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https://github.com/triqs/dft_tools
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added Hloc check in analyse_block_structure
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@ -715,16 +715,16 @@ class SumkDFT:
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# return only the inequivalent shells:
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# return only the inequivalent shells:
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return G_loc_inequiv
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return G_loc_inequiv
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def analyse_block_structure(self, threshold=0.00001, include_shells=None, dm=None):
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def analyse_block_structure(self, threshold=0.00001, include_shells=None, dm=None, hloc=None):
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r"""
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r"""
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Determines the block structure of local Green's functions by analysing the structure of
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Determines the block structure of local Green's functions by analysing the structure of
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the corresponding density matrices. The resulting block structures for correlated shells
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the corresponding density matrices and the local Hamiltonian. The resulting block structures
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are stored in self.gf_struct_solver list.
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for correlated shells are stored in self.gf_struct_solver list.
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Parameters
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Parameters
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----------
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----------
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threshold : real, optional
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threshold : real, optional
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If the difference between density matrix elements is below threshold,
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If the difference between density matrix / hloc elements is below threshold,
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they are considered to be equal.
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they are considered to be equal.
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include_shells : list of integers, optional
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include_shells : list of integers, optional
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List of correlated shells to be analysed.
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List of correlated shells to be analysed.
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@ -733,6 +733,10 @@ class SumkDFT:
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List of density matrices from which block stuctures are to be analysed.
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List of density matrices from which block stuctures are to be analysed.
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Each density matrix is a dict {block names: 2d numpy arrays}.
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Each density matrix is a dict {block names: 2d numpy arrays}.
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If not provided, dm will be calculated from the DFT Hamiltonian by a simple-point BZ integration.
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If not provided, dm will be calculated from the DFT Hamiltonian by a simple-point BZ integration.
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hloc : list of dict, optional
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List of local Hamiltonian matrices from which block stuctures are to be analysed
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Each Hamiltonian is a dict {block names: 2d numpy arrays}.
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If not provided, it will be calculated using eff_atomic_levels.
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"""
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"""
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self.gf_struct_solver = [{} for ish in range(self.n_inequiv_shells)]
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self.gf_struct_solver = [{} for ish in range(self.n_inequiv_shells)]
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@ -745,6 +749,10 @@ class SumkDFT:
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dm = self.density_matrix(method='using_point_integration')
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dm = self.density_matrix(method='using_point_integration')
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dens_mat = [dm[self.inequiv_to_corr[ish]]
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dens_mat = [dm[self.inequiv_to_corr[ish]]
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for ish in range(self.n_inequiv_shells)]
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for ish in range(self.n_inequiv_shells)]
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if hloc is None:
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hloc = self.eff_atomic_levels()
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H_loc = [hloc[self.inequiv_to_corr[ish]]
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for ish in range(self.n_inequiv_shells)]
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if include_shells is None:
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if include_shells is None:
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include_shells = range(self.n_inequiv_shells)
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include_shells = range(self.n_inequiv_shells)
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@ -754,13 +762,14 @@ class SumkDFT:
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n_orb = self.corr_shells[self.inequiv_to_corr[ish]]['dim']
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n_orb = self.corr_shells[self.inequiv_to_corr[ish]]['dim']
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# gives an index list of entries larger that threshold
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# gives an index list of entries larger that threshold
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dmbool = (abs(dens_mat[ish][sp]) > threshold)
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dmbool = (abs(dens_mat[ish][sp]) > threshold)
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hlocbool = (abs(H_loc[ish][sp]) > threshold)
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# Determine off-diagonal entries in upper triangular part of
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# Determine off-diagonal entries in upper triangular part of
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# density matrix
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# density matrix
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offdiag = Set([])
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offdiag = Set([])
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for i in range(n_orb):
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for i in range(n_orb):
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for j in range(i + 1, n_orb):
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for j in range(i + 1, n_orb):
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if dmbool[i, j]:
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if dmbool[i, j] or hlocbool[i, j]:
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offdiag.add((i, j))
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offdiag.add((i, j))
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# Determine the number of non-hybridising blocks in the gf
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# Determine the number of non-hybridising blocks in the gf
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