United States of America
Professor Horowitz's initial work focused on designing high-performance digital systems by combining work in computer-aided design tools, circuit design, and system architecture. Dr. Horowitz's current research interests are quite broad and span using EE and CS analysis methods to problems in molecular biology to creating new design methodologies for analog and digital VLSI circuits. He has worked on many processor designs, from early RISC chips, to creating some of the first distributed shared memory multiprocessors, and is currently working on on-chip multiprocessor designs. Recently he has worked on a number of problems in computational photography. In 1990, he took leave from Stanford to help start Rambus Inc., a company designing high-bandwidth memory interface technology, and has continued work in high-speed I/O at Stanford. His current research includes updating both analog and digital design methods, low energy multiprocessor designs, computational photography, and applying engineering to biology.
Using EE and CS analysis methods to problems in molecular biology to creating new design methodologies for analog and digital VLSI circuits.
Yogev S, Cooper R, Fetter R, Horowitz M, Shen K. Microtubule organization determines axonal transport dynamics. Neuron. 2016 Oct 19;92(2):449-60.
Weaver JA, Horowitz MA. Measurement of supply pin current distributions in integrated circuit packages. InElectrical Performance of Electronic Packaging, 2007 IEEE 2007 Oct 29 (pp. 7-10). IEEE.