- Electronic design automation
Electronic design automation (EDA) is the category of tools for designing and producing electronic systems ranging from
printed circuit boards (PCBs) to integrated circuits. This is sometimes referred to as ECAD (electronic computer-aided design) or just CAD. ( Printed circuit boardsand wire wrapboth contain specialized discussions of the EDA used for those.)
The term "EDA" is also used as an umbrella term for
computer-aided engineering, computer-aided designand computer-aided manufacturingof electronicsin the discipline of electrical engineering. This usage probably originates in the IEEEDesign Automation Technical Committee.
This article describes EDA specifically for electronics, and concentrates on EDA used for designing
integrated circuits. The segment of the industry that must use EDA are chip designers at semiconductor companies. Large chips are too complex to design by hand.
Growth of EDA
EDA for electronics has rapidly increased in importance with the continuous scaling of
semiconductortechnology. (See Moore's Law.) Some users are foundry operators, who operate the semiconductor fabricationfacilities, 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.
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 GDSIIformat survives.
By the mid-70s, developers were starting to automate the design, and not just the drafting. The first placement and routing (
Place and route) tools were developed. The proceedings of the Design Automation Conferencecover much of this era.
The next era began more or less with the publication of "Introduction to VLSI Systems" by
Carver Meadand Lynn Conwayin 1980. This groundbreaking text advocated chip design with programming languages that compiled to silicon. The immediate result was a hundredfold 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 not just easier to lay out, but more correct as well, because their designs could be simulated more thoroughly before construction.
The earliest EDA tools were produced academically, and were in the public domain. 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 is the
Espresso heuristic logic minimizerand 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 idea 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. 1981marks 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 Systemswere 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.
1986, Verilog, a popular high-level design language, was first introduced as a hardware description language by Gateway. In 1987, the U.S. Department of Defense funded creation of VHDLas a specification language. 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.
Many of the EDA companies acquire small companies with software or other technology that can be adapted to their core business. Most of the market leaders are rather incestuous amalgamations of many smaller companies. 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 (the "tool flow").
While early EDA focused 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.
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 much less modular, since many more functions are required, they interact more strongly, and the components are (in general) less ideal.
EDA is divided into many (sometimes overlapping) sub-areas. They mostly align with the path of manufacturing from design to mask generation. The following applies to chip/ASIC/FPGA construction but is very similar in character to the areas of printed circuit board design:
Design and Architecture: design the chip's schematics, output in Verilog, VHDL, SPICEand other formats.
Floorplanning: The preparation step of creating a basic die-map showing the expected locations for logic gates, power & ground planes, I/O pads, and hard macros. (This is analogous to a city-planner's activity in creating residential, commercial, and industrial zones within a city block.)
Logic synthesis: translation of a chip's abstract, logical RTL-description (often specified via a hardware description language, or "HDL", such as Verilog or VHDL) into a discrete netlist of logic-gate ( boolean-logic) primitives.
Behavioral Synthesis, High Level Synthesisor Algorithmic Synthesis: This takes the level of abstraction higher and allows automation of the architecture exploration process. It involves the process of translating an abstract behavioral description of a design to synthesizeable RTL. The input specification is in languages like behavioral VHDL, algorithmic SystemC, C++ etc and the RTL description in VHDL/Verilog is produced as the result of synthesis.
* IP cores: provide pre-programmed design elements.
EDA databases: databases specialized for EDA applications. Needed since historically general purpose DBs did not provide enough performance.
Simulation: simulate a circuit's operation so as to verify correctness and performance.
**Transistor Simulation – low-level transistor-simulation of a schematic/layout's behavior, accurate at device-level.
Logic simulation– digital-simulation of an RTL or gate-netlist's digital (boolean 0/1) behavior, accurate at boolean-level.
** Behavioral Simulation – high-level simulation of a design's architectural operation, accurate at cycle-level or interface-level.
Hardware emulation– Use of special purpose hardware to emulate the logic of a proposed design. Can sometimes be plugged into a system in place of a yet-to-be-built chip; this is called in-circuit emulation.
