Computer-aided design (CAD) is the use of computer technology to aid in the design and particularly the drafting
(technical drawing and engineering drawing) of a part or product, including
entire buildings. It is both a visual (or drawing) and symbol-based method of
communication whose conventions are particular to a specific technical field.
CAD was first created in the
early 1960s and today is used to design almost every product on the market in
the world. There are many types of CAD
software existing for different applications.
Drafting can be done in two
dimensions ("2D") and three dimensions ("3D"). Drafting is
the integral communication of technical or engineering drawings and is the
industrial arts sub-discipline that underlies all that is involved in technical
endeavors. In representing complex, three-dimensional objects in
two-dimensional drawings, these objects have traditionally been represented by
three projected views at right angles.
Current CAD software packages range
from 2D vector-based drafting systems to 3D solid and surface modelers. Modern
CAD packages can also frequently allow rotations in three dimensions, allowing
viewing of a designed object from any desired angle, even from the inside
looking out. Some CAD software is capable of dynamic mathematic modeling, in which
case it may be marketed as CADD — computer-aided design and drafting.
CAD is used in the design of tools
and machinery used in the manufacture of components, and in the drafting and
design of all types of buildings, from small residential types (houses) to the
largest commercial and industrial structures (hospitals and factories).
CAD is mainly used for detailed
engineering of 3D models and/or 2D drawings of physical components, but it is
also used throughout the engineering process from conceptual design and layout
of products, through strength and dynamic analysis of assemblies to definition
of manufacturing methods of components.
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CAD has become an especially
important technology within the scope of computer-aided technologies, with
benefits such as lower product development costs and a greatly shortened design
cycle. CAD enables designers to lay out and develop work on screen, print it
out and save it for future editing, saving time on their drawings.
Types of CAD Software
2D CAD
Two-dimensional, or 2D, CAD is used to create flat drawings of products and structures. Objects created in 2D CAD are made up of lines, circles, ovals, slots and curves. 2D CAD programs usually include a library of geometric images; the ability to create Bezier curves, splines and polylines; the ability to define hatching patterns; and the ability to provide a bill of materials generation. Among the most popular 2D CAD programs are AutoCAD, CADkey, CADDS 5, CATIA v4 and Medusa.2.5 D CAD
In between 2D and 3D CAD is 2.5-D CAD. The models created in this type of CAD are prismatic, that is, they represent the depth of the objects. Like 2D CAD, these objects are made up of geometric objects.3D CAD
Three-dimensional (3D) CAD programs come in a wide variety of types, intended for different applications and levels of detail. Overall, 3D CAD programs create a realistic model of what the design object will look like, allowing designers to solve potential problems earlier and with lower production costs. Some 3D CAD programs include Autodesk Inventor, CoCreate Solid Designer, Pro/Engineer SolidEdge, SolidWorks, Unigraphics NX and VX CAD.3D Wireframe and Surface Modeling
CAD programs that feature 3D wireframe and surface modeling create a skeleton-like inner structure of the object being modeled. A surface is added on later. These types of CAD models are difficult to translate into other software and are therefore rarely used anymore.Solid Modeling
Solid modeling in general is useful because the program is often able to calculate the dimensions of the object it is creating. Many sub-types of this exist. Constructive Solid Geometry (CSG) CAD uses the same basic logic as 2D CAD, that is, it uses prepared solid geometric objects to create an object. However, these types of CAD software often cannot be adjusted once they are created. Boundary Representation (Brep) solid modeling takes CSG images and links them together. Hybrid systems mix CSG and Brep to achieve desired designs.
CAD Hardware and OS technologies
Today most CAD computers are Windows
based PCs. Some CAD systems also run on one of the Unix operating systems and
with Linux. Some CAD systems such as QCad or NX provide multiplatform support
including Windows, Linux, UNIX and Mac OS X.
Generally
no special basic memory is required with the exception of a high-end OpenGL
based Graphics card. However for complex product design, machines with high
speed (and possibly multiple) CPUs and large amounts of RAM are recommended.
CAD was an application that benefited from the installation of a numeric
coprocessor especially in early personal computers. The human-machine interface
is generally via a computer mouse but can also be via a pen and digitizing
graphics tablet. Manipulation of the view of the model on the screen is also
sometimes done with the use of a spacemouse/SpaceBall. Some systems also
support stereoscopic glasses for viewing the 3D model.