This practical handbook fills in gaps that other textbooks on high-speed design don't discuss, covering every aspect of high-speed board-level digital design. Several design examples at high Gigabit per second data rates are presented. Discusses highest-speed logic and interface families of devices, relevant applications, and device speeds versus how far signals transmit with good signal integrity. A quick-reference overview of each device family is also provided. High-speed design rules are presented for both engineering design and printed circuit board layout. Emphasizes designing high-speed backplanes, driving cabling, bus architecture and topology. Discusses IBIS and SPICE modeling, simulations, design processes, and over 30 design automation tools. Quantifies signal integrity using jitter and bit error rate measurements, eye diagrams, time-domain reflectometry and transmission. Details high-speed transmission line and parasitic effects, cabling, connectors, single-ended/differential terminations, lab test equipment, and intellectual property. Dedicated chapter on fiber optics and when to use.
TOM GRANBERG has earned several technical degrees-a B.S. in Physics from Washington State University and an M.S. and Ph.D. in Electrical Engineering from the University of Missouri-Columbia. He also holds an M.B.A. from the University of Colorado at Denver. Tom has worked for dominant networking companies Cisco Systems and SkyStream Networks and in ASIC design emulation at Quickturn Design Systems (a Cadence Company). He has also worked in digital signal processing, digital imaging systems, and flat panel sensors, and at companies including Condor Systems, Martin Marietta (now Lockheed Martin), Storage Technology, and Honeywell Test Instruments. He lives in Santa Clara, California-the heart of the Silicon Valley-and enjoys access to many of the world 's newest technologies.