Decrease algorithmic complexity

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Big O Notation
Big O Notation
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== References ==
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This best practices was recognized as such by IT professionals, described in [[Energy efficient software (Master Thesis)|''Energy efficient software'']].

Revision as of 13:54, 15 September 2010

Although different algorithms might accomplish functionally the same thing, their performance can differ significantly. The amount of messages that are sent and/or the amount of time spent computing can be from a different order of magnitude. The performance of an algorithm can be based on the nature of the algorithm or external factors, such as the data or computing nodes involved.

A trade-off can usually be made based on best-case, worst-case and average-case complexity relative to the situation at hand.

A common way to express algorithmic complexity is the big O notation.

Computational complexity theory is the field of theoretical computer science that focuses on algorithmic complexity.

Contents

Drawbacks

Proving that an algorithm is the most efficient solution possible is often difficult, if at all possible. Unfortunately this can mean that trying to improve an algorithm, or believe that an algorithm is optimized can be based on false assumptions.

Implementations

Cases

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See Also

The Green Framework

en.wikipedia.org/wiki/Computational_complexity_theory

Big O Notation

Sources

This best practices was recognized as such by IT professionals, described in Energy efficient software.

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