from triqs.gf import * from h5 import * from triqs_maxent import * filename = 'nio' ar = HDFArchive(filename+'.h5','a') if 'iteration_count' in ar['DMFT_results']: iteration_offset = ar['DMFT_results']['iteration_count']+1 G_latt = ar['DMFT_results']['Iterations']['G_latt_orb_it'+str(iteration_offset-1)] tm = TauMaxEnt(cost_function='bryan', probability='normal') print((G_latt['up'][0,0])) t2g_orbs = [0,1,3] eg_orbs = [2,4] op_orbs = [5,6,7] orbs = [t2g_orbs, eg_orbs, op_orbs] #orbs = [t2g_orbs] for orb in orbs: print('\n'+str(orb[0])+'\n') gf = 0*G_latt['up'][0,0] for iO in orb: gf = gf + G_latt['up'][iO,iO] tm.set_G_iw(gf) tm.omega =LinearOmegaMesh(w_min=-20, w_max=20, n_points=201) tm.alpha_mesh = LogAlphaMesh(alpha_min=0.01, alpha_max=20000, n_points=60) tm.set_error(1.e-3) result=tm.run() result.get_A_out('LineFitAnalyzer') if 'iteration_count' in ar['DMFT_results']: iteration_offset = ar['DMFT_results']['iteration_count']+1 for oo in orb: ar['DMFT_results']['Iterations']['G_latt_orb_w_o'+str(oo)+'_it'+str(iteration_offset-1)] = result.analyzer_results['LineFitAnalyzer']['A_out'] ar['DMFT_results']['Iterations']['w_it'+str(iteration_offset-1)] = result.omega # you may be interested in the details of the line analyzer: # from triqs.plot.mpl_interface import oplot #plt.figure(2) #result.analyzer_results['LineFitAnalyzer'].plot_linefit() #plt.savefig('ana'+str(orb[0])+'.pdf',fmt='pdf') del ar