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Proper complexity function

From Wikipedia, the free encyclopedia

A proper complexity function is a function f mapping a natural number to a natural number such that:

  • f is nondecreasing;
  • there exists a k-string Turing machine M such that on any input of length n, M halts after O(n + f(n)) steps, uses O(f(n)) space, and outputs f(n) consecutive blanks.

If f and g are two proper complexity functions, then f + g, fg, and 2f are also proper complexity functions.

Similar notions include honest functions, space-constructible functions, and time-constructible functions.

References

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Myashnikov, Alexei; Shpilrain, Vladimir; Ushakov, Vladimir (2008). Group-based Cryptography. Birkhauser. p. 28. ISBN 978-3-7643-8826-3.