TCW

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* '''Family Format(s):''' Part of the TurboCAD family of formats, which consists of [[TCW]], TCT, and TCX.
 
* '''Family Format(s):''' Part of the TurboCAD family of formats, which consists of [[TCW]], TCT, and TCX.
  
'''Description:''' TCW is the standard drawing file format for TurboCAD.  TCW stands for TurboCAD for Windows
+
'''Description:''' TCW is the standard drawing file format for TurboCAD.  TCW stands for TurboCAD for Windows.  The format was first used with the introduction of the Windows version of TurboCAD in 1993.
  
 
'''History:''' TurboCAD was created by Stephen "Yogi" Russell in South Africa in 1986 under the name InterCAD.  It was created to be a low-cost alternative to AutoCAD.  In late 1986, the software was released in the United Kingdom with the TurboCAD name.  Milan Systems of America also began selling TurboCAD in the United States in late 1986.  To increase interest in the product, Milan Systems began selling TurboCAD bundled with mice from IMSI (International Microcomputer Software, Inc).  IMSI licensed the source code from the original developers and released its own improved version in 1990.  In 1993, versions of TurboCAD for Mac and Windows were released.  Starting with version 4 in 1995, TurboCAD began introducing 3D support, which helped to make the software very successful.  Over the next versions, the 3D abilities were greatly increased.  In June 2006, IMSI, which had changed its name to Broadcaster, Inc., sold TurboCAD to IMSI/Design, LLC.   
 
'''History:''' TurboCAD was created by Stephen "Yogi" Russell in South Africa in 1986 under the name InterCAD.  It was created to be a low-cost alternative to AutoCAD.  In late 1986, the software was released in the United Kingdom with the TurboCAD name.  Milan Systems of America also began selling TurboCAD in the United States in late 1986.  To increase interest in the product, Milan Systems began selling TurboCAD bundled with mice from IMSI (International Microcomputer Software, Inc).  IMSI licensed the source code from the original developers and released its own improved version in 1990.  In 1993, versions of TurboCAD for Mac and Windows were released.  Starting with version 4 in 1995, TurboCAD began introducing 3D support, which helped to make the software very successful.  Over the next versions, the 3D abilities were greatly increased.  In June 2006, IMSI, which had changed its name to Broadcaster, Inc., sold TurboCAD to IMSI/Design, LLC.   
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* '''Interoperable applications:'''
 
* '''Interoperable applications:'''
  
'''Magic numbers:''' [[Magic Numbers::]] - Unique identifying characters at the beginning of files for this engineering format.
+
'''Magic numbers:''' Unknown
  
 
'''Format(s):''' application/x-ole-storage
 
'''Format(s):''' application/x-ole-storage
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** '''Licensing and patent claims:''' [[Licensing and patent claims::]] - Any licenses or patent claims that the engineering format makes.
 
** '''Licensing and patent claims:''' [[Licensing and patent claims::]] - Any licenses or patent claims that the engineering format makes.
  
* '''Self-documentation:''' [[Self-documentation::]] - Any self-documentation capabilities of the format.
+
* '''Self-documentation:''' None
  
* '''External dependencies:''' [[External dependencies::]] - Anything that the format depends on outside of its control to function.
+
* '''External dependencies:''' None
  
 
* '''Technical protection considerations:''' [[Technical protection considerations::]] - Any considerations that are necessary when it comes to technical protection.
 
* '''Technical protection considerations:''' [[Technical protection considerations::]] - Any considerations that are necessary when it comes to technical protection.
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'''File classification:''' - Specific properties that pertain to this engineering format.
 
