02 combinational logic
TRANSCRIPT
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CS 221Computer Organization
Lecture 2Digital Logic
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This Lecture
Binary Storage Registers Binary Logic Boolean Algebra Boolean Algebra Functions Boolean Function Implementation Canonical & Standard Forms Gate Level Minimization
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Binary storage & registers
How do we store binary information?
Binary cell : place to store one bit of information. 0 or 1.
Register: a group of binary cells.
Register transfer: An operation in a digital system
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Binary storage & registers
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Binary information processing
Example: Add two 10-bit binary numbers
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Binary logic
Binary logic deals with variables that take on two discrete values and operations that assume logical meaning.
Logic gates: electronic circuits that operate on one or more input signals to produce an output signal.
Example x y x AND y0 0 00 1 01 0 01 1 1
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Electrical signals
Two values: 0 or 1
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Symbols for digital logic circuits
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Input-Output signals for gates
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Gates with multiple inputs
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Boolean Algebra
Basic definitions:
x+0=0+x=x x.1=1.x=x x.(y+z)=(x.y)+(x.z) x+(y.z)=(x+y).(x+z) x+x’=1 x.x’=0
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Boolean Algebra Theorems
x+x=x x.x=x x+1=1 x.0=0 x+x.y=x x.(x+y)=x
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Boolean Algebra Functions
examples: F1=x+y’.z
F2=x’.y’.z+x’.y.z+x.y’ =x’.z(y’+y)+x.y’ F2=x’.z+x.y’
A Boolean Function can be represented in many algebraic forms
We look for the most simple form
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Boolean Function: Example
Truth table
x y z F1 F2 0 0 0 0 0 0 0 1 1 1 0 1 0 0 0 0 1 1 0 1 1 0 0 1 1 1 0 1 1 1 1 1 0 1 0 1 1 1 1 0
A Boolean Function can be represented in only one truth table forms
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Boolean Function Implementation
y’
Y’.z
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Boolean Function Implementation
X’.y’.z
X’.y.z
X.y’
X.y’
X’.z
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Canonical & Standard Forms
Consider two binary variables x, y and the AND operation four combinations are possible: x.y, x’.y, x.y’, x’.y’ each AND term is called a minterm or standard products
for n variables we have 2n minterms
Consider two binary variables x, y and the OR operation four combinations are possible: x+y, x’+y, x+y’, x’+y’ each OR term is called a maxterm or standard sums
for n variables we have 2n maxterms
Canonical Forms: Boolean functions expressed as a sum of minterms or product of
maxterms.
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Minterms
x y z Terms Designation
0 0 0 x’.y’.z’ m0 0 0 1 x’.y’.z m1 0 1 0 x’.y.z’ m2 0 1 1 x’.y.z m3 1 0 0 x.y’.z’ m4 1 0 1 x.y’.z m5 1 1 0 x.y.z’ m6 1 1 1 x.y.z m7
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Maxterms
x y z Designation Terms 0 0 0 M0
x+y+z 0 0 1 M1
x+y+z’ 0 1 0 M2
x+y’+z 0 1 1 M3
x+y’+z’ 1 0 0 M4
x’+y+z 1 0 1 M5
x’+y+z’ 1 1 0 M6
x’+y’+z 1 1 1 M7
x’+y’+z’
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Boolean Function: Exampl
How to express algebraically
Question: How do we find the function using the truth table?