Clock Domain Crossing Verification(CDC check): Similar to linting, but these checks/tools specialize in detecting and reporting potential issues like data loss, meta-stability due to use of multiple clock domains in the design.
Formal verification, also model checking: Attempts to prove, by mathematical methods, that the system has certain desired properties, and that certain undesired effects (such as deadlock) cannot occur.
* Equivalence checking: algorithmic comparison between a chip's RTL-description and synthesized gate-netlist, to ensure functional equivalency at the "logical" level.
* Power analysis and optimization: optimizes the circuit to reduce the power required for operation, without affecting the functionality.
Place and route, PAR: (for digital devices) tool-automated placement of logic-gates and other technology-mapped components of the synthesized gate-netlist, then subsequent routing of the design, which adds wires to connect the components' signal and power terminals.
Static timing analysis: Analysis of the timing of a circuit in an input-independent manner, hence finding a worst case over all possible inputs.
* Transistor layout: (for analog/mixed-signal devices), sometimes called "polygon pushing" – a prepared-schematic is converted into a layout-map showing all layers of the device.
* Design for Manufacturability: tools to help optimize a design to make it as easy and cheap as possible to manufacture.
Design closure: IC design has many constraints, and fixing one problem often makes another worse. Design closure is the process of converging to a design that satisfies all constraints simultaneously.
* Analysis of
* Power network design and analysis
Physical verification, PV: checking if a design is physically manufacturable, and that the resulting chips will not have any function-preventing physical defects, and will meet original specifications.
Design rule checking, DRC – checks a number of rules regarding placement and connectivity required for manufacturing.
Layout versus schematic, LVS – checks if designed chip layout matches schematics from specification.
Layout extraction, RCX – extracts netlists from layout, including parasitic resistors (PRE), and often capacitors (RCX), and sometimes inductors, inherent in the chip layout.
Mask data preparation, MDP: generation of actual lithography photomaskused to physically manufacture the chip.
Resolution enhancement techniques, RET – methods of increasing of quality of final photomask.
Optical proximity correction, OPC – up-front compensation for diffractionand interferenceeffects occurring later when chip is manufactured using this mask.
Mask generation– generation of flat mask image from hierarchical design.
* Manufacturing Test
Automatic test pattern generation, ATPG – generates pattern-data to systematically exercise as many logic-gates, and other components, as possible.
Built-in self-test, or BIST – installs self-contained test-controllers to automatically test a logic (or memory) structure in the design
Design For Test, DFT – adds logic-structures to a gate-netlist, to facilitate post-fabrication (die/wafer) defect testing.
Technology CAD, or TCAD, simulates and analyses the underlying process technology. Semiconductor process simulation, the resulting dopant profiles, and electrical properties of devices are derived directly from device physics.
Electromagnetic field solvers, or just field solvers, solve Maxwell's equations directly for cases of interest in IC and PCB design. They are known for being slower but more accurate than the layout extractionabove.
Largest companies and their histories
Well before Electronic Design Automation, the use of computers to help with drafting tasks was well established, and software commercially available. For example,
Calma, Applicon, and Computervision, established in the late 1960s, sold digitizing and drafting software used for ICs. ZukenInc. in Japan, established in 1976, sold similar software for PC boards. While these tools were valuable, they did not help with the design portion of the process, which was still done by hand. Design Automation software was developed in the 70s, in academia and within large companies, but it was not until the early 1980s that software to help with the design portion of the process became commercially available.
Mentor Graphicswas founded by managers from Tektronix, Daisy Systemswas founded largely by developers from Intel, and Valid Logic Systemsby designers from Lawrence Livermore National Laboratoryand Hewlett Packard. Meanwhile companies such as Calmaand Zukenattempted to expand into the design, as well as the drafting, portion of the market.
When EDA started, analysts categorized these companies as a niche within the “computer aided design” market, primarily mechanical design drafting tools for conceptualizing bridges, buildings and automobiles. In a few years these fields diverged, and today no companies specialize in both mechanical and electrical design automation.
