Automatic synthesis of analog layout : a survey

A review of recent research in the automatic synthesis of physical geometry for analog integrated circuits is presented. On introduction, an explanation of the difficulties involved in analog layout as opposed to digital layout is covered. Review of the literature then follows. Emphasis is placed on the exposition of general methods for addressing problems specific to analog layout, with the details of specific systems only being given when they surve to illustrate these methods well. The conclusion discusses problems remaining and offers a prediction as to how technology will evolve to solve them. It is argued that although progress has been and will continue to be made in the automation of analog IC layout, due to fundamental differences in the nature of analog IC design as opposed to digital design, it should not be expected that the level of automation of the former will reach that of the latter any time soon

Design of testbed and emulation tools

The research summarized was concerned with the design of testbed and emulation tools suitable to assist in projecting, with reasonable accuracy, the expected performance of highly concurrent computing systems on large, complete applications. Such testbed and emulation tools are intended for the eventual use of those exploring new concurrent system architectures and organizations, either as users or as designers of such systems. While a range of alternatives was considered, a software based set of hierarchical tools was chosen to provide maximum flexibility, to ease in moving to new computers as technology improves and to take advantage of the inherent reliability and availability of commercially available computing systems

Transformation of ADA programs into silicon (82 Mar. 1 - 82 Oct. 31)

technical reportThis report outlines the beginning steps taken in an integrated research effort toward the development of a methodology, and supporting systems, for transforming Ada programs, or program units, (directly) into corresponding VLSI systems. The time seems right to expect good results. The need is evident; special purpose systems should be realistic alternatives where simplicity, speed, reliability, and security are dominant factors. Success in this research can lead to attractive options for embedded system applications

Multiple objective optimisation of data and control paths in a behavioural silicon compiler

The objective of this research was to implement an 'intelligent' silicon compiler that provides the ability to automatically explore the design space and optimise a design, given as a behavioural description, with respect to multiple objectives. The objective has been met by the implementation of the MOODS Silicon Compiler. The user submits goals or objectives to the system which automatically finds near optimal solutions. As objectives may be conflicting, trade-offs between synthesis tasks are essential and consequently their simultaneous execution must occur. Tasks are decomposed into behaviour preserving transformations which, due to their completeness, can be applied in any sequence to a multi-level representation of the design. An accurate evaluation of the design is ensured by feeding up technology dependent information to a cost function. The cost function guides the simulated annealing algorithm in applying transformations to iteratively optimise the design. The simulated annealing algorithm provides an abstractness from the transformations and designer's objectives. This abstractness avoids the construction of tailored heuristics which pre-program trade-offs into a system. Pre-programmed trade-offs are used in most systems by assuming a particular shape to the trade-off curve and are inappropriate as trade-offs are technology dependent. The lack of pre-programmed trade-offs in the MOODS system allows it to adapt to changes in technology or library cells. The choice of cells and their subsequent sharing are based on the user's criteria expressed in the cost function, rather than being pre-programmed into the system. The results show that implementations created by MOODS are better than or equal to those achieved by other systems. Comparisons with other systems highlighted the importance of specifying all of a design's data as the lack of data misrepresents the design leading to misleading comparisons. The MOODS synthesis system includes an efficient method for automated design space exploration where a varied set of near optimal implementations can be produced from a single behavioural specification. Design space exploration is an important aspect of designing by high-level synthesis and in the development of synthesis systems. It allows the designer to obtain a perspicuous characterization of a design's design space allowing him to investigate alternative designs

VSS : a VHDL synthesis system

This report describes a register transfer synthesis system that allows a designer to interact with the design process. The designer can modify the compiled design by changing the input description, selecting optimization and mapping strategies, or graphically changing the generated design schematic. The VHDL language is used for input and output descriptions. An intermediate representation which incorporates signal typing and component attributes simplifies compilation and facilitates design optimization. The compilation process consists of two phases. First, a design composed of generic components is synthesized from the input description. Second, this design is translated into components from a particular library by a mapper and optimized by a logic optimizer. Redesign to new technologies can be accomplished by changing only the component library

Transforming an Ada program unit to silicon and verifying its behavior in an Ada environment: a first experiment

Journal ArticleMicroelectronics technology has advanced so rapidly and been so successful that we are new having to build large systems with a multitude of diverse, interacting components. Some components of these systems exhibit distinct architectures and may, in fact, be implemented following different choices of data abstraction realized in a variety of logic and circuit technologies. When we as designers understand how to build such systems, we are no longer just software engineers or just hardware engineers

A versatile, scalable, and open memory architecture in CMOS 0.18 μm

A lookup table is a permanent memory storate element in which every stored value corresponds to a unique address. Range addressable lookup tables differ in that every stored value corresponds to a range of addresses. This type of memory has important applications in a recently proposed central processing unit which employs a multi-digit logarithmic number system that is well suited for digital signal processing applications. This thesis details the work done to improve range addressable lookup tables in terms of operating speed and area utilization. Two range addressable lookup table designs are proposed. Ideal design parameters are determined. An integrated circuit test platform is proposed to determine the real-world ability of these lookup tables. A case study exploring how non-linear functions can be approximated with range addressable lookup tables is presented