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Difference between revisions of "boolean algebra/functional completeness"
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{{ba title|functional completeness}}
 
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! colspan="6" | Logic function classification
 
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| [[XOR]]  || '''✘'''      || '''✘'''  ||'''✔'''  || '''✔'''      || '''✘'''
 
| [[XOR]]  || '''✘'''      || '''✘'''  ||'''✔'''  || '''✔'''      || '''✘'''
 
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A set of logic operations is '''functionally complete''' in [[Boolean algebra]] provided every [[propositional function]] can be expressed entirely in terms of operations in the set - i.e. by combining the various logic operations in a set one could create every truth table. Two notable sets are [[NAND logic|'''{''' NAND '''}''']] and [[NOR logic|'''{''' NOR '''}''']]. Such sets are also called '''complete''' sets.
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A set of logic operations are said to be '''functionally complete''' provided every [[propositional function]] can be expressed entirely in terms of operations in the set - i.e. by combining the various logic operations in a set one could create every [[truth table]]. Two notable sets are [[NAND logic|'''{''' NAND '''}''']] and [[NOR logic|'''{''' NOR '''}''']]. Such sets are also called '''complete''' sets.
  
 
== Examples ==
 
== Examples ==

Latest revision as of 23:05, 7 December 2015

Logic function classification
Func Monotone Inc Self-dual Linear 0-preserving 1-preserving
LOW
HIGH
NOT
AND
OR
XOR

A set of logic operations are said to be functionally complete provided every propositional function can be expressed entirely in terms of operations in the set - i.e. by combining the various logic operations in a set one could create every truth table. Two notable sets are { NAND } and { NOR }. Such sets are also called complete sets.

Examples[edit]

The following are some examples of functionally complete sets:

Determining Completeness[edit]

From the table it can be seen that the following sets are functionally complete: { AND, NOT }, { OR, NOT }, { AND, OR, NOT }.

See also[edit]