qp_plugins_scemama/devel/svdwf/set_QP_svd.py

# !!!
import sys, os
#QMCCHEM_PATH=os.environ["QMCCHEM_PATH"]
#sys.path.insert(0,QMCCHEM_PATH+"/EZFIO/Python/")
# !!!
from ezfio import ezfio
from math import sqrt
from datetime import datetime
import time
import numpy as np
import subprocess
from scipy.linalg import eig, eigh
from RSVD import powit_RSVD


# ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~
def get_Hsvd_QP(Hsvd_qp_txt):
    Hsvd_qp      = np.zeros( (n_svd,n_svd) )
    Hsvd_qp_file = open(Hsvd_qp_txt, 'r')
    for line in Hsvd_qp_file:
        line         = line.split()
        i            = int(line[0]) - 1
        j            = int(line[1]) - 1
        Hsvd_qp[i,j] = float(line[2])
    return(Hsvd_qp)
# ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~


# ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~
def get_Hpostsvd_QP(Hpostsvd_qp_txt):
    Hpostsvd_qp      = np.zeros( (n_svd*n_svd,n_svd*n_svd) )
    Hpostsvd_qp_file = open(Hpostsvd_qp_txt, 'r')
    for line in Hpostsvd_qp_file:
        line             = line.split()
        i                = int(line[0]) - 1
        j                = int(line[1]) - 1
        Hpostsvd_qp[i,j] = float(line[2])
    return(Hpostsvd_qp)
# ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~


# ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~
def get_Esvd_QP(Hsvd_qp):
    # symmetrise and diagonalise
    aa = Hsvd_qp
    aa = 0.5*( aa + aa.T )
    bb = np.identity(n_svd)
    #eigvals_svd, vr = eig(aa, bb, left=False, right=True, overwrite_a=True, overwrite_b=True,
    eigvals_svd, vr = eig(aa, left=False, right=True, overwrite_a=True, overwrite_b=True,
            check_finite=True, homogeneous_eigvals=False)
    recouvre_svd = np.abs(psi_svd_coeff @ vr)
    ind_gssvd = np.argmax(recouvre_svd)
    E_svd = eigvals_svd[ind_gssvd] + E_toadd
    return( E_svd, vr[:,ind_gssvd] )
# ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~


# ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~
def get_Epostsvd_QP(Hpostsvd_qp):
    # symmetrise and diagonalise
    aa = Hpostsvd_qp
    aa = 0.5*( aa + aa.T )
    bb = np.identity(n_svd*n_svd)
    eigvals_postsvd, vr = eig(aa, bb, left=False, right=True, overwrite_a=True, overwrite_b=True,
            check_finite=True, homogeneous_eigvals=False)
    d_postsvd = np.diagflat(psi_svd_coeff)
    d_postsvd = d_postsvd.reshape( (1,n_svd*n_svd) )
    recouvre_postsvd = np.abs(d_postsvd @ vr)
    ind_gspostsvd = np.argmax(recouvre_postsvd)
    # !!!
    E_postsvd = eigvals_postsvd[ind_gspostsvd] + E_toadd
    # !!!
    return( E_postsvd,  vr[:,ind_gspostsvd] )
# ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~


# ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~
def SVD_postsvd(sigma_postsvd):
    # !!!
    print(' performing new SVD for the post SVD eigenvector:' )
    # !!!
    sigma_postsvd_mat = np.zeros( (n_svd,n_svd) )
    for indc in range(1, n_svd**2+1):
        if( ( indc % n_svd ) !=0 ):
            kp = indc % n_svd
        else:
            kp = n_svd
        indc1 = int( ( indc - kp ) / n_svd )
        k     = indc1 % n_svd + 1
        irow  = kp + (k-1)*n_svd - 1
        sigma_postsvd_mat[kp-1][k-1] = sigma_postsvd[irow]
    sigma_postsvd = sigma_postsvd_mat
    print(sigma_postsvd[0:n_svd,0:n_svd])
    # !!!
    # construct the new matrix Y
    Y     = np.dot( U_svd , np.dot(sigma_postsvd , V_svd.T) )
    normY = np.linalg.norm(Y, ord='fro')
    # !!!
    # parameters of RSVD
    rank        = n_svd
    npow        = 10
    nb_oversamp = 10
    # !!!
    # call RSV
    U_postSVD, sigma_postsvd_diag, VT_postsvd = powit_RSVD(Y, rank, npow, nb_oversamp)
    # !!!
    # check precision
    Y_SVD = np.dot( U_postSVD , np.dot( np.diag(sigma_postsvd_diag) , VT_postsvd ) )
    energy = np.sum( np.square(sigma_postsvd_diag) ) / normY**2
    err_SVD = 100. * np.linalg.norm( Y - Y_SVD, ord="fro") / normY
    print(' energy = {}, error = {}\n'.format(energy, err_SVD))
    # !!!
    return(U_postSVD, sigma_postsvd_diag, VT_postsvd)
    # !!!
# ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~


