CATIA competes in the high-end CAD/CAM/CAE market with Siemens NX.
CATIA started as an in-house development in 1977 by French aircraft manufacturer Avions Marcel Dassault, at that time customer of the CAD/CAM CAD software to develop Dassault's Mirage fighter jet, then was adopted in the aerospace, automotive, shipbuilding, and other industries.
Initially named CATI (Conception Assistée Tridimensionnelle Interactive — French for Interactive Aided Three-dimensional Design ) — it was renamed CATIA in 1981, when Dassault created a subsidiary to develop and sell the software, and signed a non-exclusive distribution agreement with IBM.
In 1984, the Boeing Company had chosen CATIA V3 as its main 3D CAD tool, becoming its largest customer.
In 1992, CADAM had been purchased from IBM, and the next year CATIA CADAM V4 was published.
In 1996, it was ported from one to four Unix operating systems, including IBM AIX, Silicon Graphics IRIX, Sun Microsystems SunOS, and Hewlett-Packard HP-UX.
In 1998, V5 was released, which was an entirely rewritten version of CATIA, with support for UNIX, Windows NT and Windows XP since 2001.
In 2008, Dassault announced and released CATIA V6. While the server can run on Microsoft Windows, Linux or AIX, client support for any operating system other than Microsoft Windows is dropped.
In November 2010, Dassault launched Catia V6R2011x, the latest release of its PLM2.0 platform while still continuing to support and improve its Catia V5 software.
In June 2011, Dassault launched V6 R2012.
Scope of application
Commonly referred to as a 3D Product Lifecycle Management software suite, CATIA supports multiple stages of product development (CAx), from conceptualization, design (CAD), manufacturing (CAM), and engineering (CAE). CATIA facilitates collaborative engineering across disciplines, including surfacing & shape design, mechanical engineering, equipment and systems engineering.
CATIA provides a suite of surfacing, reverse engineering, and visualization solutions to create, modify, and validate complex innovative shapes. From subdivision, styling, and Class A surfaces to mechanical functional surfaces.
CATIA enables the creation of 3D parts, from 3D sketches, sheetmetal, composites, molded, forged or tooling parts up to the definition of mechanical assemblies. It provides tools to complete product definition, including functional tolerances, as well as kinematics definition.
CATIA facilitates the design of electronic, electrical as well as distributed systems such as fluid and HVAC systems, all the way to the production of documentation for manufacturing.
Systems engineering
CATIA offers a solution to model complex and intelligent products through the systems engineering approach. It covers the requirements definition, the systems architecture, the behavior modeling and the virtual product or embedded software generation. CATIA can be customized via application programming interfaces (API). CATIA V5 & V6 can be adapted using Visual Basic and C++ programming languages via CAA (Component Application Architecture); a component object model (COM)-like interface.
Catia V5 features a parametric solid/surface-based package which uses NURBS as the core surface representation and has several workbenches that provide KBE support.
V5 can work with other applications, including Enovia, Smarteam, and various CAE Analysis applications.
CATIA can be applied to a wide variety of industries, from aerospace and defense, automotive, and industrial equipment, to high tech, shipbuilding, consumer goods, plant design, consumer packaged goods, life sciences, architecture and construction, process power and petroleum, and services. CATIA V4, CATIA V5, Pro/ENGINEER, NX (formerly Unigraphics), and SolidWorks are the dominant systems.
Aerospace
The Boeing Company used CATIA V3 to develop its 777 airliner, and used CATIA V5 for the 787 series aircraft. They have employed the full range of Dassault Systemes' 3D PLM products — CATIA,DELMIA, and ENOVIA LCA — supplemented by Boeing developed applications.
The development of the Indian Light Combat Aircraft has been using CATIA V5.
Chinese Xian JH-7A is the first aircraft developed by CATIA V5, when the design was completed on September 26, 2000.
European aerospace giant Airbus has been using CATIA since 2001.
The Brazilian aircraft company, EMBRAER, use Catia V4 and V5 to build all airplanes.
The Anglo/Italian Helicopter company, AgustaWestland, use CATIA V4 and V5 to design their full range of aircraft.
The Eurofighter Typhoon has been designed using both CATIA V4 and V5.
The main supplier of helicopters to the U.S Military forces, Sikorsky Aircraft Corp., uses CATIA as well.
Automotive
Many automotive companies use CATIA to varying degrees, including BMW,Porsche, Daimler AG, Chrysler, Honda,Audi,Jaguar Land Rover, Volkswagen, SEAT, Škoda, Bentley Motors Limited, Volvo, Fiat, Benteler International, PSA Peugeot Citroën,Renault, Toyota,Ford, Scania, Hyundai, Škoda Auto, Tesla Motors[citation needed], Valmet Automotive, Proton n], Tata motors, Mahindra & Mahindra Limited. Goodyear uses it in making tires for automotive and aerospace and also uses a customized CATIA for its design and development. Many automotive companies use CATIA for car structures — door beams, IP supports, bumper beams, roof rails, side rails, body components — because CATIA is very good in surface creation and Computer representation of surfaces. Bombardier Transportation, Canada is using this software to design its entire fleet of Train engines and coaches.
Shipbuilding
Industrial equipment
Other
Architect Frank Gehry has used the software, through the C-Cubed Virtual Architecture company, now Virtual Build Team, to design his award-winning curvilinear buildings. His technology arm,Gehry Technologies, has been developing software based on CATIA V5 named Digital Project. Digital Project has been used to design buildings and has successfully completed a handful of projects.
File compatibility and CATIA V4 /V5 /V6 conversion
Dassault Systemes provides utilities to convert CATIA V4 data files so they are accessible to CATIA V5 and CATIA V6. Still, cases show that there can be issues in the data conversion from CATIA V4 to V5, from either differences in the geometric kernel between CATIA V4 and CATIA V5, or by the modelling methods employed by end users. Experiment results show that there can be data loss during the conversion (from 0% to 90%). The percentage loss can be minimized by using the appropriate pre-conversion clean-up, choosing the appropriate conversion options, and clean-up activities after conversion. On the other hand, transition from V5 to V6 is facilitated because they are sharing the same geometric kernel. Third-party file translators also up-convert CATIA files between versions.