Brings GPU-accelerated quantum mechanics into Claude through the Schrödinger equation solver and wavefunction tools. You get twelve operations for creating Gaussian wavepacks, evolving quantum states over time, applying potentials like barriers and harmonic wells, and analyzing interference patterns. Built on PyTorch with automatic CUDA detection for 60x speedups on large grids. The demos show double-slit interference and Bragg scattering from crystal lattices, both computed by solving the time-dependent Schrödinger equation. Part of a four-server scientific computing suite that shares data via URIs, so you can pipe quantum simulation results into the neural network trainer or molecular dynamics tools. Install with uvx scicomp-quantum-mcp and point it at problems where you need real wave mechanics, not approximations.
claude mcp add --transport stdio io.github.andylbrummer-quantum-mcp -- uvx scicomp-quantum-mcp