if __name__ == '__main__':
    t0 = time.time()
    # !!!
    # ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ #
    EZFIO_file      = "/home/aammar/qp2/src/svdwf/2h2_cisd_nsvd20"
    Hsvd_qp_txt     = 'H_QP_svd_2h2_nsvd20.txt'
    Hpostsvd_qp_txt = 'H_QP_postsvd_2h2_nsvd20.txt'
    # h2o
    #E_toadd         =  9.194966082434476 #6.983610961797779
    # 2h2
    E_toadd         =  1.711353545183182
    # f2
    #E_toadd         =  30.35863309325590
    # ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ #
    # !!!
    ezfio.set_file(EZFIO_file)
    n_svd         = ezfio.get_spindeterminants_n_svd_coefs()
    psi_svd_coeff = np.array(ezfio.get_spindeterminants_psi_svd_coefs())
    U_svd         = np.array(ezfio.get_spindeterminants_psi_svd_alpha())
    V_svd         = np.array(ezfio.get_spindeterminants_psi_svd_beta())
    # !!!
    U_svd = U_svd[0,:,:].T
    V_svd = V_svd[0,:,:].T
    # !!!
    print(" Today's date:", datetime.now() )
    print(" EZFIO file = {}".format(EZFIO_file))
    print(" n_svd = {}\n".format(n_svd) )
    # !!!
    print(' initial svd coeff = {}\n'.format(psi_svd_coeff))
    C_old   = np.dot( U_svd , np.dot( np.diagflat(psi_svd_coeff) , V_svd.T ) )
    norm_C  = np.linalg.norm(C_old, ord="fro")
    # !!!
    read_QPsvd = 'y'
    if( read_QPsvd == 'y' ):
        Hsvd_qp      = get_Hsvd_QP(Hsvd_qp_txt)
        E_svd_QP, sigma_svd_QP = get_Esvd_QP(Hsvd_qp)
        print(' QP svd enegry = {}'.format(E_svd_QP) )
        sigma_svd_QP = sigma_svd_QP * np.sign(sigma_svd_QP[0])
        print(' QP svd coeff  = {}\n'.format(sigma_svd_QP))
        # compare C_new and C_old
        C_new   = np.dot( U_svd , np.dot( np.diagflat(sigma_svd_QP) , V_svd.T ) )
        delta_C = 100. * np.linalg.norm(C_old-C_new, ord="fro") / norm_C
        print(' Difference between C_old and C_new svd = {} %\n'.format(delta_C))
        # !!!
    read_QPpostsvd = 'y'
    if( read_QPpostsvd == 'y' ):
        Hpostsvd_qp      = get_Hpostsvd_QP(Hpostsvd_qp_txt)
        E_postsvd_QP, sigma_postsvd_QP = get_Epostsvd_QP(Hpostsvd_qp)
        print(' QP postsvd enegry = {}'.format(E_postsvd_QP) )
        U_postSVD, sigma_postsvd_diag, Vt_postSVD = SVD_postsvd(sigma_postsvd_QP)
        V_postSVD                                 = Vt_postSVD.T
        print(' QP postsvd coeff  = {}\n'.format(sigma_postsvd_diag))
        # compare C_new and C_old
        C_new   = np.dot( U_postSVD , np.dot( np.diag(sigma_postsvd_diag) , Vt_postSVD ) )
        delta_C_m = 100. * np.linalg.norm(C_old-C_new, ord="fro") / norm_C
        delta_C_p = 100. * np.linalg.norm(C_old+C_new, ord="fro") / norm_C
        delta_C   = min(delta_C_m,delta_C_p)
        print(' Difference between C_old and C_new postsvd = {} %'.format(delta_C))
        # !!!
    # !!!
    # ___________________________________________________________________________
    # ___________________________________________________________________________
    # 
    save_to_EZFIO = ''
    #
    if( save_to_EZFIO == 'svd'):
        ezfio.set_spindeterminants_psi_svd_coefs( sigma_svd_QP )
        direc_svdcoeff = EZFIO_file + '/spindeterminants/psi_svd_coefs.gz'
        print(' {} is modified'.format(direc_svdcoeff) )
        # # #
    elif( save_to_EZFIO == 'postsvd' ):
        U_postSVD_toEZFIO        = np.zeros( ( 1, U_postSVD.shape[1], U_postSVD.shape[0] ) )
        V_postSVD_toEZFIO        = np.zeros( ( 1, V_postSVD.shape[1], V_postSVD.shape[0] ) )
        U_postSVD_toEZFIO[0,:,:] = U_postSVD.T
        V_postSVD_toEZFIO[0,:,:] = V_postSVD.T
        #
        ezfio.set_spindeterminants_psi_svd_alpha( U_postSVD_toEZFIO )
        ezfio.set_spindeterminants_psi_svd_coefs( sigma_postsvd_diag )
        ezfio.set_spindeterminants_psi_svd_beta( V_postSVD_toEZFIO )
        # 
        direc_svdcoeff = EZFIO_file + '/spindeterminants/psi_svd_coefs.gz'
        direc_svdalpha = EZFIO_file + '/spindeterminants/psi_svd_alpha.gz'
        direc_svdbeta  = EZFIO_file + '/spindeterminants/psi_svd_beta.gz'
        print(' {} is modified'.format(direc_svdcoeff) )
        print(' {} is modified'.format(direc_svdalpha) )
        print(' {} is modified'.format(direc_svdbeta ) )
    else:
        pass
    # ___________________________________________________________________________
    # ___________________________________________________________________________
    # 
    print("end after {:.3f} minutes".format((time.time()-t0)/60.) )
    # !!!
# !!!
svd save 2021-07-28 17:19:18 +02:00			`# !!!`
			`import sys, os`
			`#QMCCHEM_PATH=os.environ["QMCCHEM_PATH"]`
			`#sys.path.insert(0,QMCCHEM_PATH+"/EZFIO/Python/")`
			`# !!!`
			`from ezfio import ezfio`
			`from math import sqrt`
			`from datetime import datetime`
			`import time`
			`import numpy as np`
			`import subprocess`
			`from scipy.linalg import eig, eigh`
			`from RSVD import powit_RSVD`