'''File classification:''' - Specific properties that pertain to this engineering format.
* '''Type {Binary, Text}:''' [[File Classification Type::]] - The type of file, choices are binary and text.
+
* '''Type {Binary, Text}:''' Binary
* '''Raster data:''' - Section describes whether or not the engineering format supports raster data.
+
* '''Raster data:'''
** '''Raster data 2D:''' - Can the format support 2D raster data? Example: A format that can contain 2D pixelated data supports 2D raster data.
+
** '''Raster data 2D:'''  
*** '''Is Supported:''' [[File Classification Raster Data 2D - Is Supported::]] - Is the feature supported in the engineering format?
+
*** '''Is Supported:''' No
*** '''Description:''' [[File Classification Raster Data 2D - Description::]] - This field is used to describe the support or lack of support of the feature.
+
*** '''Description:''' TurboCAD uses vector graphics to store the graphical information, instead of raster data.  However, a TurboCAD drawing can be exported as raster data.
** '''Raster data 3D:''' - Can the format support 3D raster data? Example: A format that can contain 2D pixelated data of a 3D model supports 3D raster data.
+
** '''Raster data 3D:'''  
*** '''Is Supported:''' [[File Classification Raster Data 3D - Is Supported::]] - Is the feature supported in the engineering format?
+
*** '''Is Supported:''' No
*** '''Description:''' [[File Classification Raster Data 3D - Description::]] - This field is used to describe the support or lack of support of the feature.
+
*** '''Description:''' TurboCAD uses vector graphics to store the graphical information, instead of raster data.  However, a TurboCAD drawing can be exported as raster data.
* '''Geometric representation:''' - Section describes whether or not the engineering format supports geometric representations.
+
* '''Geometric representation:'''  
** '''Implicit representation:''' - Section describes whether or not the engineering format supports implicit representations.
+
** '''Implicit representation:'''
*** '''Implicit surfaces:''' - Can the format support implicit surfaces? Example: A format that can contain surfaces that are generated with mathematical equations that contain the independent variables x, y, and z, like x^2 + y^2 + z^2 * R^2 = 0, supports implicit surfaces.
+
*** '''Implicit surfaces:'''  
**** '''Is Supported:''' [[File Classification Implicit Surfaces - Is Supported::]] - Is the feature supported in the engineering format?
+
**** '''Is Supported:''' No
**** '''Description:''' [[File Classification Implicit Surfaces - Description::]] - This field is used to describe the support or lack of support of the feature.
+
**** '''Description:''' TurboCAD uses a parametric form to represent objects.
*** '''Implicit curves:''' - Can the format support implicit curves? Example: A format that can contain curves that are generated with mathematical equations that contain the independent variables x, y, and z, supports implicit curves.
+
*** '''Implicit curves:'''
**** '''Is Supported:''' [[File Classification Implict Curves - Is Supported::]] - Is the feature supported in the engineering format?
+
**** '''Is Supported:''' No
**** '''Description:''' [[File Classification Implicit Curves - Description::]] - This field is used to describe the support or lack of support of the feature.
+
**** '''Description:''' TurboCAD uses a parametric form to represent objects.
*** '''Point set:''' - Can the format support point sets? Example: A format that supports surfaces and lines that are generated by points that form triangles supports point sets.
+
*** '''Point set:'''
**** '''Is Supported:''' [[File Classification Point Set - Is Supported::]] - Is the feature supported in the engineering format?
+
**** '''Is Supported:''' Yes
**** '''Description:''' [[File Classification Point Set - Description::]] - This field is used to describe the support or lack of support of the feature.
+
**** '''Description:''' TurboCAD can uses sets of points to store geometric figures.
** '''Mesh:''' - Section describes whether or not the engineering format supports mesh.
+
** '''Mesh:'''
 
*** '''Manifold surface meshes:''' - Can the format support manifold surface meshes? Example: A format that supports surfaces that are mathematical spaces in which every point has a neighborhood which resembles Euclidean space
 
*** '''Manifold surface meshes:''' - Can the format support manifold surface meshes? Example: A format that supports surfaces that are mathematical spaces in which every point has a neighborhood which resembles Euclidean space
 
**** '''Is Supported:''' [[File Classification Mainfold Surface Meshes - Is Supported::]] - Is the feature supported in the engineering format?
 
**** '''Is Supported:''' [[File Classification Mainfold Surface Meshes - Is Supported::]] - Is the feature supported in the engineering format?
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**** '''Is Supported:''' [[File Classification Non-manifold Meshes - Is Supported::]] - Is the feature supported in the engineering format?
 
**** '''Is Supported:''' [[File Classification Non-manifold Meshes - Is Supported::]] - Is the feature supported in the engineering format?
 
**** '''Description:''' [[File Classification Non-manifold Meshes - Description::]] - This field is used to describe the support or lack of support of the feature.
 
