1. Processing Devices

2. Processing Devices
A computer is termed as data processing machine which accepts data and then stores or processes data immediately and display the output for the user.
A simple model of a computer
INPUT
PROCESSING
(CPU)
OUTPUT
STORAGE

4. Central Processing Unit(CPU)
CPU is called as the brain of the computer, where most calculations take place. It is also called as Processor and has electronic circuitry.
It controls and coordinate the activities of all other components of computer system and performs all the arithmetic and logical operations to be applied to the data.
For large machines, CPU’s require one or more printed circuit boards(Ex: NASA Servers or Super computers) and for PC’s, the CPU is housed in single chip called microprocessor.

5. 3 Basic Parts of CPU Registers Arithmetic and Logical Unit(ALU)
Control Unit(CU)
CPU

6. Registers
They hold various types of information such as data, instructions, addresses and intermediate results of calculations.
They hold the material that the CPU is currently working with and they can be thought of as being the CPU’s workspace. As soon as a particular instruction or piece of data is finished, the next one immediately replace it and information that results from the processing is returned to main memory.
Size of the registers can effect the speed and performance of the processor.

7. RAM:
Random access memory is name as any of the locations on a chip can be randomly selected and used to directly store and retrieve data and instructions
RAM refers to read and write memory and RAM is volatile memory, as soon as power was off, there is no data in the RAM.
ROM:
Read only memory chips are used by manufactures to permanently store some programmes.
RAM
ROM

8. Arithmetic and Logic Unit(ALU)
It’s the place where the actual execution of the instructions take place during the processing operation.
All calculations are performed and all comparisons are made in ALU.
Arithmetic operations include addition, subtraction, multiplication and division.
Logical operations compare numbers, letters and special characters.
Comparison operations test for three conditions:
equal to condition, less than conditions and greater than conditions where two values will be compared.

9. Relational operations (=, <, >) are used to describe the comparison operations used by the arithmetic logic unit.
The arithmetic logic unit performs logic functions such as AND, OR and NOT.
The data and instruction , stored in primary storage prior to processing, are transferred as and when needed to the ALU where processing takes place.
Data may move from primary storage to ALU and back again to memory many times before the processing is over.
After the processing is complete, the final result which are stored in main memory unit are released to an output device.

10. Control Unit
It contains an electronic circuit that uses electrical signals to direct the entire computer system to carry out, or execute, stored program instructions.
It communicates with all other devices.
It manages and coordinates the entire computer system.
It obtains instructions from the programme stored in main memory, interprets the instructions and issues signals that cause other units of the system to execute them.

11. Inside Computer Cabinet:
Or Buses

12. Buses
Buses connect address, data and control instructions together. A bus is a collection of wires through which data is transmitted from one part of computer to another.
In PC’s, the term bus usually refers to internal bus.
This is a bus that connects all the internal computer components to the CPU and main memory. There is also an expansion bus that enables expansion board to access the CPU and memory.
There are 3 types of buses.
Address bus
Data bus
Control bus.

13. Data bus used to transfer actual data.
Address bus is used to identify particular locations(addresses) in the main memory and input/output lines. The width of the address bus determines how many unique memory locations can be addressed.
To know how much data is transferred at one time is determined by size of data bus.
Ex: 16 / 32 bit data bus can transfer 16 / 32 bits of data.
The control bus is used to control flow of data. Ex: to read or write from or to memory. Every bus has a clock speed measured in MHz
A fastest bus allows data to be transferred faster, which makes applications run faster.

14. PROCESSOR HISTORY INTEL 4004 INTEL 8080 INTEL 8086. MOTOROLA 68000
INTEL 80386DX
SPARC
INTEL 80486DX
INTEL 80386SX
INTEL 80386SL
INTEL 80486SX
INTEL 80486DX2
INTEL PENTIUM
INTEL PENTIUM PRO
INTEL PENTUM II
INTEL PENTIUM III

15. INTEL® CELERON™ D PROCESSORS
INTEL® PENTIUM™ 4 PROCESSORS
INTEL® PENTIUM™ D PROCESSORS
INTEL® CORE® 2 DUO PROCESSORS
AMD® SEMPRON® PROCESSORS
AMD® ATHLON™ 64 PROCESSORS
AMD® ATHLON™ 64 X2 DUAL CORE PROCESSORS

16. Intel Celeron Intel P4 Intel Core 2 Duo

17. Conclusion
CPU is the brain of the computer that it controls and coordinates the activities of all the components of the computer.

18. Thank you!