Ever wonder what goes on inside your computer’s motherboard? Well, you’re about to find out. If you think back for a moment to the last time you had to set up a home network, you might remember having to install different types of cards into their respective slots. One type of card is used for modems; another kind is used for video cards. Inside your computer, you also have a network card that allows the motherboard to communicate with other types of computers; sound cards that let your computer process and play audio; TV tuner boards to allow your machine to act as a DVR; and FireWire or USB card readers.
What all these different kinds of cards have in common is that they plug into a slot on the motherboard so that their components can communicate with one another. Motherboards have a specific design and layout, depending on which kind of processor is installed in them. The most common processors today are made by Intel and AMD. They come in three sizes: intel’s 2-gigahertz Celeron and 1.3-gigahertz Pentium 4, and AMD’s Athlon at speeds of 1.4 gigahertz and up to 2 gigahertz. They also come in two different types: 32-bit and 64-bit processors. Some motherboards contain both 32-bit and 64-bit processors so that they can support both types of chips.
All these components need to be able to communicate with one another, exchanging data like how fast your mouse is moving or what keys you’re pressing on the keyboard. A motherboard sends this data through a connection called the expansion slot. You can think of an expansion slot as one of those big buildings made with open sides so that people inside can see out and people outside can see in. It’s like a tunnel running between all your different components, letting them all communicate with one another.
Best Motherboards 2021 for Gaming, by Socket and Chipset:
We analyzed the specs of the best motherboards in the year 2021 for Intel’s LGA 1150, 1151, and 2011-3 sockets as well as AMD’s new AM4 socket. We included only the most anticipated models (based on unofficial news and rumors) that will be available by the next holiday season. Provider Of Motherboard We analyzed their feature sets and price tags to determine which of them will be best in each.
To determine the best motherboard for each socket, we analyzed their feature sets to find out which of them will have the most complete support for AMD Ryzen processors and Intel’s next-generation CPUs.
Quick Motherboard Shopping Tips:
1) buy a motherboard that is compatible with the chipsets and socket type of your processor.
The motherboard should support at least the same socket type as your processor. And it must be able to fit into the case you plan on putting it in (read: make sure it’s not too big for your case).
If you’re buying an AMD CPU, make sure you get a motherboard with an AMD chipset. You want to choose a motherboard with the right chipset because it determines what kind of RAM you can use, and whether or not your motherboard will support overclocking.
Here’s an example: Let’s say you bought a Phenom 9750 (socket AM2+), and then later on you buy the latest and greatest CPU that AMD released – the Phenom II X4 955 (socket AM3).
Since the new CPU has a different socket type, you can’t use it with your old motherboard. That’s why you have to buy a new motherboard if you’re getting a new processor – they are not compatible.
What is a Motherboard? – Definition and How Motherboards Work:
A motherboard is the primary circuit board in any computer system. It’s the largest, most important electronic component in your computer, which you cannot do without. A good analogy would be the skeleton of a human body — it supports all your other organs, muscles, and wiring! And just like bones are necessary for a body to function, the motherboard is necessary to make everything else in your computer work.
In terms of technical specifications, it’s typically a printed circuit board (PCB) with many electronic components attached to it, which include: integrated circuits (ICs), transistors, capacitors, and connectors. Integrated circuits are like “mini-computers” on a single component, and they serve the purpose of amplifying, distributing, and controlling electric current. Transistors are “passive components” that use electricity to switch on or off an attached load (like a light bulb).