**** '''Description:''' [[File Classification Non-manifold Meshes - Description::]] - This field is used to describe the support or lack of support of the feature.
** '''Parametric representation:''' - Section describes whether or not the engineering format supports parametric representations.
+
** '''Parametric representation:'''
*** '''Parametric surfaces:''' - Can the format support parametric surfaces? Example: A format that can contain surfaces that are generated with parametric equations supports parametric surfaces.
+
*** '''Parametric surfaces:'''
**** '''Is Supported:''' [[File Classification Parametric Surfaces - Is Supported::]] - Is the feature supported in the engineering format?
+
**** '''Is Supported:''' Yes
**** '''Description:''' [[File Classification Parametric Surfaces - Description::]] - This field is used to describe the support or lack of support of the feature.
+
**** '''Description:''' TurboCAD supports parametric surfaces and curves.
*** '''Parametric curves:''' - Can the format support parametric curves? Example: A format that can contain curves that are generated with parametric equations supports parametric curves.
+
*** '''Parametric curves:'''
**** '''Is Supported:''' [[File Classification Parametric Curves - Is Supported::]] - Is the feature supported in the engineering format?
+
**** '''Is Supported:''' Yes
**** '''Description:''' [[File Classification Parametric Curves - Description::]] - This field is used to describe the support or lack of support of the feature.
+
**** '''Description:''' TurboCAD supports parametric surfaces and curves.
 
** '''Contour sets:''' - Can the format support contour sets?
 
** '''Contour sets:''' - Can the format support contour sets?
 
*** '''Is Supported:''' [[File Classification Contour Sets - Is Supported::]] - Is the feature supported in the engineering format?
 
*** '''Is Supported:''' [[File Classification Contour Sets - Is Supported::]] - Is the feature supported in the engineering format?

Revision as of 20:58, 12 May 2009

Title(s): TCW, TurboCAD for Windows

Version ID: 16.0 (Windows), 4.0 (Mac)

Date released: 2009

Date: 1993

Creator(s): Stephen "Yogi" Russell

Contributor(s): IMSI/Design, LLC

Relationships:

  • Previous Version(s): TCX - stores drawing information in ASCII.
  • Contains: None
  • Syntax Format(s): None
  • Family Format(s): Part of the TurboCAD family of formats, which consists of TCW, TCT, and TCX.

Description: TCW is the standard drawing file format for TurboCAD. TCW stands for TurboCAD for Windows. The format was first used with the introduction of the Windows version of TurboCAD in 1993.

History: TurboCAD was created by Stephen "Yogi" Russell in South Africa in 1986 under the name InterCAD. It was created to be a low-cost alternative to AutoCAD. In late 1986, the software was released in the United Kingdom with the TurboCAD name. Milan Systems of America also began selling TurboCAD in the United States in late 1986. To increase interest in the product, Milan Systems began selling TurboCAD bundled with mice from IMSI (International Microcomputer Software, Inc). IMSI licensed the source code from the original developers and released its own improved version in 1990. In 1993, versions of TurboCAD for Mac and Windows were released. Starting with version 4 in 1995, TurboCAD began introducing 3D support, which helped to make the software very successful. Over the next versions, the 3D abilities were greatly increased. In June 2006, IMSI, which had changed its name to Broadcaster, Inc., sold TurboCAD to IMSI/Design, LLC.

Example(s): Example Template - Information and example models of the engineering format.

Identifier: - A URL or other identifier that refers to the engineering format.

Documentation: Documentation Template - Information in general about the engineering format.

File Extensions: tcw

Applications:

  • Native application(s): TurboCAD
  • Interoperable applications:

Magic numbers: Unknown

Format(s): application/x-ole-storage

Rights: Proprietary License

Sustainability Factors:

  • Standardization: - Information regarding standardization attempts with this format.
  • Adoption: - Information about how this format has been adopted by other organizations.
    • Licensing and patent claims: - Any licenses or patent claims that the engineering format makes.
  • Self-documentation: None
  • External dependencies: None
  • Technical protection considerations: - Any considerations that are necessary when it comes to technical protection.

Typical use: CAD, Architectural, Mechanical

File classification: - Specific properties that pertain to this engineering format.

