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option to save svd vectors 

Former-commit-id: 7d3583af518f9ba23638c0ec40e497867dba3db9
This commit is contained in:
Marek Nečada 2017-02-26 04:10:10 +02:00
parent add59b6635
commit 84773853c2
1 changed files with 62 additions and 7 deletions
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69
misc/dispersion-SVD.py
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@ -19,6 +19,8 @@ parser.add_argument('--griddir', action='store', required=True, help='Path to th
#sizepar = parser.add_mutually_exclusive_group(required=True) #sizepar = parser.add_mutually_exclusive_group(required=True)
parser.add_argument('--hexside', action='store', type=float, required=True, help='Lattice hexagon size length') parser.add_argument('--hexside', action='store', type=float, required=True, help='Lattice hexagon size length')
parser.add_argument('--output', action='store', help='Path to output PDF') parser.add_argument('--output', action='store', help='Path to output PDF')
parser.add_argument('--store_SVD', action='store_true', help='If specified without --SVD_output, it will save the data in a file named as the PDF output, but with .npz extension instead')
#parser.add_argument('--SVD_output', action='store', help='Path to output singular value decomposition result')
parser.add_argument('--nSV', action='store', metavar='N', type=int, default=1, help='Store and draw N minimun singular values') parser.add_argument('--nSV', action='store', metavar='N', type=int, default=1, help='Store and draw N minimun singular values')
parser.add_argument('--background_permittivity', action='store', type=float, default=1., help='Background medium relative permittivity (default 1)') parser.add_argument('--background_permittivity', action='store', type=float, default=1., help='Background medium relative permittivity (default 1)')
parser.add_argument('--sparse', action='store', type=int, help='Skip frequencies for preview') parser.add_argument('--sparse', action='store', type=int, help='Skip frequencies for preview')
@ -50,6 +52,14 @@ translations_dir = pargs.griddir
TMatrix_file = pargs.TMatrix TMatrix_file = pargs.TMatrix
pdfout = pargs.output if pargs.output else (''.join(random.choice(string.ascii_uppercase + string.digits) for _ in range(10)) + '.pdf') pdfout = pargs.output if pargs.output else (''.join(random.choice(string.ascii_uppercase + string.digits) for _ in range(10)) + '.pdf')
print(pdfout) print(pdfout)
if(pargs.store_SVD):
if re.search('.pdf$', pdfout):
svdout = re.sub('.pdf$', r'.npz', pdfout)
else:
svdout = pdfout + '.npz'
else:
svdout = None
hexside = pargs.hexside #375e-9 hexside = pargs.hexside #375e-9
epsilon_b = pargs.background_permittivity #2.3104 epsilon_b = pargs.background_permittivity #2.3104
@ -218,7 +228,7 @@ for op in ops:
l = int(scatl) l = int(scatl)
scaty += (l == ny) scaty += (l == ny)
for t in targets: for t in targets:
TMatrices[:,t,:,scaty,:,incy] *= float(op[2][2]) TMatrices[np.ix_(np.arange(TMatrices.shape[0]),np.array([t]),np.array([0,1]),scaty,np.array([0,1]),incy)] *= float(op[2][2])
else: else:
raise #unknown operation; should not happen raise #unknown operation; should not happen
@ -287,6 +297,14 @@ extlistlist = list()
leftmatrixlistlist = list() leftmatrixlistlist = list()
minsvTElistlist=list() minsvTElistlist=list()
minsvTMlistlist=list() minsvTMlistlist=list()
if svdout:
svUfullTElistlist = list()
svVfullTElistlist = list()
svSfullTElistlist = list()
svUfullTMlistlist = list()
svVfullTMlistlist = list()
svSfullTMlistlist = list()
nan = float('nan') nan = float('nan')
omegalist = list() omegalist = list()
filecount = 0 filecount = 0
@ -329,6 +347,14 @@ for trfile in os.scandir(translations_dir):
TMatrices_om = TMatrices_interp(omega) TMatrices_om = TMatrices_interp(omega)
if svdout:
svUfullTElist = np.full((klist.shape[0], 2*nelem, 2*nelem), np.nan, dtype=complex)
svVfullTElist = np.full((klist.shape[0], 2*nelem, 2*nelem), np.nan, dtype=complex)
