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Electronic design automation (EDA), also referred to as electronic computer-aided design (ECAD),[1] is a category of "software tools for designing "electronic systems such as "integrated circuits and "printed circuit boards. The tools work together in a "design flow that chip designers use to design and analyze entire semiconductor chips. Since a modern semiconductor chip can have billions of components, EDA tools are essential for their design.

This article describes EDA specifically with respect to "integrated circuits.

Contents

History[edit]

Early days[edit]

Before EDA, "integrated circuits were designed by hand, and manually laid out. Some advanced shops used geometric software to generate the tapes for the "Gerber "photoplotter, but even those copied digital recordings of mechanically drawn components. The process was fundamentally graphic, with the translation from electronics to graphics done manually. The best known company from this era was "Calma, whose "GDSII format survives.

By the mid-1970s, developers started to automate the design along with the drafting. The first placement and routing ("Place and route) tools were developed. The proceedings of the "Design Automation Conference cover much of this era.

The next era began about the time of the publication of "Introduction to "VLSI Systems" by "Carver Mead and "Lynn Conway in 1980. This ground breaking text advocated chip design with programming languages that compiled to silicon. The immediate result was a considerable increase in the complexity of the chips that could be designed, with improved access to "design verification tools that used "logic simulation. Often the chips were easier to lay out and more likely to function correctly, since their designs could be simulated more thoroughly prior to construction. Although the languages and tools have evolved, this general approach of specifying the desired behavior in a textual programming language and letting the tools derive the detailed physical design remains the basis of digital IC design today.

The earliest EDA tools were produced academically. One of the most famous was the "Berkeley VLSI Tools Tarball", a set of "UNIX utilities used to design early VLSI systems. Still widely used are the "Espresso heuristic logic minimizer and "Magic.

Another crucial development was the formation of "MOSIS, a consortium of universities and fabricators that developed an inexpensive way to train student chip designers by producing real integrated circuits. The basic concept was to use reliable, low-cost, relatively low-technology IC processes, and pack a large number of projects per wafer, with just a few copies of each projects' chips. Cooperating fabricators either donated the processed wafers, or sold them at cost, seeing the program as helpful to their own long-term growth.

Birth of commercial EDA[edit]

1981 marks the beginning of EDA as an industry. For many years, the larger electronic companies, such as "Hewlett Packard, "Tektronix, and "Intel, had pursued EDA internally. In 1981, managers and developers spun out of these companies to concentrate on EDA as a business. "Daisy Systems, "Mentor Graphics, and "Valid Logic Systems were all founded around this time, and collectively referred to as DMV. Within a few years there were many companies specializing in EDA, each with a slightly different emphasis. The first trade show for EDA was held at the "Design Automation Conference in 1984.

In 1981, the "U.S. Department of Defense began funding of "VHDL as a hardware description language. In 1986, "Verilog, another popular high-level design language, was first introduced as a hardware description language by "Gateway Design Automation. Simulators quickly followed these introductions, permitting direct simulation of chip designs: executable specifications. In a few more years, back-ends were developed to perform "logic synthesis.

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3D PCB layout

Current status[edit]

Current digital flows are extremely modular (see "Integrated circuit design, "Design closure, and "Design flow (EDA)). The front ends produce standardized design descriptions that compile into invocations of "cells,", without regard to the cell technology. Cells implement logic or other electronic functions using a particular integrated circuit technology. Fabricators generally provide libraries of components for their production processes, with simulation models that fit standard simulation tools. Analog EDA tools are far less modular, since many more functions are required, they interact more strongly, and the components are (in general) less ideal.

EDA for electronics has rapidly increased in importance with the continuous scaling of "semiconductor technology.[2] Some users are "foundry operators, who operate the "semiconductor fabrication facilities, or "fabs", and design-service companies who use EDA software to evaluate an incoming design for manufacturing readiness. EDA tools are also used for programming design functionality into "FPGAs.

Software focuses[edit]

Design[edit]

Simulation[edit]

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Schematic capture program

Analysis and verification[edit]

Manufacturing preparation[edit]

Functional Safety[edit]

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PCB layout and schematic for connector design

Companies[edit]

Old companies[edit]

"Market capitalization and company name as of December, 2011:[3]

Note: "EEsof should likely be on this list,[8] but it does not have a market cap as it is the EDA division of "Keysight.

Acquisitions[edit]

Many of the EDA companies acquire small companies with software or other technology that can be adapted to their core business.[9] Most of the market leaders are amalgamations of many smaller companies.[10] This trend is helped by the tendency of software companies to design tools as accessories that fit naturally into a larger vendor's suite of programs on "digital circuitry, many new tools incorporate analog design, and mixed systems. This is happening because there is now a trend to place "entire electronic systems on a single chip.

See also[edit]

References[edit]

  1. ^ "About the EDA Industry". Electronic Design Automation Consortium. Archived from the original on August 2, 2015. Retrieved July 29, 2015. 
  2. ^ Lavagno, Martin, and Scheffer (2006). Electronic Design Automation For Integrated Circuits Handbook. Taylor and Francis. "ISBN "0849330963. 
  3. ^ Company Comparison - Google Finance. Google.com. Retrieved on 2013-08-10.
  4. ^ Synopsys, Inc.: NASDAQ:SNPS quotes & news - Google Finance. Google.com (2013-05-22). Retrieved on 2013-08-10.
  5. ^ CDNS Key Statistics | Cadence Design Systems, Inc. Stock - Yahoo! Finance. Finance.yahoo.com. Retrieved on 2013-08-10.
  6. ^ Dylan McGrath (30 Nov 2011). "Synopsys to buy Magma for $507 million". EETimes. 
  7. ^ "Synopsys to Acquire Magma Design Automation". 
  8. ^ "Agilent EEsof EDA – Part I". 
  9. ^ Kirti Sikri Desai (2006). "EDA Innovation through Merger and Acquisitions". EDA Cafe. Retrieved March 23, 2010. 
  10. ^ List of EDA mergers and acquisitions at SemiWiki.com
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