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Review compares methods for simulating fuzzy dark matter
Review of numerical simulation methods for fuzzy dark matter, examining wave-based and fluid-based algorithms for resolving ultralight boson dynamics on galactic scales.
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VSDM release supports dark matter scattering calculations
VSDM version 0.3 provides Julia and Python tools for computing dark matter scattering rates in anisotropic detector materials through partial rate matrix calculations.
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Python and Julia tools for dark matter detection calculations
New software implementations accelerate calculations for directional dark matter detection using anisotropic crystal targets, enabling faster signal-background discrimination.
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ICL Characterization of Climate Foundation Models: When Can Transformers Learn Weather and Climate?
Theoretical analysis explains why climate foundation models succeed at field prediction but fail at extreme event detection through in-context learning complexity.
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It’s about Time: Temporal Abstractions for Asynchronous GPU Tensor Computations
Framework for temporal abstractions that simplify coordination of asynchronous GPU tensor computations, reducing complexity and hardware-dependent errors in specialized concurrent execution.
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Communication settings can be translated in delegated quantum computing
Unified framework for delegated quantum computing shows that prepare-and-send and receive-and-measure protocols are interchangeable, removing fundamental constraints on distributed quantum computing.
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Accurate rovibrational levels for He2 a3Σu+ state match spectroscopy
High-precision rovibrational computations for He2 a 3Σu+ state incorporating relativistic, QED, and nonadiabatic corrections with sub-ppm potential energy curve accuracy.
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Liger+ dynamically balances latency and throughput in large model inference
Distributed inference system using interleaved parallelism to dynamically balance latency-throughput trade-offs via task-aware batch management and strategic kernel scheduling across multiple GPUs.