Cadence Design Systemswas founded in the mid 1980s, specializing in physical IC design. Synopsyswas founded about the same time frame to productize logic synthesis. Both have grown to be the largest full-line suppliers of EDA tools. Magma Design Automationwas founded in 1997 to take advantage of the simplifications possible by building an IC design system from scratch.
Comparison of Free EDA software
Design flow (EDA), design flows are the explicit combination of electronic design automation tools to accomplish the design of an integrated circuit
EDA database, is a database specialized for the purpose of electronic design automation
List of EDA companies
Placement (EDA), placement is an essential step in electronic design automation
Power optimization (EDA), power optimization refers to the use of electronic design automation tools to optimize (reduce) the power consumption of a digital design, while preserving the functionality
Routing (EDA), routing is a crucial step in the design of integrated circuits
Post silicon validation, the final step in the EDA design flow
* Circuit Design
List of CAD companies
Further reading/External links
* [http://www.edac.org/ EDA Consortium]
* [http://www.isqed.org/ ISQED] Design and Design Automation Symposium Leading Design for Quality and Manufacturing
* [http://www.eda.org EDA Industry Working Groups] Non-Profit standards organization
* [http://www.edacafe.com EDA Cafe] EDA Portal and Community Hub
* [http://www.vlsitoday.com VLSI today] Chip design & EDA news portal
* [http://www.dac.com Design Automation Conference] The Design Automation Conference
* [http://edageek.com EDA Geek] News and Events about the Electronic Design Automation industry
* [http://ic.hkstp.org/ic_design_eda.html List of EDA companies and products] from hkstp.org
Open source EDA tools
* [http://www.opencollector.org/ Open Collector] a news site for Free/Trialware EDA software
OpenCores[http://www.opencores.org/projects.cgi/web/opentech/about OpenTech CD ROM] collects several hundred tools
gEDAproject is a community of open-source developers who have collaboratively produced an end-to-end EDA tool suite called the "gEDA Suite". This toolset includes programs for schematic capture, analog and digital simulation, PCB layout, Gerber viewing, attribute and BOM management, and other design tasks. The tools are release under the GPL.
* [http://opencircuitdesign.com/magic/ Magic 7] A popular open-source IC design tool
* [http://www.cs.berkeley.edu/~lazzaro/chipmunk/describe/describe.html Berkeley Chipmunk] A historic set of tools.
DiglogChipmunk suite application 'Diglog' that simulate digital logics. Features real-time view & edit.
* The Electric VLSI Design System a complete system for integrated-circuit design.
OpenCoresPredesigned, LGPLed intellectual property blocks for ICs
* [http://www-asim.lip6.fr/recherche/alliance Alliance] Complete set of RTL to layout EDA tools
Kicadis an open source (GPL) software for the creation of electronic schematic diagrams and printed circuit board artwork.
* Qucs is an open source (GPL) software based on Qt for the creation and simulation (large-signal, small-signal, S-parameters, noise behaviour and digital) of electrical and RF circuits.
* For open source versions of logic design languages, see the languages, i.e. See
* [http://signs.sf.net Signs] (free eclipse-based hardware design and simulation environment)
* [http://packetviz.wiki.sourceforge.net/PacketViz+Wiki PacketViz] Packet visualization tool to graph and debug cache coherency simulations and other hardware/software systems.
Publicadfree educational digital design package.
FreePCBA printed circuit board design program for Microsoft Windows.
*http://www.staticfreesoft.com/documentsTextbook.html Computer Aids for VLSI Design by Steven M. Rubin - text is available on line.
*"Electronic Design Automation For Integrated Circuits Handbook", by Lavagno, Martin, and Scheffer, ISBN 0-8493-3096-3, 2006. A two volume book surveying the field of EDA for ICs.
*"Combinatorial Algorithms for Integrated Circuit Layout", by Thomas Lengauer, ISBN 3-5190-2110-2, Teubner Verlag, 1997.
*"The Electronic Design Automation Handbook", by Dirk Jansen et al., Kluwer Academic Publishers, ISBN 1-4020-7502-2, 2003, available also in German ISBN 3-446-21288-4 (2005), a 750 page book with basics on IC design and tool principles, covering the whole field.
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