SolidWorks
The SOLIDWORKS interface. | |
Developer(s) | Dassault Systèmes SOLIDWORKS Corp. |
---|---|
Initial release | 1995 |
Stable release | SOLIDWORKS 2014 SP3 / April 14, 2014 [1] |
Preview release | SOLIDWORKS 2014 SP4.0 EV / June 2, 2014 [1] |
Operating system | Microsoft Windows |
Type | CAD |
License | Proprietary |
Website |
www |
SOLIDWORKS (originally SolidWorks) is solid modeling CAD (computer-aided design) software that runs on Microsoft Windows and has been produced by Dassault Systèmes SOLIDWORKS Corp., a subsidiary of Dassault Systèmes, S. A. (Vélizy, France) since 1997. SOLIDWORKS is currently used by over 2 million engineers[2] and designers at more than 165,000 companies worldwide. FY2011 revenue for SOLIDWORKS was 483 million dollars.[3]
History
SOLIDWORKS Corporation was founded in December 1993 by Massachusetts Institute of Technology graduate Jon Hirschtick, Hirschtick used $1 million he had made while a member of the MIT Blackjack Team to set up the company.[4] Initially based in Waltham, Massachusetts, USA, Hirschtick recruited a team of engineers with the goal of building 3D CAD software that was easy-to-use, affordable, and available on the Windows desktop. Operating later from Concord, Massachusetts, SOLIDWORKS released its first product SolidWorks 95, in 1995.[5][6] In 1997 Dassault, best known for its CATIA CAD software, acquired SolidWorks for $310 million in stock.[5]
SOLIDWORKS currently markets several versions of the SOLIDWORKS CAD software in addition to eDrawings, a collaboration tool, and DraftSight, a 2D CAD product.
SOLIDWORKS was headed by John McEleney from 2001 to July 2007 and Jeff Ray from 2007 to January 2011. The current CEO is Gian Paolo Bassi from Jan 2015. Gian Paolo Bassi replaces Bertrand Sicot, who is promoted Vice President Sales of Dassault Systèmes’ Value Solutions sales channel.
Release history
Name/Version | Version History Value | Release Date |
---|---|---|
SolidWorks 95 | 44 | 1995 |
SolidWorks 96 | 270 | 1996 |
SolidWorks 97 | 483 | 1996 |
SolidWorks 97Plus | 629 | 1997 |
SolidWorks 98 | 817 | 1997 |
SolidWorks 98Plus | 1008 | 1998 |
SolidWorks 99 | 1137 | 1998 |
SolidWorks 2000 | 1500 | 1999 |
SolidWorks 2001 | 1750 | 2000 |
SolidWorks 2001Plus | 1950 | 2001 |
SolidWorks 2003 | 2200 | 2002 |
SolidWorks 2004 | 2500 | 2003 |
SolidWorks 2005 | 2800 | 2004 |
SolidWorks 2006 | 3100 | 2005 |
SolidWorks 2007 | 3400 | 2006 |
SolidWorks 2008 | 3800 | July 1, 2007 |
SolidWorks 2009 | 4100 | January 28, 2008 |
SolidWorks 2010 | 4400 | December 9, 2009 |
SolidWorks 2011 | 4700 | June 17, 2010 |
SolidWorks 2012 | 5000 | September, 2011 |
SolidWorks 2013 | 6000 | September, 2012 |
SolidWorks 2014 | 7000 | October 7, 2013 |
SolidWorks 2015 | 8000 | September 9, 2014 |
Market
DS Solidworks Corp. has sold over 1.5 million licenses of SOLIDWORKS worldwide.[7] This includes a large proportion of educational licenses. The Sheffield Telegraph comments that Solidworks is the world's most popular CAD software.[8] Its user base ranges from individuals to large corporations, and covers a very wide cross-section of manufacturing market segments. Commercial sales are made through an indirect channel, which includes dealers and partners throughout the world. In the United States, the first reseller of SOLIDWORKS, in 1995, was Computer Aided Technology, Inc, headquartered in Chicago. Directly competitive products to SOLIDWORKS include Solid Edge, and Autodesk Inventor. SOLIDWORKS also partners with third party developers to add functionality in niche market applications like finite element analysis, circuit layout, tolerance checking, etc. SOLIDWORKS has also licensed its 3D modeling capabilities to other CAD software vendors, notably ANVIL.[9]
Modeling methodology
SOLIDWORKS is a solid modeler, and utilizes a parametric feature-based approach to create models and assemblies. The software is written on Parasolid-kernel.
