History of Computer Networking

          The computer has influenced the very fabric of modern society. As a stand-alone machine, it has proven itself a practical and highly efficient tool for education, commerce, science, and medicine. When attached to a network—the Internet for example—it becomes the nexus of opportunity, transforming our lives in ways that are both problematic and astonishing. Computer networks are the source for vast amounts of knowledge, which can predict the weather, identify organ donors and recipients, or analyze the complexity of the human genome (Shindler, 2002).

The linking of ideas across an information highway satisfies a primordial hunger humans have to belong and to communicate. Early civilizations, to satisfy this desire, created information highways of carrier pigeons (Palmer, 2006). The history of computer networking begins in the 19th century with the invention of the telegraph, the telephone, and the radiotelegraph.

                       The first communications information highway based on electricity was created with the deployment of the telegraph. The telegraph itself is no more than an electromagnet connected to a battery, connected to a switch, connected to wire (Derfler & Freed, 2002). The telegraph operates very straightforwardly. To send a message (electric current), the telegrapher rapidly opens and closes the telegraph switch. The receiving telegraph uses the electric current to create a magnetic field, which causes an observable mechanical event (Calvert, 2004).

The first commercial telegraph was patented in Great Britain by Charles Wheatstone and William Cooke in 1837 (The Institution of Engineering and Technology, 2007). The Cooke-Wheatstone Telegraph required six wires and five magnetic needles. Messages were created when combinations of the needles were deflected left or right to indicate letters (Derfler & Freed, 2002).

                       Almost simultaneous to the Cooke-Wheatstone Telegraph was the Samuel F. B. Morse Telegraph in the United States in 1837 (Calvert, 2004). In comparison, the Morse Telegraph was decidedly different from its European counterpart. First, it was much simpler than the Cooke-Wheatstone Telegraph: to transmit messages, it used one wire instead of six. Second, it used a code and a sounder to send and receive messages instead of deflected needles (Derfler & Freed, 2002). The simplicity of the Morse Telegraph made it the worldwide standard.

The next major change in telegraphy occurred because of the efforts of French inventor Emile Baudot. Baudot’s first innovation replaced the telegrapher’s key with a typewriter like keyboard. His second innovation replaced the dots and dashes of Morse code with a five-unit or five-bit code—similar to American standard code for information interchange (ASCII) or extended binary coded decimal interchange code (EBCDIC)—he developed. Unlike Morse code, which relied upon a series of dots and dashes, each letter in the Baudot code contained a combination of five electrical pulses. Eventually all major telegraph companies converted to Baudot code, which eliminated the need for a skilled Morse code telegrapher (Derfler & Freed, 2002). Finally, Baudot, in 1894, invented a distributor which allowed his printing telegraph to multiplex its signals; as many as eight machines could send simultaneous messages over one telegraph circuit (Britannica Concise Encyclopedia, 2006). The Baudot printing telegraph paved the way for the Teletype and Telex (Derfler & Freed, 2002).

                      The second forerunner of modern computer networking was the telephone. It was a significant advancement over the telegraph for it personalized telecommunications, bringing the voices and emotions of the sender to the receiver. Unlike its predecessor the telegraph, telephone networks created virtual circuit to connect telephones to one another (Shindler, 2002).

How to install a New Network

Steps on how to install a new network:

1. Install the hardware

Install network adapters in any computers that need them, or connect them to the computers. (Follow the installation instructions in the information that came with each adapter.)

2. Set up or verify an Internet connection (optional)

You don't need an Internet connection to set up a network, although most people want to use their network to share an Internet connection. To set up an Internet connection, you need a cable or DSL modem and an account with an Internet service provider (ISP). 

If you already have an Internet connection, you just need to verify that the connection is working. To do that, open your web browser and go to a website that you don't usually visit. (If you go to a website that you visit often, some of its webpages might be stored on your computer and will display correctly even if your connection is faulty.) If the website opens and you don't get any error messages, your connection is working.

3. Connect the computers

There are several ways to connect computers—the configuration depends on the type of network adapters, modem, and Internet connection that you have. It also depends on whether you want to share an Internet connection among all the computers on the network. The following sections briefly 

describe some connection methods.

Show all

Ethernet networks

Wireless networks

HomePNA networks

Powerline networks

Turn on all computers or devices, such as printers, that you want to be part of your network. If your network is wired (Ethernet, HomePNA, or Powerline), it should be set up and ready to use. You should test your network (see below) to make sure that all computers and devices are connected correctly.

4. Run the Set Up a Network wizard

If your network is wired, you will be connected immediately when you plug in the Ethernet cables. If 

your network is wireless, run the Set Up a Network wizard on the computer attached to the router.

• Open Set Up a Network by clicking the Start button , and then clicking Control Panel. In the search box, type network, click Network and Sharing Center, click Set up a new connection or network, and then click Set up a new network.

• The wizard will walk you through the process of adding other computers and devices to the network.      

5. Enable sharing on your network

If you want to share files and printers on your network, make sure your network location type is set to Home or Work and that network discovery and file sharing are turned on. For more information, see Choosing a network location and Enable or disable network discovery.

