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C3D Toolkit
C3D Toolkit
Licensed under Copyrighted free use (Oleg A. Zykov).
|
Test Application | |
| Original author(s) | ASCON |
|---|---|
| Developer(s) | C3D Labs |
| Initial release | 1995 |
| Stable release |
V2017
/ May 25, 2017 |
| Preview release |
101087
/ June 29, 2017 |
| Development status | Active |
| Written in | C++, C Sharp, JavaScript |
| Operating system |
Windows, Mac X, Linux, Android, iOS |
| Platform |
Cross-platform, 32- and 64-bit |
| Available in |
2 languages: English, Russian |
| Type |
3D Software, 3D Modeler, 3D Solver, 3D Vision, 3D Converter, CAD, CAM, CAE, API, Computer-Aided Software Engineering Tools |
| License | Proprietary software |
| Website |
www |
C3D Toolkit is a geometric modeling kit originally developed by ASCON Group, now by C3D Labs, using C++ and written in Visual Studio.[1] C3D Toolkit responsible for constructing and editing geometric models. It can be licensed by other companies for use in their 3D computer graphics software products. The most widely known software in which geometric kernels, like C3D, are typically used are computer aided design (CAD), computer-aided manufacturing (CAM), and computer-aided engineering (CAE) systems.[2]
As the software development tool, C3D incorporates four CAD modules: 3D modeling, 3D constraint solving, 3D visualization, and 3D file conversions:
- C3D Modeler constructs geometric models, generates flat projections of models, performs triangulations, calculates the
inertial characteristics of models, and determines whether collisions occur between the elements of models;- C3D Modeler for Teigha enables advanced 3D modeling operations through the Teigha's standard "OdDb3DSolid" API from the Open Design Alliance;[3]
- C3D Solver makes connections between the elements of geometric models, and considers the geometric constraints of models being edited;
- C3D Vision controls the quality of rendering for 3D models using mathematical apparatus and software, and the workstation hardware;
- C3D Converter reads and writes geometric models in a variety of standard exchange formats.[4]
Contents
History
Nikolai Golovanov is a graduate of the Mechanical Engineering department of Bauman Moscow State Technical University as a designer of space launch vehicles. Upon his graduation, he began with the Kolomna Engineering Design bureau, which at the time employed the future founders of ASCON, Alexander Golikov and Tatiana Yankina. While at the bureau, Mr Golovanov developed software for analyzing the strength and stability of shell structures.
In 1989, Alexander Golikov and TatianaYankina left Kolomna to start up ASCON as a private company. Although they began with just an electronic drawing board, even then they were already conceiving the idea of three-dimensional parametric modeling. This radical concept eventually changed flat drawings into three-dimensional models. The ASCON founders shared their ideas with Nikolai Golovanov, and in 1996 he moved to take up his current position with ASCON. Today he continues to develop algorithms in C3D.[5]
The most significant improvements of the C3D kernel made each year:[6]
2000: 3D solid modeling algorithms created.
2001: Geometric constraint manager implemented; data converter written to handle standard exchange formats.
2002: Associative views of 3D models added.
2003: Basic surface modeling features created.
2004: Sheet metal modeling algorithms developed.
2005: Manifold solid modeling implemented.
2007: Wireframe modeling added.
2008: Kinematic joints implemented for modeling mechanisms.
2009: Support for geometric model attributes added.
2010: Full-fledged surface modeling appears.
2011: Expansion to cross-platform support.
2012: Direct modeling elements implemented.
2013: English documentation localized; support for test applications added.
2014: Model conversion to text formats appeared.
2015: Objects thread safety provided.
2016: Development environments extended.
Functionality
C3D Modeler
- Modeling 3D solids
- Performing Boolean operations
- Creating thin-walled solids
- Filleting and chamfering parts
- Modeling sheetmetal parts
- Designing with direct modeling
- Modeling 3D surfaces
- Modeling 3D wireframe objects
- Surface triangulation
- Performing geometric calculations
- Casting planar projections
- Creating section views
- Calculating mass inertia properties
- Collision detection
C3D Converter
Boundary representation (B-Rep):
- STEP incl. PMI (protocols AP203, AP214, AP242)
- Parasolid X_T, X_B (read v.27.0/write v.27.0)
- ACIS SAT (read v.22.0/write v.2.0)
- IGES (read v.5.3/write v.5.3)
Both representations:
The C3D file format is also used as CAD exchange format,[8] and it is gaining popularity in the global area.
C3D Vision
- Configures levels of detail (LOD)
- Applies shaders and widgets
- Uses 3D assembly feature tree managers
- Controls static graphics and dynamic scenes
- Sets anti-aliasing levels
- Culls invisible elements of scenes
- Speeds up visual computing through hardware acceleration[9]
C3D Solver
- 2D constraint solver for 2D drawings and 3D sketches
- 3D constraint solver for assemblies and kinematic analyses
The C3D Solver supports the following constraint types:[10]
- Coincidence (available in 2D and 3D)
- Align points (2D)
- Angle (2D and 3D)
- Coaxiality (3D)
- Distance (2D and 3D)
- Equal lengths (2D)
- Equal radii (2D)
- Fix geometry (2D and 3D)
- Fix length and direction (2D)
- Incidence (2D)
- Parallelism (2D and 3D)
- Perpendicularity (2D and 3D)
- Radius (2D)
- Tangency (2D and 3D)
Features
The development environment operates using these software:[11]
- MS Visual Studio 2013
- MS Visual Studio 2012
- MS Visual Studio 2010
- MS Visual Studio 2008
- MS Visual Studio 2005
- Clang (for Mac OS)
- GCC (for Linux)
- NDK (for Android)
The supported programming languages include:
Applications
Since 2013 - the date the company started issuing a license for the kernel-, several companies have adopted the kernel for their products, users include:
- NanoCAD uses the C3D Modeler, C3D Solver, and C3D Converter components.[12]
- KOMPAS-3D flexible 3D modeling system
- KOMPAS-Builder
- TECHTRAN uses C3D to import 3D models in various formats, view them, prepare blanks for turning CNCs from 3D models of future parts, and retrieve geometric data from 3D models.[13]
- A component product LEDAS Geometry Comparison (LGC) compares 3D models and pinpoints all of the differences between them.[14]
- ESPRIT Extra CAD is based on C3D kernel.[14]
- Furniture Design CAD K3-Furniture[14]
- Furniture Design CAD K3-Mebel[14]
- CAE system PASSAT for calculation of strength and stability of vessels, apparatuses and their elements.[14]
- Furniture Design CAD BAZIS System [14]
- Quick CADCAM
- Belinda Structure
- 3D AEC CAD software platform Renga Architecture
- Staircon application for the timber staircase industry[15]
- SolidEng
- HABITEK
- LOGOS software for simulation with supercomputers[16]
- PRISMA (Russian analogue of MCNP) [17]
- EE Boost Acoustic VR[18]
- EE Boost Electromagnetics[18]
Recently, C3D has been adapted to Teigha Platform.[19][20]
Education
Among the customers of C3D, there are educational institutions who are using the kernel for teaching students how to program with geometric kernels.[21]
- Tomsk Polytechnic University
- Voronezh State University
- Saint Petersburg State Institute of Technology
- Mordovian State University
- Shevchenko Transnistria State University
- Ulyanovsk State Technical University
- Skolkovo Institute of Science and Technology
See also
This article uses material from the Wikipedia article "", which is released under the Creative Commons Attribution-Share-Alike License 3.0. There is a list of all authors in Wikipedia
