----------------------------[ FIRST TIME USER ]------------------------------- Welcome! Computers have been around since the Chinese Abacus. They are here to stay. There is a certain feel and flow to the logic that directs their activities. Electronically all computers work about the same. The one you are using is called a MICROcomputer. This is due to its size. Larger computers include MINIcomputers and Mainframe computers. RAM --- Think of a computer as a human brain. Your brain is a memory sponge. It contains a lifetime of memories that cause us to act or react based on inputs. Inputs come through our 5 senses. If you see and smell a steak burning on the grill (inputs) you know how to react based on previous experiences (memory - go out to eat). The computer's brain consists of a large memory area called Random Access Memory (RAM) and a calculating portion called the Central Processing Unit (CPU). The CPU and RAM work together as the computer's "brain". Each day when we start up the computer one of the first tasks will be to fill RAM with instructions to give it an ability to do work. This work may be in the creation of documents or tracking accounting data (more information on CPU is found under the HARDWARE section). You control which instructions will go into the computer's brain. You control the sets of experiences you will provide the computer. Once in RAM, the computer will evaluate inputs from many devices and react. The most typical input device is a keyboard. As you type commands, the computer evaluates them. Based on the set of instructions within its RAM, it will follow some action: print a document, calculate, send information over a telephone line, etc. At some later point you may empty the computer's brain and install a different set of instructions, thus giving it a different ability. Unlike a human, the computer requires electricity to keep the information within RAM. Each time the computer is turned off, all information within RAM is lost. RAM is called volatile memory because of the electricity requirement. RAM is a temporary memory. To save instructions for later use requires a storage device. Computers use many such devices. Your computer uses a Floppy Disk or a Hard Disk. Both are similar. DISKS ----- Think of these disks as cassettes. You can record information on a cassette that can be replayed indefinitely and if desired, recorded over. Floppy and Hard Disks operate in a similar fashion. We record (Save) something we have created - like a document - onto the disk. Then, hours, days, or months later we can play back (Retrieve) the document into the computer to alter or print out. Just like cassettes, the Floppy and Hard Disks do not require electricity to retain their information. Floppy and Hard Disks are called nonvolatile memory because they will retain their information without the aid of electricity. Hard Disks and Floppy Disks are similar. However, Hard Drives have a larger capacity for file storage, are faster and are less likely to fail due to the protected environment from within which they operate. A computer system includes computer hardware, software and people. A computer is a device capable of solving problems or manipulating data by accepting data, performing prescribed operations on the data, and displaying the results. HARDWARE versus SOFTWARE ------------------------ HARDWARE: Physical equipment such as electronic, magnetic, and mechanical devices (monitor, keyboard, printer, micro chip boards, etc.). These INPUT/OUTPUT DEVICES allow the operator to interact with the computer. SOFTWARE: Sets of programs (stored sets of instructions) that govern the operation of the computer system and make the hardware run. These programs (instructions) tell the hardware how to do a particular task such as word processing, games, database management, etc. Software refers to the instructions that enable an otherwise dead machine to understand your inputs and transform them into desired outputs. Computer hardware by itself lacks personality; this is determined by the software. Word processing software turns the computer into a word processor, accounting software turns the computer into an accounting tool, etc. The computer requires two types of Software: DOS - Disk Operating System Application Software - Word Processing, Spreadsheet, Games, Database Management, Accounting, Payroll, etc. DOS (Disk Operating System) --- All computers require an operating system and the one IBM PC's use is called DOS (sounds like floss). DOS is software that allows the terminal, printer, computer and mass storage systems (floppy disks) to work together as a unit, and controls the execution of programs. It also allows you to do housekeeping chores regarding managing disks and files. Therefore - DOS: 1. Links Hardware 2. Enables File Management PROPER HANDLING OF DISKS - DISKS NEED CARE! ------------------------ - Never touch the mylar surface - Do not bend the disks - Always store in their protective sleeve - Hold the disk by its label or any part of the sleeve - Avoid bringing disks near magnets (TVs, telephones, etc.) - Do not leave in hot or cold areas (radiators, car dash, in car during winter, etc.) - Use felt tip pens if possible when labeling. Ball point pens can crease the mylar. Note the write protect notch on the disk. If this is covered by tape or is nonexistent, data cannot be "written" to the disk, but data can still be "read" from the disk. It is a good idea to save data and programs on two separate disks in case one is destroyed. Even with the most cautious of care, the delicate Floppy Disks sometimes fail for no apparent reason. HISTORY ------- The first computational device was the abacus. This has been in continuous use for thousands of years. During the 1600's the Pascal adding machine was developed. This was a mechanical device that laid the groundwork for today's odometers and gas meters. The 1800's saw many machines developed that were controlled by punch cards - weaving looms. The theoretical basis for electronic circuitry was developed in the mid 1800's. The first electronic computer was developed in 1942 at Iowa State College. From this point forth there were many firsts as computers became less mechanical, smaller, faster and cheaper. IBM began dominating the computer market by the mid-1950's and still does today in the mainframe (very large computer installation) market. Digital Equipment Corp. (DEC) became a significant competitor by the mid-1960's. DEC is generally considered technically better (faster, smaller, etc.) than IBM but still only has a fraction of the total market due to marketing snafus. Today the Cray Super computer is the fastest in the world, is manufactured in Wisconsin, and is set in a vat of liquid helium to increase the conductivity for faster operation. TIME vs. SPEED METHOD OF CALCULATION APPROXIMATE SPEED --------------------- ----------------- Human (manual calculation) 1 each 60 seconds Burroughs E101 (1954) 4 per second IBM 1130 (1964) 600,000 per second DEC PDP 11 (1974) 1,000,000 per second Cray super computer 13,000,000 per second The Personal Computer is distinguished by its size, cost, and applications for small business and the home. The first one appeared in January 1975 and was the Altair 8800 kit. Only hobbyists bought these. Then the Radio Shack TRS 80 and Apple computers hit the market as the first pre-assembled microcomputers. Market growth remained sluggish until two business students - Dan Bricklin and Dan Fylstra - developed a program to run on Apple computers to handle the tedious recalculations in their school assignments. This program was called VisiCalc and is the forerunner to the spreadsheet program Lotus 123. With VisiCalc as a useful tool, Apple sales took off. Apple became the standard because all programs were written for Apple. Today we still see Apple dominate the school market. In 1981 IBM introduced its PC. The PC was unable to run Apple software. Unlike Apple or other IBM products, the IBM PC had an open architecture. This means the technical details of how it operated were published with the product's introduction. This permitted hundreds of companies to write software (programs) for the IBM PC and a variety of hardware accessories. Adding IBM's sterling reputation, the open architecture did enable rapid market penetration. The microcomputer was no longer a toy, it was a business tool. The open architecture also allowed for the generation of a host of lower cost compatible computers. IBM had traded quick initial market entry for eventual erosion of market share. In both instances, the consumers' benefit. ***** END OF FILE: Press to return to Main Menu *****