The book deals with the subject of digital system clocking, focusing on clocked storage elements ("flip-flops" or "latches") in low-power and high-performance systems. The importance of clocking is becoming even more significant as clock speeds are rising rapidly, doubling every three years.
The book deals with the subject of digital system clocking, focusing on clocked storage elements ("flip-flops" or "latches") in low-power and high-performance systems. The importance of clocking is becoming even more significant as clock speeds are rising rapidly, doubling every three years. Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
VOJIN G. OKLOBDZIJA received his PhD from the University of California, Los Angeles. He has been a consultant for major computer and electronics companies in the fields of high-performance systems, low-power design, and fast data-path implementations with the emphasis on multi-media applications and has published extensively on the subjects of system design and computer engineering. Dr. Oklobdzija has worked at the IBM T.J. Watson Research Center where he did pioneering work on RISC architecture and machine development starting with the IBM 801. Currently, he is a professor in the Department of Electrical and Computer Engineering at the University of California, Davis, where he directs the Advanced Computer Systems Engineering Laboratory (ACSEL). VLADIMIR M. STOJANOVIC is currently pursuing his PhD degree as a member of the VLSI research group, Electrical Engineering Department, Stanford University. He obtained MSEE degree from Stanford University and Dipl Ing diploma from Faculty of Electrical Engineering, University of Belgrade, Serbia. He was a research scholar at ACSEL. DEJAN M. MARKOVIC received an Dipl Ing degree in Electrical Engineering from the University of Belgrade, Yugoslavia, in 1998 and an MS in Electrical Engineering from the University of California at Berkeley in 2000, where he is currently working toward a PhD. Mr. Markovic received the 2000-2001 CalVIEW Fellow Award for excellence in teaching and mentoring of industry engineers through the UC Berkeley distant learning program. He is a current member of the UC Berkeley Hitachi Fellow Team, conducting market research on Hitachi's Mu-Chip RFID technology. NIKOLA NEDOVIC is currently pursuing his PhD in the Department of Electrical and Computer Engineering at the University of California, Davis. He was a research scholar at ACSEL, and has been published in seven papers.
Inhaltsangabe
Preface. Introduction. Theory of Clocked Storage Elements. Timing and Energy Parameters. Pipelining and Timing Analysis. High Performance System Issues. Low Energy System Issues. Simulation Techniques. State of the Art Clocked Storage Elements in CMOS Technology. Microprocesor Examples. References. Index.
Preface. Introduction. Theory of Clocked Storage Elements. Timing and Energy Parameters. Pipelining and Timing Analysis. High Performance System Issues. Low Energy System Issues. Simulation Techniques. State of the Art Clocked Storage Elements in CMOS Technology. Microprocesor Examples. References. Index.
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