Add to ORKGCombining the time-dependent variational principle (TDVP) algorithm with the parallelization scheme introduced by Stoudenmire and White for the density matrix renormalization group (DMRG), we present the first parallel matrix product state (MPS) algorithm capable of time evolving one-dimensional (1D) quantum lattice systems with long-range interactions. We benchmark the accuracy and performance of the algorithm by simulating quenches in the long-range Ising and XY models. We show that our code scales well up to 32 processes, with parallel efficiencies as high as 86%. Finally, we calculate the dynamical correlation function of a 201-site Heisenberg XXX spin chain with 1/r2 interactions, which is challenging to compute sequentially. These res...
We introduce a method based on matrix product states (MPS) for computing spectral functions of (quas...
Matrix-product states have become the de facto standard for the representation of one-dimensional qu...
We introduce a numerical algorithm to simulate the time evolution of a matrix product state under a ...
We study one dimensional models of diatomic molecules where both the electrons and nuclei are treate...
We study one dimensional models of diatomic molecules where both the electrons and nuclei are treate...
We combine the density matrix renormalization group (DMRG) with matrix product state tangent space c...
We combine the density matrix renormalization group (DMRG) with matrix product state tangent space c...
We combine the density matrix renormalization group (DMRG) with matrix product state tangent space c...
We combine the density matrix renormalization group (DMRG) with matrix product state tangent space c...
We develop a new algorithm based on the time-dependent variational principle applied to matrix produ...
We develop a new algorithm based on the time-dependent variational principle applied to matrix produ...
We combine the density matrix renormalization group (DMRG) with matrix product state tangent space c...
We develop a new algorithm based on the time-dependent variational principle applied to matrix produ...
We show that the time-dependent variational principle provides a unifying framework for time-evoluti...
We show that the time-dependent variational principle provides a unifying framework for time-evoluti...
We introduce a method based on matrix product states (MPS) for computing spectral functions of (quas...
Matrix-product states have become the de facto standard for the representation of one-dimensional qu...
We introduce a numerical algorithm to simulate the time evolution of a matrix product state under a ...
We study one dimensional models of diatomic molecules where both the electrons and nuclei are treate...
We study one dimensional models of diatomic molecules where both the electrons and nuclei are treate...
We combine the density matrix renormalization group (DMRG) with matrix product state tangent space c...
We combine the density matrix renormalization group (DMRG) with matrix product state tangent space c...
We combine the density matrix renormalization group (DMRG) with matrix product state tangent space c...
We combine the density matrix renormalization group (DMRG) with matrix product state tangent space c...
We develop a new algorithm based on the time-dependent variational principle applied to matrix produ...
We develop a new algorithm based on the time-dependent variational principle applied to matrix produ...
We combine the density matrix renormalization group (DMRG) with matrix product state tangent space c...
We develop a new algorithm based on the time-dependent variational principle applied to matrix produ...
We show that the time-dependent variational principle provides a unifying framework for time-evoluti...
We show that the time-dependent variational principle provides a unifying framework for time-evoluti...
We introduce a method based on matrix product states (MPS) for computing spectral functions of (quas...
Matrix-product states have become the de facto standard for the representation of one-dimensional qu...
We introduce a numerical algorithm to simulate the time evolution of a matrix product state under a ...