Truth table example: x y z F1 F2 0 0 0 0 0 0 0 1 1 1 0 1 0 0 0 0 1 1 0 1 1 0 0 1 1 1 0 1 1 1 1 1 0 1 0 1 1 1 1 0
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Boolean Function: Exampl
How to express algebraically
1.Form a minterm for each combination forming a 1 2.OR all of those terms
Truth table example: x y z F1 minterm 0 0 0 0 0 0 1 1 x’.y’.z
m1 0 1 0 0 0 1 1 0 1 0 0 1 x.y’.z’
m4 1 0 1 0 1 1 0 0 1 1 1 1 x.y.z
m7
F1=m1+m4+m7=x’.y’.z+x.y’.z’+x.y.z=Σ(1,4,7)
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Boolean Function: Exampl
How to express algebraically
Truth table example: x y z F2 minterm 0 0 0 0 m0 0 0 1 0 m1 0 1 0 0 m2 0 1 1 1 m3 1 0 0 0 m4 1 0 1 1 m5 1 1 0 1 m6 1 1 1 1 m7
F2=m3+m5+m6+m7=x’.y.z+x.y’.z+x.y.z’+x.y.z=Σ(3,5,6,7)
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Boolean Function: Exampl
How to express algebraically
1.Form a maxterm for each combination forming a 0 2.AND all of those terms
Truth table example: x y z F1 maxterm 0 0 0 0 x+y+z M0 0 0 1 1 0 1 0 0 x+y’+z M2 0 1 1 0 x+y’+z’ M3 1 0 0 1 1 0 1 0 x’+y+z’
M5 1 1 0 0 x’+y’+z M6 1 1 1 1
F1=M0.M2.M3.M5.M6 = л(0,2,3,5,6)
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Boolean Function: Exampl
How to express algebraically
Truth table example: x y z F2 maxterm 0 0 0 0 x+y+z M0 0 0 1 0 x+y+z’
M1 0 1 0 0 x+y’+z
M2 0 1 1 1 1 0 0 0 x’+y+z M4 1 0 1 1 1 1 0 1 1 1 1 1
F=M0.M1.M2.M4=л(0,1,2,4)=(x+y+z).(x+y+z’).(x+y’+z).(x’+y+z)
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Maxterms & Minterms: Intuitions
Minterms: If a function is expressed as SUM of PRODUCTS, then if
a single product is 1 the function would be 1.
Maxterms: If a function is expressed as PRODUCT of SUMS, then if
a single product is 0 the function would be 0.
Canonical Forms: Boolean functions expressed as a sum of minterms or
product of maxterms.
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Standard Forms
Standard From: Sum of Product or Product of Sum
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Nonstandard Forms
Nonstandard From: Neither a Sum of Product nor Product of Sum
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Implementations
Three-level implementation vs. two-level implementation
Two-level implementation normally preferred due to delay importance.
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Digital Logic Gates
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Integrated Circuits (ICs)
Levels of Integration
SSI: fewer than 10 gates on chip MSI:10 to 1000 gates on chip LSI: thousands of gates on chip VLSI:Millions of gates on chip
Digital Logic Families TTL transistor-transistor logic ECL emitter-coupled logic MOS metal-oxide semiconductor CMOS complementary metal-oxide semiconductor
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Digital Logic Parameters
Fan-out: maximum number of output signals Fan-in : number of inputs
Power dissipation Propagation delay Noise margin: maximum noise
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Gate-Level Minimization
The Map Method: A simple method for minimizing Boolean functions
Map: diagram made up of squares Each square represents a minterm
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Two-Variable Map
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Two-Variable Map
Maps representing x.y and x+y
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Three-Variable Map
Minterms are not arranged in a binary sequenceMinterms arranged in gray code: Only one bit changes from one column to the next
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Three-Variable Map-example 1
Sum of two adjacent minterms can be simplified to a single AND term consisting of two literals
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Three-Variable Map-example 2
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Three-Variable Map-example 3
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Three-Variable Map-example 4
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Four-Variable Map
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Four-Variable Map-example 1
1
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Four-Variable Map-example 2
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Graphic symbols for NAND gates
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Summary
Logic Gates Combinational Circuit Integrated Circuits Gate Level Minimization
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Recommended Reading
• Read textbook & readings• Solve exercises• Digital Design
Fifth edition,
by Morris Mano, Prentice Hall Publishers