MIT Laboratory / Information Mechanics Group / U.S. Air Force’s Phillips Laboratory / Yepez / Phillips Labs / /
Currency
AMD / /
Event
Business Partnership / /
Facility
MIT Laboratory / University of Wisconsin / /
IndustryTerm
workstation-scale device / simulation tools / individual processors / medical imaging / given site / software problems / lattice gas models / physical law / software examples / spatial algorithms / lattice-gas updates / spatial site / tree network / real-time video processing / energy density / uniform spatial neighboring processors / diffusion nal lattice-gas / cam data-movement chips / level hardware / computational tools / modcurrent technology / lattice gas collaboration / chemical reactions / virtual processor / sample applications / sional lattice gas models / software domain / dimensional image processing / image processing / lattice-gas-like dynamics / local law / conventional dram chips / material systems / realtime image processing / porous media / lattice-gas / dram chip / Generic bit-map processing/smoothing/improving techniques / lattice gas / image-processing algorithms / physical systems / lattice gas machine / astronomical computing power / statistics gathering hardware / /
Organization
U.S. Air Force / MIT / Data / Advanced Research Projects Agency / automata∗ Norman Margolus MIT Laboratory For Computer Science Cambridge Massachusetts / University of Wisconsin / /
Person
Shi-Yi Chen / David Griffeath / Dan Rothman / Michael Biafore / Boghosian Rothman / /
Position
model / programmer / /
ProvinceOrState
Wisconsin / /
Technology
image-processing algorithms / same cam data-movement chips / Logic technology / simulation system / SRAM / modcurrent technology / image processing / 4 Megabit chips / uniform spatial neighboring processors / one virtual processor / simulation / 256 Kilobit chips / dram chip / gel electrophoresis / CA algorithms / conventional dram chips / medical imaging / /