What Are the Different Types of Assembly Workstations?
"Graphic workstation" is a general term for high-end special-purpose computers specializing in graphics, images (static), images (dynamic) and video. From the perspective of the use of workstations, whether it is 3D animation, data visualization, or cad / cam and eda, the system must have strong graphics processing capabilities. In this sense, most workstations can be considered as graphics workstations.
Graphics workstation
- "Graphic workstation" is a general term for high-end special-purpose computers specializing in graphics, images (static), images (dynamic) and video. From the purpose of the workstation, whether it is 3D animation, data visualization, and cad / cam and
- Has been widely used in the following areas.
- Professional graphic design, such as advertising and media design
- Architecture / decoration design, such as architectural renderings
- CAD / CAM / CAE, such as machinery,
- From the perspective of software and hardware platforms, workstations can be divided into:
- Unix workstation, traditional Unix workstation based on Unix / RISC
- NT workstation, new NT workstation based on Windows / Intel architecture
- In terms of structure, workstations can be divided into:
- Desktop Workstation
- Super graphics workstation
- Rack Workstation
- Blade workstation
- Generally speaking, computer graphics is the process of converting abstract data information into light emitting points of a computer display. Different types of abstract information require different types of processing. Abstract information is usually divided into 2d or 3d. The two are essentially different: 2d graphics use 2d vectors, 2d regions, and raster data, while 3d graphics use 3d vectors and 3d surfaces. The 3d surface can have different light heights and different colors, can be transparent or opaque, or can be stacked objects. 3d graphics are commonly used to express the following three types of information:
- 3d surface-such as mechanical design in cad system;
- Graphic image processing;
- Major manufacturers in the market include:
- Most users always have such a question: "Why the price of a graphics workstation is much higher than that of an ordinary computer, is it just because some high-end and expensive components are used?" Because the workstation has a special application positioning, this determines its performance , Scalability, stability, graphics / image quality and other aspects should greatly exceed ordinary computers, but: graphics workstation is definitely not a simple enhancement of ordinary computers! The workstation configuration guidelines are: to truly understand the needs of the application unit, to build a stable, high-speed, and efficient design platform that meets the requirements of the application software at a reasonable price, to maximize the design intentions of the designers, and to make them truly productive tool. This is completely different from the ordinary office and home computer configuration methods that focus on multimedia performance and price factors.
- Workstation is a high-end
- In the field of graphic design, due to the lack of configuration of ordinary computers, it seems a bit "in the design of large 3D images"
- To configure the workstation, you must set up a system configuration that meets the requirements of the application software operation at a reasonable price according to the actual situation of the user. Different industry types may have different requirements, such as graphics, memory, and CPU requirements for mold and animation media. They are all different. The mold requires a better CPU and larger memory, but the requirements for the graphics card are not very high; and the 3D animation has higher requirements for the graphics card. Making use of the performance of the software you use is the basic principle for setting up a workstation. How to use limited resources to improve the efficiency of an enterprise is especially important for corporate CIOs and corporate leaders.
- Workstation applications are just getting started. However, foreign textile, machinery, CAD, and 3D applications have matured, and professional software and hardware support are ahead of domestic enterprises. In the words of the information director of a Beijing mechanical design company: In addition to performance factors, upgrading equipment is more important for R & D companies with sales. R & D is the core of the company. The cost of human resources is very high. A stable and easy-to-use design platform can not only reduce labor costs, but also help designers break through technical bottlenecks and constantly introduce new ones, thereby driving the improvement of corporate efficiency.
- In the context of the declining demographic dividend effect, under the background of fierce international competition, Made in China, it is a feasible development idea to seek efficiency from efficiency.