Post on 01-Jan-2016
CPS3340 COMPUTER
ARCHITECTURE Fall Semester, 2013
CPS3340 COMPUTER
ARCHITECTURE Fall Semester, 2013
09/10/2013
Lecture 5: Combinational Logic
Instructor: Ashraf YaseenDEPARTMENT OF MATH & COMPUTER SCIENCECENTRAL STATE UNIVERSITY, WILBERFORCE, OH
1
Review
Last Class Basic of Logic Design
This Class Integrated Circuits Decoder Multiplexor PLA ROM Don’t Care Bus
Next Class Design of ALU
Integrated Circuit
Integrated Circuit (IC) A small electronic device made out of a semiconductor material
Classifications SSI (small-scale integration)
up to 100 electronic components per chip MSI (medium-scale integration)
100~3,000 electronic components per chip LSI (large-scale integration)
3,000~100,000 electronic components per chip VLSI (very large-scale integration)
100,0000 to 1,000,0000 electronic components per chip ULSI (ultra large-scale integration)
More than 1 million electronic components per chip
Decoder
Decoder A logic block that has n-bit input and 2n
outputs, where only one output is asserted for each input combination
If the input is i (in binary), then output i is 1 others are 0
Decoder Example
3-8 Decoder
Multiplexor
Multiplexor A selector
The output is selected by an input control
Implementation of a Multiplexor
n-input Multiplexor
A Multiplexor can have n-inputs Require selective inputs
Implementation of an n-input Multiplexor
Two-level Logic
Try to Remember: Any Boolean Logic function can be implemented with only NOT, AND, OR functions
We can also find that all logic functions can be written in a canonical form, in 2 levels Sum of Product
Logical Sum (OR) of terms joined by Product (AND) Product of Sum
Logical Product (AND) of terms joined by Sum (OR)
Example
Consider a logic function
Equivalent to sum of products
Equivalent to product of sums
In Class Exercise
Considering the following truth table for D, write the function of D using sum of products
Answer
Combinations that D is 1
Answer
Programmable Logic Array
Programmable Logic Array (PLA) Two stages of logic
An array of AND gates (product terms) An array of OR gates
PLA Example
Considering the following table, implement the PLA for D, E, F
PLA Example – cont.
A PLA can directly implement the truth table of a set of logic functions with multiple inputs and outputs. Each entry where the output is true
requires a product term there will be a corresponding row in the PLA
Each output corresponds to a potential row of OR gates in the second stage
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Another PLA Representation
Dot in the AND plane Input, or its inverse,
occurs in the product term
Dot in the OR plane Corresponding product
term appears in the corresponding output
Read Only Memory
Read Only Memory (ROM) Has a set of locations that can be read Contents of these locations are fixed
Programmable ROM (PROM) Can be burnt using a device called a “ROM programmer”
Erasable Programmable Read Only Memory (EPROM) Data in the ROM can be deleted under ultra-violet rays
EEPROM (Electrically Erasable Read Only Memory) Data in the ROM can be erased by a simple electric
current
ROM
Height m inputs 2m addressable entries (input lines)
Width n outputs (functions) 2n output bits
mxn is the shape of the ROM
ROMs and PLAs
PLA is partially decoded ROM is fully decoded
Contains a full output word for every possible input combination
Always contain more entries than PLA
PLA (7 entries) ROM (8 entries – 1 unused)
Don’t Care
Don’t Care We don’t care about the actual values
Output Don’t Care We don’t care about the value of an output for
some input combination Input Don’t Care
An output only depends on some of the inputs Advantages of Don’t Care
Easier to optimize the implementation of a logic function
Example of Don’t Cares
Original Truth Table
Example of Don’t Cares
Output Don’t Cares
Input Don’t Cares
Array of Logic Elements
Bus In logic design, a
collection of data lines that is treated together as a single logical signal
Shared collection of lines with multiple sources
32-bit wide 2-to-1 multiplexor
Summary
Integrated Circuits Decoder Multiplexor PLA ROM Don’t Care Bus
What I want you to do
Review Chapter 1