Stochastic material heterogeneity modeled with Gaussian random fields in a nonlocal framework fundamentally changes phase nucleation, localization, and macroscopic mechanical response in architected metamaterials.
Flexible mechanical metamaterials
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Physical neural computing platforms using diverse materials offer complementary strengths for efficient on-device AI, with no single substrate excelling in all dimensions.
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Influence of Heterogeneity on the Response of Architected Metamaterials
Stochastic material heterogeneity modeled with Gaussian random fields in a nonlocal framework fundamentally changes phase nucleation, localization, and macroscopic mechanical response in architected metamaterials.
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Beyond Silicon: Materials, Mechanisms, and Methods for Physical Neural Computing
Physical neural computing platforms using diverse materials offer complementary strengths for efficient on-device AI, with no single substrate excelling in all dimensions.