12 A Implementation details Training details.The active configuration uses L= 3 (comprising four levels, including l= 0 ); latent dimension 128; positional-encoding dimension 30

NVIDIA GPU Technology Conference (GTC) · 2002

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PhySPRING: Structure-Preserving Reduction of Physics-Informed Twins via GNN

cs.RO · 2026-05-08 · unverdicted · novelty 7.0

PhySPRING uses differentiable GNNs to learn hierarchical coarsened spring-mass topologies and parameters from observations, delivering up to 2.3x speedup on PhysTwin benchmarks and comparable robot policy success rates in zero-shot Real2Sim substitution.

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PhySPRING: Structure-Preserving Reduction of Physics-Informed Twins via GNN cs.RO · 2026-05-08 · unverdicted · none · ref 55
PhySPRING uses differentiable GNNs to learn hierarchical coarsened spring-mass topologies and parameters from observations, delivering up to 2.3x speedup on PhysTwin benchmarks and comparable robot policy success rates in zero-shot Real2Sim substitution.

12 A Implementation details Training details.The active configuration uses L= 3 (comprising four levels, including l= 0 ); latent dimension 128; positional-encoding dimension 30

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