6. Test your network

It's a good idea to test your network to make sure that all of the computers and devices are connected and working properly. To test your network, do the following on each network computer:

• Click the Start button , click your user name, and then, in the left pane, click Network.

You should be able to see icons for the computer you are on and all of the other computers and shared printers on the network.

Note

• If you don't see icons in the Network folder, then network discovery and file sharing might be turned off. For more information, see Enable or disable network discovery.
• It might take several minutes for computers running earlier versions of Windows to appear in the Network folder.

Thank you for reading!!!❤️❤️❤️

Steps on how to install: Memory Ram, motherboard, CPU and Front panel

Steps on how to install:

a. Memory Ram 

1. Find out what type of RAM is required for your desktop computer.

2. Check how many sockets you have for RAM.

3. Browse the options. You can find RAM from a variety of different manufacturers, and for a wide variety of prices.

4. Make your purchase.

5. Shut down the computer.

6. Open your computer case.

7. Discharge any static.

8. Locate your RAM sockets.

9. Remove old RAM (if upgrading).

10. Take your new RAM out of its protective packaging.

11. Insert the RAM into the RAM slot.

12. Remove dust using a bottle of compressed air.

13. Close up the computer.

14. Power on the computer. 

15. Check the RAM in Windows. Press The Windows key + Pause/Break to open the System Properties. 

16. Run Memtest. If you still aren’t sure that your memory was installed correctly, or that it may not be functioning properly, you can run the free Memtest program to check the memory sticks. The test may take a while to run, but will discover any errors and display how much is installed.

b. Motherboard

1.  Open your computer case. Remove both side panels for easy access to the motherboard tray. The motherboard tray can be removed from the case, which will allow you to easily install the motherboard without having to work at weird angles.  

2. Ground yourself. Before you begin working on the interior of your computer or handling the motherboard, make sure you discharge any electrostatic charge you may have. You can touch a water tap to discharge your electrostatic charge.

3. Replace the I/O panel shield. This is located at the rear of the case, where the connectors for the motherboard extend out for your monitor, USB devices, and other peripherals. Most cases have a default panel shield installed, which will need to be removed and replaced with the panel that came with your motherboard.

4. Find the standoffs. Standoffs keep the motherboard above the case. This prevents it from shorting out and helps cooling. 

5. Install the standoffs. Match the holes on the motherboard with the available standoff locations on the motherboard tray.

6. Place your motherboard on the standoffs. The holes and the standoffs should all line up. If your motherboard tray does not come out of the case, you may need to gently force the motherboard against the I/O panel on the back of the case to fit it.

7. Install your components. Before reinserting the motherboard tray with the newly-fastened motherboard into the case, install your CPU, CPU cooler, and RAM. Doing this now will make it much easier to reach everything.

8. Connect the power supply.

9. Connect your front panel.

10. Connect the front USB ports.

11. Connect the fans.

12. Install your drives.

13. Install a video card.

14. Adjust your wiring. 

15. Close up the computer.

c. CPU

1. Determine which CPU is in your computer either by reading the start-up screen or using diagnostic software.

2. Turn off and unplug the system unit.

3. Disconnect any components that may be in the way of removing the system unit's cover.

4. Remove the screws from the rear of the case and slide the cover away from the system unit case.

5. Place the cover away in a safe place.

6. Remove any and all electrical static charge from your clothes and body by touching a doorknob or any other grounded object.

7. Locate the CPU Chip. The chip will be mounted onto the motherboard in a socket and depending on the type of computer you have, the socket may be shaped in various forms.

8. Check your computer's manual to see if the CPU is Proprietary before you consider upgrading to a more powerful processor.

9. Remove such components as the hard drive or an expansion slot to gain full access the the chip if necessary.

10. Once the CPU is in plain view, grasp the lever on the Zero Insertion Force sockets and carefully but firmly pull the lever straight up. This lever is normally located on the side of the chip. 

11. Place the beveled end of the chip to match the beveled end of the socket when inserting the new chip.

12. Confirm that the chip you buy is compatible with your system and ask if you can return the chip if there are any problems. Be sure that the upgrade will perform what you want it to do. Your computer's performance will improve with a CPU upgrade but you may need to add more ram if you want to improve your Windows programs.

Tools used for PC Assembly

        

          

      

Screwdrivers and nut drivers

                

A screwdriver is a hand-tool for turning screws. A nut driver is a tool for tightening nuts and bolts.

Pliers, cutters, and strippers

        

PSU Tester and Multimeter

We use this to ensure that your power supply is in good working order, that voltage is being output properly, and that simple components, such as the power switch, are functioning.

Thermal-interface material

It's essential to apply a fresh layer of thermal paste anytime you mount or reseat a heat sink. This is the best means of ensuring that heat transfers from the processor to the heat sink, where it can be dissipated by a cooling fan or water block. 

Good head-mounted lamp

A good head-mounted lamp or adjustable clip-on light is incredibly useful when building or upgrading a system.

My Reflection: If I would be a tool I like to be a head-mounted lamp because I would be your light when you are in darkness or in trouble.

"Helping Others"