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We study how permutation symmetries in overparameterized multi-layer neural networks generate `symmetry-induced' critical points. Assuming a network with layers of minimal widths reaches a zero-loss minimum at isolated points that are permutations of one another, we show that adding one extra neuron to each layer is sufficient to connect all these previously discrete minima into a single manifold. For a two-layer overparameterized network of width we explicitly describe the manifold of global minima: it consists of affine subspaces of dimension at least that are connected to one another. For a network of width , we identify the number of affine subspaces containing only symmetry-induced critical points that are related to the critical points of a smaller network of width r<r^*. Via a combinatorial analysis, we derive closed-form formulas for and and show that the number of symmetry-induced critical subspaces dominates the number of affine subspaces forming the global minima manifold in the mildly overparameterized regime (small ) and vice versa in the vastly overparameterized regime (). Our results provide new insights into the minimization of the non-convex loss function of overparameterized neural networks.
Enrico Amico, Antonella Romano, Emahnuel Troisi Lopez
Emanuele Mingione, Diego Alberici