SE311: Design of Digital Systems
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1 SE311: Design of Digital Systems Lecture 3: Complements and Binary arithmetic Dr. Samir Al-Amer (Term 041) SE311_Lec3 (c) 2004 AL-AMER ١
2 Outlines Complements Signed Numbers Representations Arithmetic Binary Codes Binary Storage Binary logic SE311_Lec3 (c) 2004 AL-AMER ٢
3 Complements Complements are used to represent negative numbers They make subtraction easier Subtraction is replaced by addition of a number to the complement of the second A - B = A+ (- B) X = The complement of (complement of X) X= - (-X) Two types of complement (r-1) s complement (Diminished radix complement) r s complement (Radix complement) Complements of numbers with fractions: remove the radix point, obtain the complement and return the radix point to its position. SE311_Lec3 (c) 2004 AL-AMER ٣
4 Complements (r-1) s complement (Diminished radix complement) BINARY: 1 s complement DECIMAL: 9 s complement Complement( X ) = ( r 1' s Complement( X ) = (2 n 1) n X 1) X r s complement (Radix complement) BINARY : 2 s complement DECIMAL: 10 s complement Complement( X ) = 2' s Complement( X ) = 2 r n X n X n : the number of digits used in the representation r : the base r s complement of X =1+ (r-1) s complement of X 2 s complement of X = 1+ 1 s complement of X SE311_Lec3 (c) 2004 AL-AMER ٤
5 Complement 1 s complement n digits are used in the representation To obtain the 1 s complement: Replace 0 by 1 and 1 by 0 2 s complement n digits are used in the representation To obtain the 2 s complement: Add one to the 1 s complement Example: 8 digits are used (n=8) X = s Complement (X) = in 1 s complement 2 s Complement (X) = in 2 s complement SE311_Lec3 (c) 2004 AL-AMER ٥
6 Subtraction with Complement M-N=M+ 2 s complement (N) Discard the carry MSB indicates the sign 1 : Negative M<N 0 : Positive M>N Negative numbers are represented in 2 s complement Example: (n=8) M= N = s Complement (N) = M-N = Carry (positive) answer SE311_Lec3 (c) 2004 AL-AMER ٦
7 Subtraction with Complement Example: (n=8) M= N = s Complement (N) = M-N = No Carry (negative) answer SE311_Lec3 (c) 2004 AL-AMER ٧
8 Binary Codes SE311_Lec3 (c) 2004 AL-AMER ٨
9 Binary Codes A binary code is a rule used to assign a binary number for each discrete element. With n-bit code we can represent up to 2 n discrete elements Important Binary Codes BCD (Binary Coded Decimal) ASCII (American Standard code for information interchange) Gray code Excess 3 code SE311_Lec3 (c) 2004 AL-AMER ٩
10 Binary Coded Decimal Each decimal digit is represented by four-digit binary code. Decimal BCD Decimal BCD ( 125 )D ( )BCD one needs 8-bits to represent the binary equivalent of 125 and 12-bits to represent the BCD equivalent. SE311_Lec3 (c) 2004 AL-AMER ١٠
11 Gray Code Useful in applications like analog to digital conversion. The code of a number differ from the code of the next number in exactly one bit Decimal Gray code Decimal Gray code SE311_Lec3 (c) 2004 AL-AMER ١١
12 ASCII Code American Standard Code for Information Interchange Used in communicating information between a computer and its peripherals or other computers. Each letter, digit or character is represented by 7-bit code Character ASCII Character ASCII A a ESC BS ASCII code (128 discrete elements: 94 printable characters and 34 control characters) SE311_Lec3 (c) 2004 AL-AMER ١٢
13 Binary Storage and Registers Binary Cell a device that has two possible states. can be used to store a single bit Registers: a group of binary cells n-bit registers: can store n-bit binary numbers Question: How many different possible states can n-bit registers have? SE311_Lec3 (c) 2004 AL-AMER ١٣
14 Binary Logic SE311_Lec3 (c) 2004 AL-AMER ١٤
15 Binary Logic Binary Logic involves binary variables and Logic operations Binary variables Can take one of two possible values ( 0 or 1). Designated by letters A, B,C, x, y, z Logic Operations Three basic operations AND, OR, NOT. SE311_Lec3 (c) 2004 AL-AMER ١٥
16 OR x OR y x x+y y The number of possible combinations of n binary inputs is 2 n x Truth Table y x+y SE311_Lec3 (c) 2004 AL-AMER ١٦
17 AND x AND y x xy y Truth Table x y xy SE311_Lec3 (c) 2004 AL-AMER ١٧
18 NOT NOT x x x Truth Table X 0 1 X 1 0 SE311_Lec3 (c) 2004 AL-AMER ١٨
19 Summary Complements r s complement 2 s complement (Binary) (r-1) s complement 1 s complement (Binary) Signed Numbers Representations Arithmetic Binary Codes (BCD, Gray, ASCII ) Binary Storage (Binary cell, register) Binary logic (binary variables, logic operations) SE311_Lec3 (c) 2004 AL-AMER ١٩
20 Learning Objectives Be able to calculate the 2's complement of a given n-bit binary number. Be able to explain the differences between signed-magnitude, signed-1's complement and signed-2's complement representations of negative binary numbers. Be able to perform subtraction problems in base 2 using the 2's complement method. Be able to determine the minimum number of bits needed to represent a given set of items. Be able to name and compare binary codes. Be able to explain the purpose and special feature of Gray codes. Be able to translate a message from ASCII code into standard English characters. (assuming that an ASCII code table is available) Know the definition of a binary cell. Know the definition of a register. Know the AND, OR and NOT truth tables. Know the logic gate and operator symbols for the AND, OR and NOT. SE311_Lec3 (c) 2004 AL-AMER ٢٠
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