Motherboard and CPU

This section discusses the names, purposes, and characteristics of the internal components of a computer. 

Motherboards :

The motherboard is the main printed circuit board and contains the buses, or electrical pathways, found in a computer. These buses allow data to travel between the various components that comprise a computer. A motherboard is also known as the system board or the main board.

12 IT Essentials: PC Hardware and Software Companion Guide The motherboard accommodates the central processing unit (CPU) , random-access memory (RAM) , expansion slots, heat sink and fan assembly, basic input/output system (BIOS) chip , chipset, and the circuitry that interconnects the motherboard components. Sockets, internal and external connectors, and various ports are also placed on the motherboard. The form factor of motherboards pertains to the size and shape of the board. It also describes the physical layout of the different components and devices on the motherboard. The form factor determines how individual components attach to the motherboard and the shape of the computer case. Various form factors exist for motherboards , as shown in Table 1-3. 

Table 1-3 Form Factors :

• AT Advanced Technology 

• ATX Advanced

• Technology Extended

• Mini-ATX Smaller footprint of Advanced Technology Extended

• Micro-ATX Smaller footprint of Advanced Technology Extended

• LPX Low-Profile Extended

• BTX Balanced Technology Extended 

• Mini-ITX Smaller than the Micro-ATX format 

• Nano-ITX Smaller footprint of the mini-ITX 

• Pico-ITX Half the size of the Mini-ITX

• Mobile-ITX Smallest ITX motherboard 

An important set of components on the motherboard is the chipset. The chipset is composed of various integrated circuits attached to the motherboard. They control how system hardware interacts with the CPU and motherboard. The CPU is installed into a slot or socket on the motherboard. The socket on the motherboard determines the type of CPU that can be installed. The chipset allows the CPU to communicate and interact with the other components of the computer and to exchange data with system memory, or RAM, hard disk drives, video cards, and other output devices. The chipset establishes how much memory can be added to a motherboard. The chipset also determines the type of connectors on the motherboard. Most chipsets are divided into two distinct components, Northbridge and Southbridge. What each component does varies from manufacturer to manufacturer. In general, the Northbridge controls access to the RAM, video card, and the speeds at which the CPU can communicate with them. The video card is sometimes integrated into the Northbridge. AMD and Intel have chips that integrate the memory controller onto the CPU die, which improves performance and power consumption. The Southbridge, in most cases, allows the CPU to communicate with the hard drive, sound card, USB ports, and other I/O ports.


CPUs :

The central processing unit (CPU) is considered the brain of the computer. It is sometimes referred to as the processor. Most calculations take place in the CPU. In terms of computing power, the CPU is the most important element of a computer system. CPUs come in different form factors, each style requiring a particular slot or socket on the motherboard. Common CPU manufacturers include Intel and AMD.  The CPU socket or slot is the connection between the motherboard and the processor. Most CPU sockets and processors in use today are built around the architectures of the pin grid array (PGA), and land grid array (LGA). In a PGA architecture, pins on the underside of the processor are inserted into the socket, usually with zero insertion force (ZIF) . ZIF refers to the amount of force needed to install a CPU into the motherboard socket or slot. In an LGA architecture, the pins are in the socket instead of on the processor. 

The CPU executes a program, which is a sequence of stored instructions. Each model of processor has an instruction set, which it executes. The CPU executes the program by processing each piece of data as directed by the program and the instruction set. While the CPU is executing one step of the program, the remaining instructions and the data are stored nearby in a special memory called cache. Two major CPU architectures are related to instruction sets: 

• Reduced Instruction Set Computer (RISC): Architectures use a relatively small set of instructions. RISC chips are designed to execute these instructions very rapidly. 

• Complex Instruction Set Computer (CISC): Architectures use a broad set of instructions, resulting in fewer steps per operation. 

Some Intel CPUs incorporate hyperthreading to enhance the performance of the CPU. With hyperthreading, multiple pieces of code (threads) are executed simultaneously in the CPU. To an operating system, a single CPU with hyperthreading performs as though there are two CPUs when multiple threads are being processed. Some AMD processors use hypertransport to enhance CPU performance. Hypertransport is a high-speed, low-latency connection between the CPU and the Northbridge chip. The power of a CPU is measured by the speed and the amount of data that it can process. The speed of a CPU is rated in cycles per second, such as millions of cycles per second, called megahertz (MHz), or billions of cycles per second, called gigahertz (GHz). The amount of data that a CPU can process at one time depends on the size of the front side bus (FSB). This is also called the CPU bus or the processor data bus. Higher performance can be achieved when the width of the FSB increases. The width of the FSB is measured in bits. A bit is the smallest unit of data in a computer and is the binary format in which data is processed. Current processors use a 32-bit or 64-bit FSB.

Overclocking is a technique used to make a processor work at a faster speed than its original specification. Overclocking is not a recommended way to improve computer performance and can result in damage to the CPU. The opposite of overclocking is CPU throttling . CPU 
throttling is a technique used when the processor runs at less than the rated speed to conserve power or produce less heat. Throttling is commonly used on laptops and other mobile devices. The latest processor technology has resulted in CPU manufacturers finding ways to incorporate more than one CPU core onto a single chip. These CPUs can process multiple instructions concurrently: 

• Single-core CPU: One core inside a single CPU that handles all the processing. A motherboard manufacturer might provide sockets for more than one single processor, providing the ability to build a powerful, multiprocessor computer . 

• Dual-core CPU: Two cores inside a single CPU in which both cores can process information at the same time. 

• Triple-core CPU: Three cores inside a single CPU that is actually a quad-core processor with one of the cores disabled. 

• Quad-core CPU: Four cores inside a single CPU. 

• Hexa-core CPU: Six cores inside a single CPU. 

• Octa-core CPU: Eight cores inside a single CPU. 

The flow of current between the electronic components generates heat. Computer components perform better when kept cool. If the heat is not removed, the computer may run slower. If too 
much heat builds up, computer components can be damaged. Increasing the airflow in the computer case allows more heat to be removed. A case fan installed in the computer case, makes the cooling process more efficient. In addition to a case fan , a heat sink draws heat away from the CPU core. A fan on top of the heat sink, moves the heat away from the CPU.  

Computers with extremely fast CPUs and GPUs might use a water-cooling system. A metal plate is placed over the processor, and water is pumped over the top to collect the heat that the processor generates. The water is pumped to a radiator to release the heat into the air and is then recirculated. 


In the next post we are going to talk about RAM and ROM !!!

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