Our paper "Physics-inspired Transformer Quantum States via Latent Imaginary-Time Evolution" (first author: Kimihiro Yamazaki, a Ph.D. candidate in our lab at UOsaka / Fujitsu Ltd.) has been accepted for publication in Physical Review Research @PhysRevResearch (arXiv:2602.03031 https://t.co/ImuxCA4TyL). We reinterpret Transformer-based neural quantum states as latent imaginary-time evolution, leading to physics-inspired transformer quantum states: a physically transparent, systematic, and compact architecture for variational quantum-state representations.
Excited to share cuTile Rust: bringing Rust's fearless concurrency to GPU kernel programming. Our paper "Fearless Concurrency on the GPU" is now on arXiv.
For me the best part is how fast you can iterate: high-performance CUDA kernels developed directly in Rust.
Huge thanks to my co-authors Melih Elibol, Jared Roesch, Isaac Gelado, and Michael Garland on this project.