Linear speedup theorem

In computational complexity theory, the linear speedup theorem for Turing machines states that given any real c > 0 and any k-tape Turing machine solving a problem in time f(n), there is another k-tape machine that solves the same problem in time at most f(n)/c + 2n + 3, where k > 1.^[1]^[2] If the original machine is non-deterministic, then the new machine is also non-deterministic. The constants 2 and 3 in 2n + 3 can be lowered, for example, to n + 2.^[1]

^ ^a ^b Christos Papadimitriou (1994). "2.4. Linear speedup". Computational Complexity. Addison-Wesley.
^ Thomas A. Sudkamp (1994). "14.2 Linear Speedup". Languages and Machines: An Introduction to the Theory of Computer Science. Addison-Wesley.

[papadi-1] Christos Papadimitriou (1994). "2.4. Linear speedup". Computational Complexity. Addison-Wesley.

[sudkamp-2] Thomas A. Sudkamp (1994). "14.2 Linear Speedup". Languages and Machines: An Introduction to the Theory of Computer Science. Addison-Wesley.

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