svSfullTElist = np.full((klist.shape[0], 2*nelem), np.nan, dtype=complex)
svUfullTMlist = np.full((klist.shape[0], 2*nelem, 2*nelem), np.nan, dtype=complex)
svVfullTMlist = np.full((klist.shape[0], 2*nelem, 2*nelem), np.nan, dtype=complex)
svSfullTMlist = np.full((klist.shape[0], 2*nelem), np.nan, dtype=complex)
minsvTElist = np.full((klist.shape[0], svn),np.nan) minsvTElist = np.full((klist.shape[0], svn),np.nan)
minsvTMlist = np.full((klist.shape[0], svn),np.nan) minsvTMlist = np.full((klist.shape[0], svn),np.nan)
@ -383,6 +409,15 @@ for trfile in os.scandir(translations_dir):
#argsortlist = np.argsort(svarr, axis=-1)[...,:svn] #argsortlist = np.argsort(svarr, axis=-1)[...,:svn]
#minsvTElist[nnlist] = svarr[...,argsortlist] #minsvTElist[nnlist] = svarr[...,argsortlist]
#minsvTElist[nnlist] = np.amin(np.linalg.svd(leftmatrixlist_TE, compute_uv=False), axis=-1) #minsvTElist[nnlist] = np.amin(np.linalg.svd(leftmatrixlist_TE, compute_uv=False), axis=-1)
if svdout:
svUfullTElist[nnlist], svSfullTElist[nnlist], svVfullTElist[nnlist] = np.linalg.svd(leftmatrixlist_TE, compute_uv=True)
svUfullTMlist[nnlist], svSfullTMlist[nnlist], svVfullTMlist[nnlist] = np.linalg.svd(leftmatrixlist_TM, compute_uv=True)
svUfullTElistlist.append(svUfullTElist)
svVfullTElistlist.append(svVfullTElist)
svSfullTElistlist.append(svSfullTElist)
svUfullTMlistlist.append(svUfullTMlist)
svVfullTMlistlist.append(svVfullTMlist)
svSfullTMlistlist.append(svSfullTMlist)
minsvTElist[nnlist] = np.linalg.svd(leftmatrixlist_TE, compute_uv=False)[...,-svn:] minsvTElist[nnlist] = np.linalg.svd(leftmatrixlist_TE, compute_uv=False)[...,-svn:]
#svarr = np.linalg.svd(leftmatrixlist_TM, compute_uv=False) #svarr = np.linalg.svd(leftmatrixlist_TM, compute_uv=False)
#argsortlist = np.argsort(svarr, axis=-1)[...,:svn] #argsortlist = np.argsort(svarr, axis=-1)[...,:svn]
@ -392,20 +427,40 @@ for trfile in os.scandir(translations_dir):
minsvTMlistlist.append(minsvTMlist) minsvTMlistlist.append(minsvTMlist)
minsvTElistlist.append(minsvTElist) minsvTElistlist.append(minsvTElist)
# In[ ]:
minsvTElistarr = np.array(minsvTElistlist) minsvTElistarr = np.array(minsvTElistlist)
minsvTMlistarr = np.array(minsvTMlistlist) minsvTMlistarr = np.array(minsvTMlistlist)
del minsvTElistlist, minsvTMlistlist
if svdout:
svUfullTElistarr = np.array(svUfullTElistlist)
svVfullTElistarr = np.array(svVfullTElistlist)
svSfullTElistarr = np.array(svSfullTElistlist)
del svUfullTElistlist, svVfullTElistlist, svSfullTElistlist
svUfullTMlistarr = np.array(svUfullTMlistlist)
svVfullTMlistarr = np.array(svVfullTMlistlist)
svSfullTMlistarr = np.array(svSfullTMlistlist)
del svUfullTMlistlist, svVfullTMlistlist, svSfullTMlistlist
omegalist = np.array(omegalist) omegalist = np.array(omegalist)
# order to make the scatter plots "nice" # order to make the scatter plots "nice"
omegaorder = np.argsort(omegalist) omegaorder = np.argsort(omegalist)
omegalist = omegalist[omegaorder] omegalist = omegalist[omegaorder]
minsvTElistarr = minsvTElistarr[omegaorder] minsvTElistarr = minsvTElistarr[omegaorder]
minsvTMlistarr = minsvTMlistarr[omegaorder] minsvTMlistarr = minsvTMlistarr[omegaorder]
if svdout:
svUfullTElistarr = svUfullTElistarr[omegaorder]
svVfullTElistarr = svVfullTElistarr[omegaorder]
svSfullTElistarr = svSfullTElistarr[omegaorder]
svUfullTMlistarr = svUfullTMlistarr[omegaorder]
svVfullTMlistarr = svVfullTMlistarr[omegaorder]
svSfullTMlistarr = svSfullTMlistarr[omegaorder]
np.savez(svdout, omega = omegalist, klist = klist, bzpoints = np.array([bz_0, bz_K1, bz_K2, bz_M, B1, B2]),
uTE = svUfullTElistarr,
vTE = svVfullTElistarr,
sTE = svSfullTElistarr,
uTM = svUfullTMlistarr,
vTM = svVfullTMlistarr,
sTM = svSfullTMlistarr,
)
omlist = np.broadcast_to(omegalist[:,nx], minsvTElistarr[...,0].shape) omlist = np.broadcast_to(omegalist[:,nx], minsvTElistarr[...,0].shape)
kxmlarr = np.broadcast_to(kxmaplist[nx,:], minsvTElistarr[...,0].shape) kxmlarr = np.broadcast_to(kxmaplist[nx,:], minsvTElistarr[...,0].shape)