Parity

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Definition

The [math]n[/math]-variable parity function is the Boolean function [math]f:\{-1,1\}^n\to\{-1,1\}[/math] such that [math]f(x)=1[/math] if and only if the number of ones in the vector [math]x\in\{-1,1\}^n[/math] is odd. In other words,

[math]f(x)=x_1 \cdot x_2 \cdot \ldots \cdot x_n[/math].

Properties

  • Parity only depends on the number of ones and is therefore a symmetric Boolean function.
  • Over [math]\{-1,1\}[/math], the representation of the parity function is exactly the monomial [math]x_1 x_2 \ldots x_n[/math]. Thus all of its Fourier mass rests on the highest level.
  • The n-variable parity function and its negation are the only Boolean functions for which all disjunctive normal forms have the maximal number of 2 n − 1 monomials of length n and all conjunctive normal forms have the maximal number of 2 n − 1 clauses of length n. [1]
  • A constant-depth Boolean circuit must have exponential size in order to represent the parity function. [2]


References

  1. Ingo Wegener, Randall J. Pruim, Complexity Theory, 2005, Template:Isbn, p. 260
  2. Johan Håstad, Computational limitations of small depth circuits, 1987.