			`# ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~`
			`def get_Hsvd_QP(Hsvd_qp_txt):`
			`Hsvd_qp = np.zeros( (n_svd,n_svd) )`
			`Hsvd_qp_file = open(Hsvd_qp_txt, 'r')`
			`for line in Hsvd_qp_file:`
			`line = line.split()`
			`i = int(line[0]) - 1`
			`j = int(line[1]) - 1`
			`Hsvd_qp[i,j] = float(line[2])`
			`return(Hsvd_qp)`
			`# ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~`





			`# ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~`
			`def get_Hpostsvd_QP(Hpostsvd_qp_txt):`
			`Hpostsvd_qp = np.zeros( (n_svdn_svd,n_svdn_svd) )`
			`Hpostsvd_qp_file = open(Hpostsvd_qp_txt, 'r')`
			`for line in Hpostsvd_qp_file:`
			`line = line.split()`
			`i = int(line[0]) - 1`
			`j = int(line[1]) - 1`
			`Hpostsvd_qp[i,j] = float(line[2])`
			`return(Hpostsvd_qp)`
			`# ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~`





			`# ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~`
			`def get_Esvd_QP(Hsvd_qp):`
			`# symmetrise and diagonalise`
			`aa = Hsvd_qp`
			`aa = 0.5*( aa + aa.T )`
			`bb = np.identity(n_svd)`
			`#eigvals_svd, vr = eig(aa, bb, left=False, right=True, overwrite_a=True, overwrite_b=True,`
			`eigvals_svd, vr = eig(aa, left=False, right=True, overwrite_a=True, overwrite_b=True,`
			`check_finite=True, homogeneous_eigvals=False)`
			`recouvre_svd = np.abs(psi_svd_coeff @ vr)`
			`ind_gssvd = np.argmax(recouvre_svd)`
			`E_svd = eigvals_svd[ind_gssvd] + E_toadd`
			`return( E_svd, vr[:,ind_gssvd] )`
			`# ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~`



