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Suite of software products that solve complex product data interoperability problems.
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Geo-referenced search capabilities for location related information (text, pictures, audio, video). Precise 3D-city models and 3D visualization for city planning, design, monitoring and city-related decision making. SeismicFEA: Static and dynamic seismic analysis of structures. Building-4: software for reinforced concrete design of building beams, slabs, pillars and walls. Tunnel-4H: design of Concrete Box Culverts using AutoCAD. Custom made systems for assembly of electronic components, mechanical assemblies, components assembly, resistance and temperature testing, textile industry and wire technology.Ĭubus Engineering Software – (972).9.7489713 RobotWorks: Robotics Interface for SolidWorks for welding, sealing etc. Optional deployment on supercomputers and GPUs.ĭata-to-Steel Solution: integrated CAD/CAM solutions for mold, tool and die makers. Such futuristic concepts, however, are all highly dependent on our abilities to analyze human decision processes and to translate these into mechanical equivalents if possible.Software Companies – CAD/CAM/CAE Company – Telephoneĭevelopment of numerical 3D models and simulations for computer-aided engineering (CAE), control and optimization of complex medical, physical, chemical and biological systems and product designs. Expert systems might also come to change the way data are stored and retrieved in CAD/CAM systems, supplanting the hierarchical system with one that offers greater flexibility. Expert systems might involve the implementation of more abstract principles, such as the nature of gravity and friction, or the function and relation of commonly used parts, such as levers or nuts and bolts. The system could then mimic the engineer's thought pattern and actually "create" more of the design. By including this and other information, the CAD system could then "know" what an expert engineer knows when that engineer creates a design. One example of an expert system involves incorporating information about the nature of materials-their weight, tensile strength, flexibility, and so on-into CAD software. This field is derived from research done in AI. Other limitations to CAD are being addressed by research and development in the field of expert systems. One of the most important trends in CAD/CAM technologies is the ever-tighter integration between the design and manufacturing stages of CAD/CAM-based production processes. It was this source that resulted in the linkage between CAD and CAM.
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The third source of CAD development resulted from efforts to facilitate the flow from the design process to the manufacturing process using numerical control (NC) technologies, which enjoyed widespread use in many applications by the mid-1960s. The use of computer modeling to test products was pioneered by high-tech industries like aerospace and semiconductors. The second source of CAD was in the testing of designs by simulation. One of the important time-saving advantages of computer modeling over traditional drafting methods is that the former can be quickly corrected or manipulated by changing a model's parameters. These developments were pioneered by the General Motors Research Laboratories in the early 1960s. The first source of CAD resulted from attempts to automate the drafting process. CAD had its origins in three separate sources, which also serve to highlight the basic operations that CAD systems provide.