Tal Kachman scite author profile

Tal Kachman

2Publications

94Citation Statements Received

80Citation Statements Given

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Affiliations

IBM Research - Haifa, Technion – Israel Institute of Technology, Living Systems (United States)

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Self-Organized Resonance during Search of a Diverse Chemical Space

2017

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Recent studies of active matter have stimulated interest in the driven self-assembly of complex structures. Phenomenological modeling of particular examples has yielded insight, but general thermodynamic principles unifying the rich diversity of behaviors observed have been elusive. Here, we study the stochastic search of a toy chemical space by a collection of reacting Brownian particles subject to periodic forcing. We observe the emergence of an adaptive resonance in the system matched to the drive frequency, and show that the increased work absorption by these resonant structures is key to their stabilization. Our findings are consistent with a recently proposed thermodynamic mechanism for far-from-equilibrium self-organization.

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Gotta Go Fast When Generating Data with Score-Based Models

Jolicoeur-Martineau¹,

Li²,

Piché-Taillefer³

et al. 2021

Preprint

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Score-based (denoising diffusion) generative models have recently gained a lot of success in generating realistic and diverse data. These approaches define a forward diffusion process for transforming data to noise and generate data by reversing it (thereby going from noise to data). Unfortunately, current score-based models generate data very slowly due to the sheer number of score network evaluations required by numerical SDE solvers. In this work, we aim to accelerate this process by devising a more efficient SDE solver. Existing approaches rely on the Euler-Maruyama (EM) solver, which uses a fixed step size. We found that naively replacing it with other SDE solvers fares poorly -they either result in low-quality samples or become slower than EM. To get around this issue, we carefully devise an SDE solver with adaptive step sizes tailored to score-based generative models piece by piece. Our solver requires only two score function evaluations, rarely rejects samples, and leads to high-quality samples. Our approach generates data 2 to 10 times faster than EM while achieving better or equal sample quality. For high-resolution images, our method leads to significantly higher quality samples than all other methods tested. Our SDE solver has the benefit of requiring no step size tuning. Code is available on https://github.com/AlexiaJM/score_sde_fast_sampling. † Equal contribution Preprint. Under review.

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Tal Kachman

Self-Organized Resonance during Search of a Diverse Chemical Space

Gotta Go Fast When Generating Data with Score-Based Models

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