			`# ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~`
			`def get_Epostsvd_QP(Hpostsvd_qp):`
			`# symmetrise and diagonalise`
			`aa = Hpostsvd_qp`
			`aa = 0.5*( aa + aa.T )`
			`bb = np.identity(n_svd*n_svd)`
			`eigvals_postsvd, vr = eig(aa, bb, left=False, right=True, overwrite_a=True, overwrite_b=True,`
			`check_finite=True, homogeneous_eigvals=False)`
			`d_postsvd = np.diagflat(psi_svd_coeff)`
			`d_postsvd = d_postsvd.reshape( (1,n_svd*n_svd) )`
			`recouvre_postsvd = np.abs(d_postsvd @ vr)`
			`ind_gspostsvd = np.argmax(recouvre_postsvd)`
			`# !!!`
			`E_postsvd = eigvals_postsvd[ind_gspostsvd] + E_toadd`
			`# !!!`
			`return( E_postsvd, vr[:,ind_gspostsvd] )`
			`# ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~`



			`# ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~`
			`def SVD_postsvd(sigma_postsvd):`
			`# !!!`
			`print(' performing new SVD for the post SVD eigenvector:' )`
			`# !!!`
			`sigma_postsvd_mat = np.zeros( (n_svd,n_svd) )`
			`for indc in range(1, n_svd**2+1):`
			`if( ( indc % n_svd ) !=0 ):`
			`kp = indc % n_svd`
			`else:`
			`kp = n_svd`
			`indc1 = int( ( indc - kp ) / n_svd )`
			`k = indc1 % n_svd + 1`
			`irow = kp + (k-1)*n_svd - 1`
			`sigma_postsvd_mat[kp-1][k-1] = sigma_postsvd[irow]`
			`sigma_postsvd = sigma_postsvd_mat`
			`print(sigma_postsvd[0:n_svd,0:n_svd])`
			`# !!!`
			`# construct the new matrix Y`
			`Y = np.dot( U_svd , np.dot(sigma_postsvd , V_svd.T) )`
			`normY = np.linalg.norm(Y, ord='fro')`
			`# !!!`
			`# parameters of RSVD`
			`rank = n_svd`
			`npow = 10`
			`nb_oversamp = 10`
			`# !!!`
			`# call RSV`
			`U_postSVD, sigma_postsvd_diag, VT_postsvd = powit_RSVD(Y, rank, npow, nb_oversamp)`
			`# !!!`
			`# check precision`
			`Y_SVD = np.dot( U_postSVD , np.dot( np.diag(sigma_postsvd_diag) , VT_postsvd ) )`
			`energy = np.sum( np.square(sigma_postsvd_diag) ) / normY**2`
			`err_SVD = 100. * np.linalg.norm( Y - Y_SVD, ord="fro") / normY`
			`print(' energy = {}, error = {}\n'.format(energy, err_SVD))`
			`# !!!`
			`return(U_postSVD, sigma_postsvd_diag, VT_postsvd)`
			`# !!!`
			`# ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~ ! ~`





