Big O notation: Difference between revisions

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The '''big O notation''' is a mathematical notation to express various bounds concerning asymptotic behaviour of functions. It is often used in particular applications in [[physics]], [[computer science]], [[engineering]] and other [[applied sciences]]. For example, a typical context use in computer science is to express the [[complexity of algorithms]].  
The '''big O notation''' is a mathematical notation to express various bounds concerning asymptotic behaviour of functions. It is often used in particular applications in [[physics]], [[computer science]], [[engineering]] and other [[applied sciences]]. For example, a typical context use in computer science is to express the [[complexity of algorithms]].  


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[[Little o notation]]
[[Little o notation]]
[[Category:Mathematics Workgroup]]
[[Category:Computers Workgroup]]
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The big O notation is a mathematical notation to express various bounds concerning asymptotic behaviour of functions. It is often used in particular applications in physics, computer science, engineering and other applied sciences. For example, a typical context use in computer science is to express the complexity of algorithms.

More formally, if f (respectively, ) and g (respectively, ) are real valued functions of the real numbers (respectively, sequences) then the notation (respectively, ) denotes that there exist a positive real number (respectively, integer) T and a positive constant C such that for all (respectively, for all n>T).

The big O notation is also often used to indicate that the absolute value of a real valued function around some neighbourhood of a point is upper bounded by a constant multiple of the absolute value of another function, in that neigbourhood. For example, for a real number the notation , where g(t) is a function which is continuous at t=0 with g(0)=0, denotes that there exists a real positive constant C such that on some neighbourhood N of .

See also

Little o notation