Parameters refer to constraints whose values determine the shape or geometry of the model or assembly. Parameters can be either numeric parameters, such as line lengths or circle diameters, or geometric parameters, such as tangent, parallel, concentric, horizontal or vertical, etc. Numeric parameters can be associated with each other through the use of relations, which allows them to capture design intent.
Design intent is how the creator of the part wants it to respond to changes and updates. For example, you would want the hole at the top of a beverage can to stay at the top surface, regardless of the height or size of the can. SOLIDWORKS allows the user to specify that the hole is a feature on the top surface, and will then honor their design intent no matter what height they later assign to the can.
Features refer to the building blocks of the part. They are the shapes and operations that construct the part. Shape-based features typically begin with a 2D or 3D sketch of shapes such as bosses, holes, slots, etc. This shape is then extruded or cut to add or remove material from the part. Operation-based features are not sketch-based, and include features such as fillets, chamfers, shells, applying draft to the faces of a part, etc.
Building a model in SOLIDWORKS usually starts with a 2D sketch (although 3D sketches are available for power users). The sketch consists of geometry such as points, lines, arcs, conics (except the hyperbola), and splines. Dimensions are added to the sketch to define the size and location of the geometry. Relations are used to define attributes such as tangency, parallelism, perpendicularity, and concentricity. The parametric nature of SOLIDWORKS means that the dimensions and relations drive the geometry, not the other way around. The dimensions in the sketch can be controlled independently, or by relationships to other parameters inside or outside of the sketch.
In an assembly, the analog to sketch relations are mates. Just as sketch relations define conditions such as tangency, parallelism, and concentricity with respect to sketch geometry, assembly mates define equivalent relations with respect to the individual parts or components, allowing the easy construction of assemblies. SOLIDWORKS also includes additional advanced mating features such as gear and cam follower mates, which allow modeled gear assemblies to accurately reproduce the rotational movement of an actual gear train.
Finally, drawings can be created either from parts or assemblies. Views are automatically generated from the solid model, and notes, dimensions and tolerances can then be easily added to the drawing as needed. The drawing module includes most paper sizes and standards (ANSI, ISO, DIN, GOST, JIS, BSI and SAC).
File format
SOLIDWORKS files use the Microsoft Structured Storage file format. This means that there are various files embedded within each SLDDRW (drawing files), SLDPRT (part files), SLDASM (assembly files) file, including preview bitmaps and metadata sub-files. Various third-party tools (see COM Structured Storage) can be used to extract these sub-files, although the subfiles in many cases use proprietary binary file formats.
See also
- Comparison of CAD editors for CAE
- Dassault Systèmes
- List of computer-aided design editors for architecture, engineering and construction
References
- ↑ 1.0 1.1 "Technical Alerts & News". SOLIDWORKS. Jun 19, 2014. Retrieved 2014-06-19.
- ↑ Opening statement by CEO Bertrand Sicot at 2013 Solidworks World YouTube Video Link
- ↑ SolidWorks Fact Sheet, July 30, 2012
- ↑ Bob Tremblay (March 26, 2008). "Former MIT blackjack team member talks about breaking the bank". Galesburg Register News.
- ↑ 5.0 5.1 Solidworks Company History. Solidworks company website
- ↑ Solidworks Company Information, Solidworks company website
- ↑ "Thanks for helping us reach our millionth license!". SolidWorks. April 30, 2009. Retrieved 2009-07-12.
- ↑ "Solid finds solution in business park switch". The Sheffield Telegraph. December 10, 2009. Retrieved 2010-02-15.
- ↑ "ANVIL EXPRESS® SOLIDWORKS® Connectivity". MCS ANVIL. September 2009. Retrieved 2011-04-15.
External links
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