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Page 1 3.1 Introduction to CPU Central processing unit etched on silicon chip called microprocessor Contain tens of millions of tiny transistors Key components: – Central processing unit – Registers – System clock Page 2 3.1 Introduction to CPU Central processing unit etched on silicon chip called microprocessor Contain tens of millions of tiny transistors Key components: – Central processing unit – Registers – System clock Types of Chips Intel makes a family of processors – Pentium III and Pentium4 processors in most PCs – Celeron processor sold for low-cost PCs – Xeon and Itanium for high-end workstations and network servers Other processors – Cyrix and AMD make Intel-compatible microprocessors – PowerPC chips used primarily in Macintosh computers – HP’s Alpha microprocessor used in high-end servers Page 3 3.1 Introduction to CPU Central processing unit etched on silicon chip called microprocessor Contain tens of millions of tiny transistors Key components: – Central processing unit – Registers – System clock Types of Chips Intel makes a family of processors – Pentium III and Pentium4 processors in most PCs – Celeron processor sold for low-cost PCs – Xeon and Itanium for high-end workstations and network servers Other processors – Cyrix and AMD make Intel-compatible microprocessors – PowerPC chips used primarily in Macintosh computers – HP’s Alpha microprocessor used in high-end servers Microprocessor Speeds Measure of system clock speed – How many electronic pulses the clock produces per second – Usually expressed in gigahertz (GHz) Billions of machine cycles per second Some old PCs measured in megahertz (MHz) Comparison of clock speed only meaningful between identical microprocessors CPU cycle time – inverse of clock rate Page 4 3.1 Introduction to CPU Central processing unit etched on silicon chip called microprocessor Contain tens of millions of tiny transistors Key components: – Central processing unit – Registers – System clock Types of Chips Intel makes a family of processors – Pentium III and Pentium4 processors in most PCs – Celeron processor sold for low-cost PCs – Xeon and Itanium for high-end workstations and network servers Other processors – Cyrix and AMD make Intel-compatible microprocessors – PowerPC chips used primarily in Macintosh computers – HP’s Alpha microprocessor used in high-end servers Microprocessor Speeds Measure of system clock speed – How many electronic pulses the clock produces per second – Usually expressed in gigahertz (GHz) Billions of machine cycles per second Some old PCs measured in megahertz (MHz) Comparison of clock speed only meaningful between identical microprocessors CPU cycle time – inverse of clock rate Current Technology Capabilities and Limitations Moore’s Law – Rate of increase in transistor density on microchips doubles every 18-24 months with no increase in unit cost Rock’s Law – Cost of fabrication facilities for chip generation doubles every four years Increased packing density Electrical resistance Page 5 3.1 Introduction to CPU Central processing unit etched on silicon chip called microprocessor Contain tens of millions of tiny transistors Key components: – Central processing unit – Registers – System clock Types of Chips Intel makes a family of processors – Pentium III and Pentium4 processors in most PCs – Celeron processor sold for low-cost PCs – Xeon and Itanium for high-end workstations and network servers Other processors – Cyrix and AMD make Intel-compatible microprocessors – PowerPC chips used primarily in Macintosh computers – HP’s Alpha microprocessor used in high-end servers Microprocessor Speeds Measure of system clock speed – How many electronic pulses the clock produces per second – Usually expressed in gigahertz (GHz) Billions of machine cycles per second Some old PCs measured in megahertz (MHz) Comparison of clock speed only meaningful between identical microprocessors CPU cycle time – inverse of clock rate Current Technology Capabilities and Limitations Moore’s Law – Rate of increase in transistor density on microchips doubles every 18-24 months with no increase in unit cost Rock’s Law – Cost of fabrication facilities for chip generation doubles every four years Increased packing density Electrical resistanceRead More
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FAQs on PPT: Introduction to Central Processing Unit - Computer Architecture & Organisation (CAO) - Computer Science Engineering (CSE)
| 1. What is a Central Processing Unit (CPU)? |  |
Ans. A Central Processing Unit (CPU) is the main component of a computer system responsible for executing instructions and performing calculations. It is often referred to as the "brain" of the computer.
| 2. How does a CPU work? | |
Ans. A CPU works by fetching instructions from the computer's memory, decoding them, and then executing the necessary operations. It consists of control units, arithmetic logic units, and registers that work together to process data and control the overall operation of the computer.
| 3. What are the different components of a CPU? | |
Ans. A CPU consists of several important components, including the control unit, arithmetic logic unit (ALU), registers, cache memory, and buses. The control unit manages the flow of data and instructions, the ALU performs mathematical and logical operations, registers store temporary data, cache memory stores frequently accessed data, and buses facilitate communication between different parts of the CPU.
| 4. What is the difference between a CPU and a GPU? | |
Ans. While both the CPU and GPU are processors, they are designed for different purposes. A CPU is a general-purpose processor that handles most tasks in a computer system, including running applications and managing the operating system. On the other hand, a GPU (Graphics Processing Unit) is specialized for rendering and processing graphics, making it more efficient for tasks such as gaming and graphics-intensive applications.
| 5. How does the CPU affect a computer's performance? | |
Ans. The CPU plays a crucial role in determining a computer's performance. A faster and more powerful CPU can execute instructions and perform calculations more quickly, resulting in faster application loading times, smoother multitasking, and better overall system performance. However, other factors like memory, storage, and the efficiency of software also impact a computer's performance.
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