Difference between revisions of "Quantum computation"
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Quantum computation could be useful for difficult optimization problems with search spaces of super astronomical size. E.g.: | Quantum computation could be useful for difficult optimization problems with search spaces of super astronomical size. E.g.: | ||
* Finding optimal arrangements of atoms in [[Kaehler bracket]]s | * Finding optimal arrangements of atoms in [[Kaehler bracket]]s | ||
| − | * Optimizing circurty routing of all the various subsystems of a [[gemstone metamaterial on-chip factories]]. | + | * Optimizing circurty routing of [[Subsystems of gem-gum factories|all the various subsystems]] of a [[gemstone metamaterial on-chip factories]]. |
| + | |||
| + | == Related == | ||
| + | |||
| + | * [[Reversible computation]] | ||
| + | * [[Purely functional programming]] | ||
| + | |||
| + | Optimization problems: | ||
| + | |||
| + | * [[Kaehler bracket]] | ||
| + | * Circuit routing for the various [[subsystems of gem-gum factories]] | ||
| + | |||
| + | [[Category:Programming]] | ||
Latest revision as of 10:39, 26 September 2021
Quantum computation is very much NOT a necessity for the functioning of future gemstone metamaterial on-chip factories.
Quantum computation could be useful for difficult optimization problems with search spaces of super astronomical size. E.g.:
- Finding optimal arrangements of atoms in Kaehler brackets
- Optimizing circurty routing of all the various subsystems of a gemstone metamaterial on-chip factories.
Related
Optimization problems:
- Kaehler bracket
- Circuit routing for the various subsystems of gem-gum factories
