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Representing Information as Bit Patterns

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Presentation on theme: "Representing Information as Bit Patterns"— Presentation transcript:

1 Representing Information as Bit Patterns
Chapter 1.4 Representing Information as Bit Patterns

2 Representing Information as Bit Patterns
Representing text Representing Numeric Values Representing Images Representing Sound

3 Representing Text Information in the form of text is normally represented by means of a code in which each of the different symbols in the text is assigned a unique bit pattern. The text is then represented as a long string of bits in which the successive patterns represent the successive symbols in the original text.

4 Representing Text ASCII
American Standard Code for Information Interchange Appendix A shows a portion of ASCII in an eight-bit-per-symbol format.

5 Representing Text

6 Representing Text Example: Message “Hello” in ASCII
H e l l o

7 Representing Text Unicode, was developed through the cooperating of several of the leading manufacturers of hardware and software and is rapidly gaining support in the computing community. It uses a unique pattern of 16 bits to represent each symbol. It consists of 65,536 different bit patterns Languages as Chinese, Japanese, and Hebrew can be represented.

8 Representing Text Question 1 on page 40
Here is a message encoded in ASCII using eight bits per symbol. What does it say?

9 Representing Text Look it up in the ASCII Table

10 Representing Text

11 Representing Text The answer is: Computer Science.

12 Representing Numeric Values
Binary Notation Fractions in Binary Two’s Complement Notation Negative values Length of the Bit pattern Excess notation Length of the bit pattern

13 Representing Numeric Values
Floating-Point Notation Different fields (sign, exponent, mantissa) Sign bit In the book, we only use 1 byte, which is 8 bits length Where the radix point is

14 Representing Numeric Values
Floating-Point Notation Extracting floating point How to move the radix point (+->R, - ->L)

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