digital logic structures
Post on 15-Jan-2016
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Digital Logic Structures
• MOS transistors
• logic gates
• functional units of a computer
MOS: Metal-oxide Semiconductor• Basic electrical circuit: power supply,
switch, lamp• manipulating the switch makes/breaks
the circuit
2 Basic Types of Transistors
• N-type: acts as a closed circuit when given a logically high voltage
• P-type: acts as a closed circuit when given a logically low voltage
Circuits with both are called CMOSCircuits with both are called CMOS
gate gate
Logic Gates
• basic logic structures (AND, OR, NOT) are created out of CMOS transistors
• inverter: recall the truth table for NOT
in outin out
0 1
1 0
in out
OR and NOR gates
• given the circuit, build the truth table
• how do we get OR?
AND and NAND gates
• Construct NAND first, just as with NOR• NAND and NOR technology very widely
used
• Inverter• AND, NAND• OR, NOR• a single bubble on an input or
output denotes an inverter• multiple-input gates
Notation for Digital Logic Gates
Expressions to Truth Tables
NOT ((NOT A) or B)
(A or B)
Expressions to Truth Tables
NOT ((NOT A) or B)
(A or B)
A A B OR C
0
0
1
1
1
1
0
0
0
1
0
1
1
1
0
1
0
0
1
0
DeMorgan’s Laws
• A AND B = A OR B
• A OR B = A AND B
Logic Structures
• we build logic structures out of logic gates
• logic structures are components of the microarchitecture of a computer
• 2 kinds of logic structures• some store information• some do not store information
Combinational Logic Structures
• output is completely determined by the combination of input values
• examples:• decoder• multiplexor (MUX)• full adder
Decoder
• outputs one 1 and the rest 0s where the 1 corresponds to a unique input pattern
• for n inputs lines, 2n output lines
• the output line that has the value 1 is asserted
MUX
• selects an input and connects it to the output
• for 2n inputs lines, n select lines
• MUX is represented by an upside down trapezoid
4 Input MUX
Single Bit Adder
a b ci co s0 0 0 0 00 0 1 0 10 1 0 0 10 1 1 1 01 0 0 0 11 0 1 1 01 1 0 1 01 1 1 1 1
4bit Adder
Logical Completeness
• we can build a circuit for any truth table using AND, OR, and NOT
• proof by construction:• draw vertical lines for all inputs• for each 1 in the output value, connect 1s in
the input directly to an AND gate (invert 0s); repeat for each row
• OR all of the AND gates together
Basic Storage Elements
• R-S latch: simple structure that stores 1 bit of information
• implemented with NAND gates• start with quiescent state (R=S=1)• as long as ‘a’ is 1, it stays 1 (same for 0)
1
1
1
0
1
1
0
1
Reset/Set the Latch
• put 0 on S while R=1, causes ‘a’ to become 1
• put 0 on R while S=1, causes ‘a’ to become 0
• behavior is undefined if both go to 0
1
1
0
1
10
1
0 1
10
quiescent
The Gated D-latch
• uses the R-S latch, plus some additional logic gates
• D is the value that is stored, but it is only set/reset when WE (write-enable) is 1
• D’s value causes one of R or S to become 0
01
0 11
10
10
01
Register• every computer offers a number of registers:
high speed special memory locations• some registers have special meaning (e.g., PC is
the program counter)• note that outputs in the 4-bit register are labeled
by Q(n-1:0)
Memory
• memory location: collection of bits, has to be uniquely identified
• identified by an address• the number of bits we have to represent
addresses determines the maximum number of locations that can be accessed in memory
224 = 16,777,216 = 16MB locations
Addressibility
• the number of bits we have to represent the data gives the addressibility of the memory. E.g. The size of each memory location.
• byte addressibility: convenient since characters are one byte
• supercomputers may be 64-bit addressible for 64-bit floating point numbers
22 by 3 Memory
Address Decoding
Logic
Gated D-Latches
3-bit Value to be stored
4 Rows4 memory Locations
• Trace how data is output and stored
Preview of the LC-2
• memory• registers
• Data (R0…R7, MDR, …)• Control (PC, MAR, ….)
• multiplexers (MUXs) • Arithmetic Logic Unit (ALU)
• Arithmetic operations (add, subtract)• Bitwise logical operations (or, and, ..)
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