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Paper detail

Quantum perturbation theory using Tensor cores and a deep neural network

Time-independent quantum response calculations are performed using Tensor cores. This is achieved by mapping density matrix perturbation theory onto the computational structure of a deep neural network. The main computational cost of each deep layer is dominated by tensor contractions, i.e. dense matrix-matrix multiplications, in mixed precision arithmetics which achieves close to peak performance. Quantum response calculations are demonstrated and analyzed using self-consistent charge density-functional tight-binding theory as well as coupled-perturbed Hartree-Fock theory. For linear response calculations, a novel parameter-free convergence criterion is presented that is well-suited for numerically noisy low precision floating point operations and we demonstrate a peak performance of almost 200 Tflops using the Tensor cores of two Nvidia A100 GPUs.

preprint2022arXivOpen access
Joshua FinkelsteinEmanuel H. RubenssonSusan M. MniszewskiChristian F. A. NegreAnders M. N. Niklasson
physics.comp-phquant-ph
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Joshua FinkelsteinEmanuel H. RubenssonSusan M. MniszewskiChristian F. A. NegreAnders M. N. Niklasson

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