3,722 research outputs found
A knowledge-based approach to VLSI-design in an open CAD-environment
A knowledge-based approach is suggested to assist a designer in the increasingly complex task of generating VLSI-chips from abstract, high-level specifications of the system. The complexity of designing VLSI-circuits has reached a level where computer-based assistance has become indispensable. Not all of the design tasks allow for algorithmic solutions. AI technique can be used, in order to support the designer with computer-aided tools for tasks not suited for algorithmic approaches. The approach described in this paper is based upon the underlying characteristics of VLSI design processes in general, comprising all stages of the design. A universal model is presented, accompanied with a recording method for the acquisition of design knowledge - strategic and task-specific - in terms of the design actions involved and their effects on the design itself. This method is illustrated by a simple design example: the implementation of the logical EXOR-component. Finally suggestions are made for obtaining a universally usable architecture of a knowledge-based system for VLSI-design
Recommended from our members
Silicon compilation
Silicon compilation is a term used for many different purposes. In this paper we define silicon compilation as a mapping from some higher level description into layout. We define the basic issues in structural and behavioral silicon compilation and some possible solutions to those issues. Finally, we define the concept of an intelligent silicon compiler in which the compiler evaluates the quality of the generated design and attempts to improve it if it is not satisfactory
Recommended from our members
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
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
Genetic algorithms
Genetic algorithms are mathematical, highly parallel, adaptive search procedures (i.e., problem solving methods) based loosely on the processes of natural genetics and Darwinian survival of the fittest. Basic genetic algorithms concepts are introduced, genetic algorithm applications are introduced, and results are presented from a project to develop a software tool that will enable the widespread use of genetic algorithm technology
A Reuse-based framework for the design of analog and mixed-signal ICs
Despite the spectacular breakthroughs of the semiconductor industry, the ability to design integrated circuits (ICs) under stringent time-to-market (TTM) requirements is lagging behind integration capacity, so far keeping pace with still valid Moore's Law. The resulting gap is threatening with slowing down such a phenomenal growth. The design community believes that it is only by means of powerful CAD tools and design methodologies -and, possibly, a design paradigm shift-that this design gap can be bridged. In this sense, reuse-based design is seen as a promising solution, and concepts such as IP Block, Virtual Component, and Design Reuse have become commonplace thanks to the significant advances in the digital arena. Unfortunately, the very nature of analog and mixed-signal (AMS) design has hindered a similar level of consensus and development. This paper presents a framework for the reuse-based design of AMS circuits. The framework is founded on three key elements: (1) a CAD-supported hierarchical design flow that facilitates the incorporation of AMS reusable blocks, reduces the overall design time, and expedites the management of increasing AMS design complexity; (2) a complete, clear definition of the AMS reusable block, structured into three separate facets or views: the behavioral, structural, and layout facets, the two first for top-down electrical synthesis and bottom-up verification, the latter used during bottom-up physical synthesis; (3) the design for reusability set of tools, methods, and guidelines that, relying on intensive parameterization as well as on design knowledge capture and encapsulation, allows to produce fully reusable AMS blocks. A case study and a functional silicon prototype demonstrate the validity of the paper's proposals.Ministerio de Educación y Ciencia TEC2004-0175
Validation & Verification of an EDA automated synthesis tool
Reliability and correctness are two mandatory features for automated synthesis tools. To reach the goals several campaigns of Validation and Verification (V&V) are needed. The paper presents the extensive efforts set up to prove the correctness of a newly developed EDA automated synthesis tool. The target tool, MarciaTesta, is a multi-platform automatic generator of test programs for microprocessors' caches. Getting in input the selected March Test and some architectural details about the target cache memory, the tool automatically generates the assembly level program to be run as Software Based Self-Testing (SBST). The equivalence between the original March Test, the automatically generated Assembly program, and the intermediate C/C++ program have been proved resorting to sophisticated logging mechanisms. A set of proved libraries has been generated and extensively used during the tool development. A detailed analysis of the lessons learned is reporte
Energy Saving Techniques for Phase Change Memory (PCM)
In recent years, the energy consumption of computing systems has increased
and a large fraction of this energy is consumed in main memory. Towards this,
researchers have proposed use of non-volatile memory, such as phase change
memory (PCM), which has low read latency and power; and nearly zero leakage
power. However, the write latency and power of PCM are very high and this,
along with limited write endurance of PCM present significant challenges in
enabling wide-spread adoption of PCM. To address this, several
architecture-level techniques have been proposed. In this report, we review
several techniques to manage power consumption of PCM. We also classify these
techniques based on their characteristics to provide insights into them. The
aim of this work is encourage researchers to propose even better techniques for
improving energy efficiency of PCM based main memory.Comment: Survey, phase change RAM (PCRAM
MISSED: an environment for mixed-signal microsystem testing and diagnosis
A tight link between design and test data is proposed for speeding up test-pattern generation and diagnosis during mixed-signal prototype verification. Test requirements are already incorporated at the behavioral level and specified with increased detail at lower hierarchical levels. A strict distinction between generic routines and implementation data makes reuse of software possible. A testability-analysis tool and test and DFT libraries support the designer to guarantee testability. Hierarchical backtrace procedures in combination with an expert system and fault libraries assist the designer during mixed-signal chip debuggin
- …