Computers——Computer Production The market for computer products is a multi-billion dollar business where one can find a perfect balance of technology and efficiency. The huge industrial market is lead by such names as IBM, Hewlett Packard, and Compaq. In the world today, computers are used for a variety of tasks and play a crucial role in the areas of academics and business. The steps that are taken to bring the computer from several small components to a desktop product are organization of the manufacturing facility, assembly of hardware, installation of software, and a test process. The production of a high quality product is important to computer buyers. The following discussion demonstrates steps large corporations take to make an efficient computer. Companies such as IBM and Apple computers are well known in the computer industry.
These companies have several manufacturing facilities around the world where thousands of computers are built. Manufacturing factories, which typically range between 75,000 to 200,000 square feet() in size, produce approximately 14,000 systems weekly. Companies generally use 2 methods of computer assembly. One method involves complete unit assembly by one person, the other being group assembly where several people construct a single computer (the latter method is known as assembly line production). A factory employing the single unit assembly method produces about 40 to 60 computers a day (this number varies base on the complexity of the system being assembled). The assembly line method yields approximately 70 computers a day in the average factory. The assembly line method is the most efficient way to produce computes as individual workers become highly specialized in a specific task.
In addition, the next person down the line can check the pervious persons work to check for errors. Additional inspection [, as used on assembly lines] tends to increase the computers quality(). The first step in manufacturing a computer is for the designer to consider a balance between economic need (customers price level) with computer power and practicality. Manufacturers try to make the best computer (in a given price range) for the lowest cost. Once a specific model is designed the company orders the high quality parts from their own component manufacturing divisions or outside suppliers. Inventory control is an important part of acquiring components as, to remain efficient, the company tries to avoid overstocking. Manufacturers take note of the consumer demand, on a daily basis to efficiently establish quantities for the production line.
Top manufactures such as IBM and Apple buy computer components for their products based on availability, quality and priority of the configuration (). When assembling a computer, there are 8 to 10 major components installed including the processor speed chip, the motherboard, RAM (Random Access Memory), diskette drive, modem or network card, video card, hard drive, sound card, and CD-ROM. Before the components are placed into the computer, each part undergoes an extensive testing process called quality control (). Quality control ensures that faulty systems are not shipped. As an initial step, prior to the assembly process, an inspection of the outer case to ensure that there are no scratches or defects.
The brand name and indicator labels are put onto the computer case at this time. Next the motherboard is installed and prepared for the processor chip. The chip (which is often a Pentium chip) is attached to the motherboard along with the RAM component. Once the chip and RAM are installed, the internal speakers and sound card are placed into the case. The hard drive, disk drive and CD-ROM drive are in snuggly attached to the computer chassis.
All these components are then attached to the motherboard with cables so that they may communicate with each other. Power supply is then applied to the computer and other additional components such as the video card, and modem are added near a final stage of assembly. After all these components are installed to create the finished PC, the unit is thoroughly inspected to ensures that all the cables connections are in place and all other defects are fixed. Inspectors also ensure that cables are in appropriate places so that they do not touch components. This is important as heat given off components, while operating can cause minor explosions.
The CMOS (complementary metal-oxide semiconductor- circuitry for the memory and processor) is set up at this time. The top cover is placed onto the computer and it is shipped off for further testing. All companies differ in their testing of finished products. A common in most companies includes the 48-hour burn in period. This period is very similar to the burn in period that a car undergoes following production.
After the 48-hour burn in, final diagnostic tests are completed to ensure all components are working well. If a computer is ordered with sound cards, speakers are attached to the unit and they also are tested. Mouse and keyboard components are tested manually by connecting a testing mouse and keyboard to the ports. The computer is then shipped from the manufacturing site to the distribution center. At the center, additional tests are possible as computers are randomly checked and inspected.
The computer is then further shipped to department or retail stores for sale to the consumer. In conclusion, the production of a computer from a number of components to a finished product is a complex procedure. It is crucial to have a well-organized computer manufacturing facility, and it is important that assembly and insulation of all components is carried out accurately. Final testing is the concluding step in computer manufacturing process. The testing phase is most important, as consumers demand high quality and efficient products.
In society today, computers are essential for the flow of information and important technical tasks. The usefulness of the computer and subsequent consumer demand for improved models will keep pressure on manufactures to build more efficient, high quality machines in future years.