Electrical engineering KW - Physical sciences KW - Engineering systems KW - System engineering KW - Engineering KW - Industrial engineering KW - System analysis KW - Design and construction KW - Electronic circuits. KW - Signal processing. KW - Image processing. KW - Speech processing systems. KW - Microelectronics. KW - Microminiature electronic equipment KW - Microminiaturization (Electronics) KW - Electronics KW - Microtechnology KW - Semiconductors KW - Miniature electronic equipment KW - Computational linguistics KW - Electronic systems KW - Information theory KW - Modulation theory KW - Oral communication KW - Speech KW - Telecommunication KW - Singing voice synthesizers KW - Pictorial data processing KW - Picture processing KW - Processing, Image KW - Imaging systems KW - Optical data processing KW - Processing, Signal KW - Information measurement KW - Signal theory (Telecommunication) KW - Electron-tube circuits KW - Electric circuits KW - Electron tubes UR - https://www.unicat.be/uniCat?func=search&query=sysid:46203229 AB - This book enables readers to achieve ultra-low energy digital system performance. The author’s main focus is the energy consumption of microcontroller architectures in digital (sub)-systems. The book covers a broad range of topics extensively: from circuits through design strategy to system architectures. The result is a set of techniques and a context to realize minimum energy digital systems. Several prototype silicon implementations are discussed, which put the proposed techniques to the test. The achieved results demonstrate an extraordinary combination of variation-resilience, high speed performance and ultra-low energy. Presents a full bottom-up micro-electronics approach: circuit-level, design strategy and CAD automation, architecture optimization Motivates discussion with simulation results and/or measurements in an advanced nanometer CMOS process Compares traditional circuit/design/architecture techniques and state-of-the-art, setting the landscape of current best performance and how it can be improved. ER -