Rodney M. F. Goodman - US grants

The objective is to build an intelligent system for design of analog integrated circuits. The ultimate goal is to automate the design process with a tool performing the following four functions: l) It prepares symbolic equations describing circuit specifications in terms of cuicuit parameters, 2) A database of design goals is created, 3) The system is an intgelligent front end to a set of supporting design tools such as circuit simulators, layout tools, etc., 4) The system stores and uses design expertise from a library of circuit descriptions. This project is one supported under the Creativity Awards for Undergraduate Engineering Students.

The aim of this research is to investigate the role and form that error control should take in the design of future random access memory (RAM) systems. A system-wide hierarchic approach to the problem is being pursued. Both on-chip and board-level error control are being explored with a focus on assessing the effectiveness of each in controlling various error sources and the impact each layer has on the other. The research includes (1) Coding Techniques: construction of error-control codes with qualities suited for RAM protection; (2) VLSI Architectures: the design and fabrication of VLSI circuits that implement these codes; and (3) Performance Analysis: mathematical analysis of the effectiveness of these codes and the complexity of their implementation. The end result of the research will be a better understanding of how to construct computer memories that are larger, faster and more reliable than those being designed today. It will demonstrate how error control can be used to keep the reliability of RAM systems high even as chip feature sizes shrink and multi-megabit chips become common. This research is a collaborative effort with Dr. Chris Heegard of Cornell University

This NSF award will be utilized to renovate approximately 5,600 square feet of research space in the Steele Laboratory of Electrical Sciences on the campus of the California Institute of Technology. Steele Lab is approximately 30 years old, and the renovation will retrofit the facility to the changed emphasis of Cal Tech electrical engineering research programs. In addition, it will consolidate researchers into one facility to work together on interdisciplinary projects in communications and automatic control. All seven project faculty have joined the faculty in the last ten years. Specific renovation activities include construction of a unique high bay area to house a flexible structure experiment as well as a distillation column of sufficient size to mimic actual industrial problems. A local area network will be established to increase researcher interaction and to overcome the inefficiencies associated with use of the campus backbone system which is approaching maximum capacity. The project will have an important impact on faculty growth and student enrollment, including minorities and women, in the competitive area of communications and automatic control.