Definition:Turing Machine

Definition
A Turing machine is an idealization of a computing machine.

The idea goes as follows.

A Turing machine works by manipulating symbols on an imaginary piece of paper by means of a specific set of algorithmic rules.

To simplify things, the piece of paper being worked on is in the form of a series of boxes on a one-dimensional "tape" divided into squares.

Each square can be either blank or can contain a symbol taken from a finite set, e.g. $s_1, s_2, \ldots, s_\alpha$.

The machine examines one square at a time, and carries out an action determined by both:
 * $(1): \quad$ the symbol in the square
 * $(2): \quad$ the current internal state of the machine.

The internal state of the machine is a way of providing a device that can keep track of the symbols in other squares.

There can be only a finite set of these states, say $q_1, q_2, \ldots, q_\beta$.

The actions that the machine can take are as follows:
 * $(1): \quad$ Replace the symbol in the square with another symbol
 * $(2): \quad$ Move to examine the square in the immediate left of the current square being looked at
 * $(3): \quad$ Move to examine the square in the immediate right of the current square being looked at.

After carrying out an action, the machine may change to a different internal state.

The program for the machine is a set of instructions which specify:
 * $(1): \quad$ what action to take in some possible combinations of the internal state and symbol in the square currently being read
 * $(2): \quad$ which internal state the machine moves into after carrying out that action.

Thus the instructions have the following form:
 * $q_i \quad s_j \quad A \quad q_t$

which is interpreted as:

"If:
 * the machine is in internal state $q_i$
 * the symbol in the square currently being examined is $s_j$

then:
 * Carry out action $A$
 * Move into internal state $q_t$.

The actions can be abbreviated to:
 * $L$: Move one square to the left
 * $R$: Move one square to the right
 * $s_k$: Replace the symbol in the square currently being read with symbol $s_k$.

The computation stops when there is no instruction which specifies what should be done in the current combination of internal state and symbol being read.

Also known as
Such a machine is also known as a deterministic Turing machine to distinguish it from the nondeterministic version.

He devised it some time around 1936.

Also see

 * Definition:Nondeterministic Turing Machine