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qp_plugins_scemama/devel/svdwf/R3SVD_AMMAR.py

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2021-04-08 16:31:31 +02:00
# !!!
import numpy as np
from QR import QR_fact
from RSVD import powit_RSVD
# !!!
def R3SVD_AMMAR(A, t, delta_t, npow, nb_oversamp, err_thr, maxit, tol):
# !!!
# build initial QB decomposition
# !!!
n = A.shape[1]
G = np.random.randn(n, t)
normA = np.linalg.norm(A, ord='fro')**2
i_it = 0
rank = 0
Y = np.dot(A,G)
# The power scheme
for j in range(npow):
Q = QR_fact(Y)
Q = QR_fact( np.dot(A.T,Q) )
Y = np.dot(A,Q)
# orthogonalization process
Q_old = QR_fact(Y)
B = np.dot(Q_old.T,A)
normB = np.linalg.norm(B, ord='fro')**2
# error percentage
errpr = abs( normA - normB ) / normA
rank += t
i_it += 1
print("iteration = {}, rank = {}, error = {}".format(i_it, rank, errpr))
# !!!
# incrementally build up QB decomposition
# !!!
while ( (errpr>err_thr) and (i_it<maxit) and (rank<=min(A.shape)-delta_t) ): #
G = np.random.randn(n, delta_t)
Y = np.dot(A,G)
#Y = Y - np.dot(Q_old, np.dot(Q_old.T,Y) ) # orthogonalization with Q
# power scheme
for j in range(npow):
Q = QR_fact(Y)
Q = QR_fact( np.dot(A.T,Q) )
Y = np.dot(A,Q)
Y = Y - np.dot(Q_old, np.dot(Q_old.T,Y) ) # orthogonalization with Q
Q_new = QR_fact(Y)
B_new = np.dot(Q_new.T,A)
# build up approximate basis
Q_old = np.append(Q_new, Q_old, axis=1)
#B = np.append(B_new, B, axis=0)
normB += np.linalg.norm(B_new, ord='fro')**2
errpr = abs( normA - normB ) / normA
rank += delta_t
i_it += 1
print("iteration = {}, rank = {}, error = {}".format(i_it, rank, errpr))
# !!!
#UL, SL, VLT = np.linalg.svd(B, full_matrices=0)
#UL = np.dot(Q_old,UL)
# !!!
print("iteration = {}, rank = {}, error = {}".format(i_it, rank, errpr))
UL, SL, VLT = powit_RSVD(A, rank, npow, nb_oversamp)
#return UL, SL, VLT
# !!!
rank = SL.shape[0]
new_r = rank
for i in range(rank):
if( SL[i] <= tol ):
new_r = i
break
return UL[:,:(new_r)], SL[:(new_r)], VLT[:(new_r),:]
# !!!