TY - BOOK ID - 69926255 TI - Switching and finite automata theory AU - Kohavi, Zvi AU - Jha, Niraj K. PY - 2010 SN - 9780521857482 0521857481 9780511816239 9780511656385 0511656386 0511816235 1107210003 9781107210004 1139931318 9781139931311 0511658249 9780511658242 0511655533 9780511655531 0511656939 9780511656934 PB - Cambridge : Cambridge University Press, DB - UniCat KW - Sequential machine theory. KW - Switching theory. KW - Automatic control KW - Digital electronics KW - Electric networks KW - Electric switchgear KW - Information theory KW - Logic, Symbolic and mathematical KW - Machine theory KW - Mathematical physics KW - System analysis KW - Telecommunication KW - Finite automata KW - Finite state machines (Machine theory) KW - Electronic digital computers UR - https://www.unicat.be/uniCat?func=search&query=sysid:69926255 AB - "Understand the structure, behaviour, and limitations of logic machines with this thoroughly updated third edition. Many new topics are included, such as CMOS gates, logic synthesis, logic design for emerging nanotechnologies, digital system testing, and asynchronous circuit design, to bring students up-to-speed with modern developments. The intuitive examples and minimal formalism of the previous edition are retained, giving students a text that is logical and easy to follow, yet rigorous. Kohavi and Jha begin with the basics, and then cover combinational logic design and testing, before moving on to more advanced topics in finite-state machine design and testing. Theory is made easier to understand with 200 illustrative examples, and students can test their understanding with over 350 end-of-chapter review questions"--Provided by publisher. "Topics in switching and finite automata theory have been an important part of the curriculum in electrical engineering and computer science departments for several decades. The third edition of this book builds on the comprehensive foundation provided by the second edition and adds: significant new material in the areas of CMOS logic; modern two-level and multi-level logic synthesis methods; logic design for emerging nanotechnologies; test generation, design for testability and built-in self-test for combinational and sequential circuits; modern asynchronous circuit synthesis techniques; etc. We have attempted to maintain the comprehensive nature of the earlier edition in providing readers with an understanding of the structure, behavior, and limitations of logical machines. At the same time, we have provided an up-to-date context in which the presented techniques can find use in a variety of applications.We start with introductory material and build up to more advanced topics. Thus, the technical background assumed on the part of the reader is minimal"--Provided by publisher. ER -