			`if __name__ == '__main__':`
			`t0 = time.time()`
			`# !!!`
			`# ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ #`
			`EZFIO_file = "/home/aammar/qp2/src/svdwf/2h2_cisd_nsvd20"`
			`Hsvd_qp_txt = 'H_QP_svd_2h2_nsvd20.txt'`
			`Hpostsvd_qp_txt = 'H_QP_postsvd_2h2_nsvd20.txt'`
			`# h2o`
			`#E_toadd = 9.194966082434476 #6.983610961797779`
			`# 2h2`
			`E_toadd = 1.711353545183182`
			`# f2`
			`#E_toadd = 30.35863309325590`
			`# ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ #`
			`# !!!`
			`ezfio.set_file(EZFIO_file)`
			`n_svd = ezfio.get_spindeterminants_n_svd_coefs()`
			`psi_svd_coeff = np.array(ezfio.get_spindeterminants_psi_svd_coefs())`
			`U_svd = np.array(ezfio.get_spindeterminants_psi_svd_alpha())`
			`V_svd = np.array(ezfio.get_spindeterminants_psi_svd_beta())`
			`# !!!`
			`U_svd = U_svd[0,:,:].T`
			`V_svd = V_svd[0,:,:].T`
			`# !!!`
			`print(" Today's date:", datetime.now() )`
			`print(" EZFIO file = {}".format(EZFIO_file))`
			`print(" n_svd = {}\n".format(n_svd) )`
			`# !!!`
			`print(' initial svd coeff = {}\n'.format(psi_svd_coeff))`
			`C_old = np.dot( U_svd , np.dot( np.diagflat(psi_svd_coeff) , V_svd.T ) )`
			`norm_C = np.linalg.norm(C_old, ord="fro")`
			`# !!!`
			`read_QPsvd = 'y'`
			`if( read_QPsvd == 'y' ):`
			`Hsvd_qp = get_Hsvd_QP(Hsvd_qp_txt)`
			`E_svd_QP, sigma_svd_QP = get_Esvd_QP(Hsvd_qp)`
			`print(' QP svd enegry = {}'.format(E_svd_QP) )`
			`sigma_svd_QP = sigma_svd_QP * np.sign(sigma_svd_QP[0])`
			`print(' QP svd coeff = {}\n'.format(sigma_svd_QP))`
			`# compare C_new and C_old`
			`C_new = np.dot( U_svd , np.dot( np.diagflat(sigma_svd_QP) , V_svd.T ) )`
			`delta_C = 100. * np.linalg.norm(C_old-C_new, ord="fro") / norm_C`
			`print(' Difference between C_old and C_new svd = {} %\n'.format(delta_C))`
			`# !!!`
			`read_QPpostsvd = 'y'`
			`if( read_QPpostsvd == 'y' ):`
			`Hpostsvd_qp = get_Hpostsvd_QP(Hpostsvd_qp_txt)`
			`E_postsvd_QP, sigma_postsvd_QP = get_Epostsvd_QP(Hpostsvd_qp)`
			`print(' QP postsvd enegry = {}'.format(E_postsvd_QP) )`
			`U_postSVD, sigma_postsvd_diag, Vt_postSVD = SVD_postsvd(sigma_postsvd_QP)`
			`V_postSVD = Vt_postSVD.T`
			`print(' QP postsvd coeff = {}\n'.format(sigma_postsvd_diag))`
			`# compare C_new and C_old`
			`C_new = np.dot( U_postSVD , np.dot( np.diag(sigma_postsvd_diag) , Vt_postSVD ) )`
			`delta_C_m = 100. * np.linalg.norm(C_old-C_new, ord="fro") / norm_C`
			`delta_C_p = 100. * np.linalg.norm(C_old+C_new, ord="fro") / norm_C`
			`delta_C = min(delta_C_m,delta_C_p)`
			`print(' Difference between C_old and C_new postsvd = {} %'.format(delta_C))`
			`# !!!`
			`# !!!`
			`# ___________________________________________________________________________`
			`# ___________________________________________________________________________`
			`#`
			`save_to_EZFIO = ''`
			`#`
			`if( save_to_EZFIO == 'svd'):`
			`ezfio.set_spindeterminants_psi_svd_coefs( sigma_svd_QP )`
			`direc_svdcoeff = EZFIO_file + '/spindeterminants/psi_svd_coefs.gz'`
			`print(' {} is modified'.format(direc_svdcoeff) )`
			`# # #`
			`elif( save_to_EZFIO == 'postsvd' ):`
			`U_postSVD_toEZFIO = np.zeros( ( 1, U_postSVD.shape[1], U_postSVD.shape[0] ) )`
			`V_postSVD_toEZFIO = np.zeros( ( 1, V_postSVD.shape[1], V_postSVD.shape[0] ) )`
			`U_postSVD_toEZFIO[0,:,:] = U_postSVD.T`
			`V_postSVD_toEZFIO[0,:,:] = V_postSVD.T`
			`#`
			`ezfio.set_spindeterminants_psi_svd_alpha( U_postSVD_toEZFIO )`
			`ezfio.set_spindeterminants_psi_svd_coefs( sigma_postsvd_diag )`
			`ezfio.set_spindeterminants_psi_svd_beta( V_postSVD_toEZFIO )`
			`#`
			`direc_svdcoeff = EZFIO_file + '/spindeterminants/psi_svd_coefs.gz'`
			`direc_svdalpha = EZFIO_file + '/spindeterminants/psi_svd_alpha.gz'`
			`direc_svdbeta = EZFIO_file + '/spindeterminants/psi_svd_beta.gz'`
			`print(' {} is modified'.format(direc_svdcoeff) )`
			`print(' {} is modified'.format(direc_svdalpha) )`
			`print(' {} is modified'.format(direc_svdbeta ) )`
			`else:`
			`pass`
			`# ___________________________________________________________________________`
			`# ___________________________________________________________________________`
			`#`
			`print("end after {:.3f} minutes".format((time.time()-t0)/60.) )`
			`# !!!`
			`# !!!`