Yaim Cooper scite author profile

Yaim Cooper

5Publications

119Citation Statements Received

161Citation Statements Given

How they've been cited

117

How they cite others

156

Affiliations

Princeton University, Massachusetts Institute of Technology

Publications

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Mirror symmetry for stable quotients invariants

Cooper¹,

Zinger²

2014

Michigan Math. J.

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The moduli space of stable quotients introduced by Marian-Oprea-Pandharipande provides a natural compactification of the space of morphisms from nonsingular curves to a nonsingular projective variety and carries a natural virtual class. We show that the analogue of Givental's J-function for the resulting twisted projective invariants is described by the same mirror hypergeometric series as the corresponding Gromov-Witten invariants (which arise from the moduli space of stable maps), but without the mirror transform (in the Calabi-Yau case). This implies that the stable quotients and Gromov-Witten twisted invariants agree if there is enough "positivity", but not in all cases. As a corollary of the proof, we show that certain twisted Hurwitz numbers arising in the stable quotients theory are also described by a fundamental object associated with this hypergeometric series. We thus completely answer some of the questions posed by Marian-Oprea-Pandharipande concerning their invariants. Our results suggest a deep connection between the stable quotients invariants of complete intersections and the geometry of the mirror families. As in Gromov-Witten theory, computing Givental's J-function (essentially a generating function for genus 0 invariants with 1 marked point) is key to computing stable quotients invariants of higher genus and with more marked points; we exploit this in forthcoming papers.

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The loss landscape of overparameterized neural networks

Cooper¹

2018

Preprint

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We explore some mathematical features of the loss landscape of overparameterized neural networks. A priori one might imagine that the loss function looks like a typical function from R n to R -in particular, nonconvex, with discrete global minima. In this paper, we prove that in at least one important way, the loss function of an overparameterized neural network does not look like a typical function. If a neural net has n parameters and is trained on d data points, with n > d, we show that the locus M of global minima of L is usually not discrete, but rather an n − d dimensional submanifold of R n . In practice, neural nets commonly have orders of magnitude more parameters than data points, so this observation implies that M is typically a very high-dimensional subset of R n .

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A Fock space approach to Severi degrees

Cooper

Pandharipande

2017

Proc. London Math. Soc.

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The classical Severi degree counts the number of algebraic curves of fixed genus and class passing through points in a surface. We express the Severi degrees of CP1 x CP1 as matrix elements of the exponential of a single operator M on Fock space. The formalism puts Severi degrees on a similar footing as the more developed study of Hurwitz numbers of coverings of curves. The pure genus 1 invariants of the product E x CP1 (with E an elliptic curve) are solved via an exact formula for the eigenvalues of M to initial order. The Severi degrees of CP2 are also determined by M via the (-1)^(d-1)/d^2 disk multiple cover formula for Calabi-Yau 3-fold geometries.Comment: 20 pages, 6 figures. Revised in response to referee comments. To appear in Proceedings of the London Mathematical Societ

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Global Minima of Overparameterized Neural Networks

Cooper¹

2021

SIAM Journal on Mathematics of Data Science

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Mirror Symmetry for Stable Quotients Invariants

Cooper¹,

Zinger²

2012

Preprint

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Yaim Cooper

Mirror symmetry for stable quotients invariants

The loss landscape of overparameterized neural networks

A Fock space approach to Severi degrees

Global Minima of Overparameterized Neural Networks

Mirror Symmetry for Stable Quotients Invariants

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