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Line 1: '''Geometric Complexity Theory''', often ~~referred~~shortened to as '''GCT''', is a research program in [[computational complexity theory]] proposed by [[Ketan Mulmuley]]. The goal of the program is to answer the most famous open problem in computer science [[P vs. NP]] by showing that the complexity class [[P (complexity) \| P]] is not equal to the complexity class [[NP (complexity) \| NP]]. The basic idea behind the approach is to adopt and develop advanced tools in [[algebraic geometry]] and [[representation theory]] to prove lower-bounds for problems. Currently the main focus of the program is on [[Arithmetic circuit complexity#Algebraic P and NP \| algebraic complexity]] classes. Proving that [[Permanant]] cannot be efficiently reduced to [[Determinant]] is considered to be a major milestone for the program. These computational problems can be characterized by their [[symmetry (mathematics) \| symmetries]]. The program aims at utilizing these symmetries for proving lower-bounds.

Geometric complexity theory: Difference between revisions