The content introduces the theory of generalized Bregman relative entropies over non-reflexive Banach spaces. By utilizing nonlinear embeddings and Euler-Legendre functions, two former approaches are unified. This construction extends Bregman relative entropies to state spaces in probability, quantum, and postquantum theory. The Norden-Sen geometry is defined on C3 manifolds with specific properties. The global geometric properties of D can be analyzed using torsion-free Norden-Sen differential geometry. Two approaches to constructing functional encoding are discussed: one based on Brègman's method and another based on Brunk-Ewing-Utz method. The passage from probabilistic to quantum setting involves replacing L1(X, µ) by the Banach predual N* of a W*-algebra N. A fundamental feature of DΨ is characterized as a nonlinear generalization of the Pythagorean theorem. The dually flat geometry is characterized by the flatness of connections and existence of specific coordinate systems. A generalization called Dℓ,Ψ applicable to non-reflexive Banach spaces is introduced by pulling back properties exhibited by DΨ with Euler-Legendre Ψ acting on reflexive Banach spaces into properties exhibited by Dℓ,Ψ.
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arxiv.org
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