Proceedings of the Caltech Conference on Very Large Scale Integration, held at the California Institute of Technology 22 - 24 January 1979 ; Organized by the Caltech Computer Science Department and the Caltech Industrial Associates Office

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Algorithm to layout (ATL) systems for VLSI design

PhD ThesisThe complexities involved in custom VLSI design together with the failure of CAD techniques to keep pace with advances in the fabrication technology have resulted in a design bottleneck. Powerful tools are required to exploit the processing potential offered by the densities now available. Describing a system in a high level algorithmic notation makes writing, understanding, modification, and verification of a design description easier. It also removes some of the emphasis on the physical issues of VLSI design, and focus attention on formulating a correct and well structured design. This thesis examines how current trends in CAD techniques might influence the evolution of advanced Algorithm To Layout (ATL) systems. The envisaged features of an example system are specified. Particular attention is given to the implementation of one its features COPTS (Compilation Of Occam Programs To Schematics). COPTS is capable of generating schematic diagrams from which an actual layout can be derived. It takes a description written in a subset of Occam and generates a high level schematic diagram depicting its realisation as a VLSI system. This diagram provides the designer with feedback on the relative placement and interconnection of the operators used in the source code. It also gives a visual representation of the parallelism defined in the Occam description. Such diagrams are a valuable aid in documenting the implementation of a design. Occam has also been selected as the input to the design system that COPTS is a feature of. The choice of Occam was made on the assumption that the most appropriate algorithmic notation for such a design system will be a suitable high level programming language. This is in contrast to current automated VLSI design systems, which typically use a hardware des~ription language for input. These special purpose languages currently concentrate on handling structural/behavioural information and have limited ability to express algorithms. Using a language such as Occam allows a designer to write a behavioural description which can be compiled and executed as a simulator, or prototype, of the system. The programmability introduced into the design process enables designers to concentrate on a design's underlying algorithm. The choice of this algorithm is the most crucial decision since it determines the performance and area of the silicon implementation. The thesis is divided into four sections, each of several chapters. The first section considers VLSI design complexity, compares the expert systems and silicon compilation approaches to tackling it, and examines its parallels with software complexity. The second section reviews the advantages of using a conventional programming language for VLSI system descriptions. A number of alternative high level programming languages are considered for application in VLSI design. The third section defines the overall ATL system COPTS is envisaged to be part of, and considers the schematic representation of Occam programs. The final section presents a summary of the overall project and suggestions for future work on realising the full ATL system

The Fifth NASA Symposium on VLSI Design

The fifth annual NASA Symposium on VLSI Design had 13 sessions including Radiation Effects, Architectures, Mixed Signal, Design Techniques, Fault Testing, Synthesis, Signal Processing, and other Featured Presentations. The symposium provides insights into developments in VLSI and digital systems which can be used to increase data systems performance. The presentations share insights into next generation advances that will serve as a basis for future VLSI design

Submicron Systems Architecture Project: Semiannual Technical Report

No abstract available

On the nature and effect of power distribution noise in CMOS digital integrated circuits

The thesis reports on the development of a novel simulation method aimed at modelling power distribution noise generated in digital CMOS integrated circuits. The simulation method has resulted in new information concerning: 1. The magnitude and nature of the power distribution noise and its dependence on the performance and electrical characteristics of the packaged integrated circuit. Emphasis is laid on the effects of resistive, capacitative and inductive elements associated with the packaged circuit. 2. Power distribution noise associated with a generic systolic array circuit comprising 1,020,000 transistors, of which 510,000 are synchronously active. The circuit is configured as a linear array which, if fabricated using two-micron bulk CMOS technology, would be over eight centimetres long and three millimetres wide. In principle, the array will perform 1.5 x 10 to the power of 11 operations per second. 3. Power distribution noise associated with a non-array-based signal processor which, if fabricated in 2-micron bulk CMOS technology, would occupy 6.7 sq. cm. The circuit contains about 900,000 transistors, of which 600,000 are functional and about 300,000 are used for yield enhancement. The processor uses the RADIX-2 algorithm and is designed to achieve 2 x 10 to the power of 8 floating point operations per second. 4. The extent to which power distribution noise limits the level of integration and/ or performance of such circuits using standard and non-standard fabrication and packaging technology. 5. The extent to which the predicted power distribution noise levels affect circuit susceptibility to transient latch-up and electromigration. It concludes the nature of CMOS digital integrated circuit power distribution noise and recommends ways in which it may be minimised. It outlines an approach aimed at mechanising the developed simulation methodology so that the performance of power distribution networks may more routinely be assessed. Finally. it questions the long term suitability of mainly digital techniques for signal processing

Proceedings of the Second Caltech Conference on Very Large Scale Integration, held at the California Institute of Technology 19-21 January, 1981 ; Organized by the Caltech Computer Science Department and the Caltech Industrial Associates Office, and sponsored by Caltech Industrial Associates and the National Science Foundation

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