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Is a Turing machine an infinite state machine?

Is a Turing machine an infinite state machine?

No. The definition of Turing machines requires that the finite-state control unit have a finite number of states. It’s not allowed to have an infinite number of states.

What is the difference between finite state machine and Turing machine?

A finite state machine is just a set of states and transitions. The only memory it has is what state it is in. A Turing machine is a finite state machine plus a tape memory. Each transition may be accompanied by an operation on the tape (move, read, write).

Is a state machine a Turing machine?

A Turing machine is a finite state machine that has an unlimited supply of paper tape that it can write on and read back. There are many formulations of a Turing machine, but essentially the machine reads a symbol from the tape, which is used as an input to the finite state machine.

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Is Turing machine and universal Turing machine same?

3 Answers. A universal Turing machine is just a Turing machine whose programming simulates other Turing machines. That is, the input to the UTM is a description of a Turing machine T and an input for T, and the UTM simulates T on that input.

What do you mean by universal Turing machine?

In computer science, a universal Turing machine (UTM) is a Turing machine that simulates an arbitrary Turing machine on arbitrary input. The universal machine essentially achieves this by reading both the description of the machine to be simulated as well as the input to that machine from its own tape.

Can a Turing machine have 0 states?

Under most definitions, a Turing machine can have only one state.

What are the types of Turing machine?

Variation of Turing Machine

  • Multiple track Turing Machine:
  • Two-way infinite Tape Turing Machine:
  • Multi-tape Turing Machine:
  • Multi-tape Multi-head Turing Machine:
  • Multi-dimensional Tape Turing Machine:
  • Multi-head Turing Machine:
  • Non-deterministic Turing Machine:

Are finite state machine Turing complete?

A finite-state machine is a restricted Turing machine where the head can only perform “read” operations, and always moves from left to right. Because finite states machines are limited in the sense that they have no memory, a FSM that accepts L can’t be constructed.

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Can the universal Turing machine simulate the universal Turing machine?

Similarly, the universal TM can simulate other Turing machines using its own data as a TM and its input. This is just like the CPU simulating a program by using its own data. The simulated Turing machines are encoded by using the input symbols of the UTM, just like the programs are encoded by the input symbols of CPU.

Can a Turing machine simulate a Turing machine?

Can a universal Turing machine simulate any other Turing machine?

Similarly, the universal TM can simulate other Turing machines using its own data as a TM and its input. This is just like the CPU simulating a program by using its own data. Note that the Universal Turing Machine is the only REAL Turing machine and its input is only a simulated TM.

Can Turing machine have one state?

Nevertheless it has been showed that a one-state Turing machine can accept non regular languages. We extend such result and prove that they can also recognize non context-free languages, so for some tasks they are more powerful than pushdown automata.

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What is the difference between Turing machines and finite state machines?

Finite state machines describe a small class of languages where no memory is needed. Turing Machines are the mathematical description of a computer and accept a much larger class of languages than FSMs do. Turing Machines have has more computational power than FSM.

Is the Turing machine a real machine?

Turing’s machine is not a real machine. It’s a mathematical model, a concept, just like state machines, automata or combinational logic. It exists purely in the abstract. (Although “real” implementations of the Turing machine do exist, like in this foundational computer science paper.)

Is it possible to have an infinite number of States?

It’s not allowed to have an infinite number of states. A machine that could have infinitely many states in its control could accept any language (unlike a Turing machine). However such a machine could not be implemented in practice.

What is the difference between a DFA and a Turing machine?

The difference between DFAs and TMs is in the number of configurations, which is the same as the number of states for a DFA, but is infinitely great for a TM. Turing Machines describe a much larger class of languages, the class of recursively enumerable languages.