The p-Gaussian-Grothendieck problem with vector spins

Abstract

We study the vector spin generalization of the p-Gaussian-Grothendieck problem. In other words, given integer ≥ 1, we investigate the asymptotic behaviour of the ground state energy associated with the Sherrington-Kirkpatrick Hamiltonian indexed by vector spin configurations in the unit p-ball. The ranges 1≤ p≤ 2 and 2<p<∞ exhibit significantly different behaviours. When 1≤ p≤ 2, the vector spin generalization of the p-Gaussian-Grothendieck problem agrees with its scalar counterpart. In particular, its re-scaled limit is proportional to some norm of a standard Gaussian random variable. On the other hand, for 2<p<∞ the re-scaled limit of the p-Gaussian-Grothendieck problem with vector spins is given by a Parisi-type variational formula.

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