  • Type {Binary, Text}: Binary
  • Raster data:
    • Raster data 2D:
      • Is Supported: No
      • Description: TurboCAD uses vector graphics to store the graphical information, instead of raster data. However, a TurboCAD drawing can be exported as raster data.
    • Raster data 3D:
      • Is Supported: No
      • Description: TurboCAD uses vector graphics to store the graphical information, instead of raster data. However, a TurboCAD drawing can be exported as raster data.
  • Geometric representation:
    • Implicit representation:
      • Implicit surfaces:
        • Is Supported: No
        • Description: TurboCAD uses a parametric form to represent objects.
      • Implicit curves:
        • Is Supported: No
        • Description: TurboCAD uses a parametric form to represent objects.
      • Point set:
        • Is Supported: Yes
        • Description: TurboCAD can uses sets of points to store geometric figures.
    • Mesh:
      • Manifold surface meshes: - Can the format support manifold surface meshes? Example: A format that supports surfaces that are mathematical spaces in which every point has a neighborhood which resembles Euclidean space
        • Is Supported: - Is the feature supported in the engineering format?
        • Description: - This field is used to describe the support or lack of support of the feature.
      • Manifold volume meshes: - Can the format support manifold volume meshes? Example: A format that supports volumes that are mathematical spaces in which every point has a neighborhood which resembles Euclidean space
        • Is Supported: - Is the feature supported in the engineering format?
        • Description: - This field is used to describe the support or lack of support of the feature.
      • Non-manifold meshes: - Can the format support non-manifold meshes? Example: A format that supports meshes that are not manifolds
        • Is Supported: - Is the feature supported in the engineering format?
        • Description: - This field is used to describe the support or lack of support of the feature.
    • Parametric representation:
      • Parametric surfaces:
        • Is Supported: Yes
        • Description: TurboCAD supports parametric surfaces and curves.
      • Parametric curves:
        • Is Supported: Yes
        • Description: TurboCAD supports parametric surfaces and curves.
    • Contour sets: - Can the format support contour sets?
      • Is Supported: - Is the feature supported in the engineering format?
      • Description: - This field is used to describe the support or lack of support of the feature.
    • NURBS: - Can the format support Non Uniform Rational Basis Splines? Examples: The engineering formats IGES, STEP, ACIS, and PHIGS
      • Is Supported: - Is the feature supported in the engineering format?
      • Description: - This field is used to describe the support or lack of support of the feature.
  • Multi-resolution models: - Can the format support models with multiple resolutions? Examples: A format that supports a highly detailed and lowly detailed model simultaneously supports multi-resolution models.
    • Is Supported: - Is the feature supported in the engineering format?
    • Description: - This field is used to describe the support or lack of support of the feature.
  • Dynamics: - Section describes whether or not the engineering format supports dynamics.
    • Kinematics: - Can the format support kinematics? Example: Does the format allow model parts to rotate?
      • Is Supported: - Is the feature supported in the engineering format?
      • Description: - This field is used to describe the support or lack of support of the feature.
    • Assembly: - Can the format support assembly? Example: Does the format allow the assembly instructions to be explicitly specified with a model?
      • Is Supported: - Is the feature supported in the engineering format?
      • Description: - This field is used to describe the support or lack of support of the feature.
    • Force(s): - Can the format support forces? Example: Does the format support acceleration forces?
      • Is Supported: - Is the feature supported in the engineering format?
      • Description: - This field is used to describe the support or lack of support of the feature.
  • Boundary representation - Can the format support models with boundary representations?
    • Manifold surface boundary representations: - Can the format support manifold surface boundary representations? Example: The engineering format STEP
      • Is Supported: - Is the feature supported in the engineering format?
      • Description: - This field is used to describe the support or lack of support of the feature.
    • Manifold volume boundary representations: - Can the format support manifold volume boundary representations? Example: The engineering format STEP
      • Is Supported: - Is the feature supported in the engineering format?
      • Description: - This field is used to describe the support or lack of support of the feature.
    • Non-manifold boundary representations: - Can the format support non-manifold boundary representations? Example: The engineering format STEP
      • Is Supported: - Is the feature supported in the engineering format?
      • Description: - This field is used to describe the support or lack of support of the feature.
  • Material transparency: - Can the format support transparency? Example: Does the format allow models to have a clear window in a car?
    • Is Supported: - Is the feature supported in the engineering format?
    • Description: - This field is used to describe the support or lack of support of the feature.

References: - A list of references regarding any aspects of this engineering format; any reading material supplemental to this page.

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