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Schaum’s Outline of Theory and Problems of Computer ArchitectureCopyright © The McGraw-Hill Companies Inc. Indian Special Edition 2009
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Chapter 03: Computer ArithmeticComputer Arithmetic
Lesson 05:Arithmetic Multiplication Circuits
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Schaum’s Outline of Theory and Problems of Computer ArchitectureCopyright © The McGraw-Hill Companies Inc. Indian Special Edition 2009
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Objective
• Learn Booth encoding• Learn fast multiplication by bit pairing
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Multiplication Process By Booth’s Encoding Algorithm
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Multiplication
• Multiplication of two's-complement numbers more complicated
• Because performing a straightforward unsigned multiplication of the two's-complement representations of the inputs does not give the correct result
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Multiplication
• Multipliers could be designed to convert both of their inputs to positive quantities and use the sign bits of the original inputs to determine the sign of the result
• Increases the time required to perform a multiplication
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Booth’s Algorithm
• A technique called Booth encoding• To quickly convert two's-complement numbers
into a format that is easily multiplied
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Booth encoding
• Apply encoding to the multiplier bits before the bits are used for getting partial products
1. If ith bit bi is 0 and (i –1)th bit bi-1 is 1, then take bi as +1
2. If ith bit bi is 1 and (i –1)th bit bi-1 is 0, then take bi as –1
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3. If ith bit bi is 0 and (i –1)th bit bi-1 is 0, then take bi as 0
4. If ith bit bi is 1 and (i –1)th bit bi-1 is 1, then take bi as 0
• When lsb b0 = 1, assume that it had b-1 as 0, thus take b0 = –1
Booth encoding
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Example
Multiplier After Booth’s conversion0 1 1 1 0 0 0 0 +1 0 0 –1 0 0 0 00 1 1 1 0 1 1 0 +1 0 0 –1 +1 0 –1 0 0 0 0 0 0 1 1 1 0 0 0 0 +1 0 0 –10 1 0 1 0 1 0 1 +1–1+1–1+1–1+1–1
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Multiplication by Booth’s Encoding
• Booth’s algorithm permits skipping over 1s and when there are blocks of 1s
• It improves performance significantly
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Multiplication using Booth’s algorithm
11101100b Two’s complement 0000000000010100×00000l01b Two’s complement ×1111111111111 0 11
00000000 0000 – 1+1 0 – 1× – 1 11111111 11101100
000000000 0000000 × + 1 00000000 00010100 × – 1 11111111 11101100
000000000 0000000= – 100 11111111 10011100
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Present CasePresent Case
• Observe─ the addition of 00000000 00010100 or its two’s complement is done only thrice, in contrast to the addition of 00000000 00010100 done 15 times in earlier described procedures without using Booth’s algorithm
• The adder circuit takes longer period to implement than finding –1 and +1 and 0’s for multiplier
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Worst Case
• The worst case of an implementation using Booth’s algorithm is when pairs of 01s or 10s occur very frequently in the multiplier
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Fast Multiplication Process
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Fast Multiplication
• Fast multiplication by a combination of methods
1. Bit Pair Recording of Multipliers and2. Carry Save Addition of the Sums
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Carry Save Addition in the Sums of partial products
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Two-dimensional arrays of full adders to get partial products
• The carry of each FA connects the neighboring left side cell in each row
• Each FA in a cell gives the carry out as input to the next row left column FA
• The carry addition method, which reduces the time taken for additions
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Carry Save method for faster multiplication
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Two-dimensional arrays of full adders to get partial products
• Downward diagonal full arrows as an example• An FA, instead of getting the ripple carry input
from the previous input column of a row is given carry-input from previous column’s previous row output
• Refer upward dashed arrows as an example
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Two-dimensional arrays of full adders to get partial products
• For example, carry out from first row’s right-most column full adder FA is given as input to the second row’s right-most FA, carry out from the second row’s right- most FA is given as input to the third row’s right-most FA, and so on
• Each FA in a cell gives the carry out as input to next row’s left column FA
• Delay through carry save adder is less than carry ripple through adder
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Bit Pair Recording of Multipliers
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Bit Pair Recording of Multipliers
• When Booth’s algorithm is applied to the multiplier bits before the bits are used for getting partial products─ Get fast multiplication by pairing
1. If pair ith bit and (i –1)th Booth multiplier bit (Bi , Bi–1) is (+1, −1), then take Bi–1 = +1 and Bi = 0 and pair (0, +1)
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Bit Pair Recording of Multipliers
2. If pair ith bit and (i –1)th Booth multiplier bit (Bi, Bi–1) is (−1, +1), then take Bi–1 = −1 and Bi = 0 and make pair (0, −1)
3. If pair ith bit and (i –1)th Booth multiplier bit (Bi, Bi–1) is (+1, 0), then take Bi–1 = 2 and Bi = 0 and make pair (0, +2)
4. If pair ith bit and (i –1)th Booth multiplier bit (Bi, Bi–1) is (−1, 0), then take Bi–1 = −2 and Bi = 0 and make pair (0, −2)
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Example
Multiplier0 1 1 1 0 0 0 0After Booth’s conversion+10 0 –1 0 0 0 0After pairing0+2 0 –1 0 0 0 0
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Example
Multiplier0 1 1 1 0 1 1 0
After Booth’s conversion+1 0 0 –1 +1 0 –1 0 After pairing0 + 2 0 0 –1 0 –1 0
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Example
Multiplier0 0 0 0 0 1 1 1 After Booth’s conversion0 0 0 0 +1 0 0 –1 After pairing0 0 0 0 0 +2 0 –1
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Example
Multiplier0 1 0 1 0 1 0 1
After Booth’s conversion+1–1+1–1+1–1+1–1 After pairing0 +1 0 +1 0 +1 0 +1
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Worst case─ 0 1 0 1 0 1 0 1
• In the worst case also, the number of additions in an 8-bit multiplier has reduced to 4
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Use of triplets
• bi+1 1• bi 1 Bi = 0• bi–1 1• bi+1 1• bi 1 Bi = – 1• bi–1 0
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Use of triplets
• bi+1 1• bi 0 Bi = –2• bi–1 0• bi+1 1• bi 0 Bi = – 1• bi–1 1
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Use of triplets
• bi+1 0• bi 0 Bi = 0• bi–1 0• bi+1 0• bi 0 Bi = + 1• bi–1 1
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Use of triplets
• bi+1 0• bi 1 Bi = +1• bi–1 0• bi+1 0• bi 1 Bi = + 2• bi–1 1
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Summary
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• Multiplication circuit becomes fast by Booth’s algorithm
• Faster by Bit pair encoding• Faster by triplets
We learnt
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End of Lesson 5 on Arithmetic Multiplication Circuits