cleanup
This commit is contained in:
parent
4067766478
commit
c4cbdff751
@ -447,15 +447,10 @@ def eigsolve(num_modes: int,
|
||||
continue
|
||||
break
|
||||
|
||||
def rtrace_AtB(A, B):
|
||||
return real(numpy.sum(A.conj() * B))
|
||||
|
||||
def symmetrize(A):
|
||||
return (A + A.conj().T) * 0.5
|
||||
|
||||
max_iters = 10000
|
||||
for iter in range(max_iters):
|
||||
U = numpy.linalg.inv(Z.conj().T @ Z)
|
||||
ZtZ = Z.conj().T @ Z
|
||||
U = numpy.linalg.inv(ZtZ)
|
||||
AZ = scipy_op @ Z
|
||||
AZU = AZ @ U
|
||||
ZtAZU = Z.conj().T @ AZU
|
||||
@ -469,47 +464,44 @@ def eigsolve(num_modes: int,
|
||||
break
|
||||
|
||||
KG = scipy_iop @ G
|
||||
traceGtKG = rtrace_AtB(G, KG)
|
||||
gamma_numerator = traceGtKG
|
||||
traceGtKG = _rtrace_AtB(G, KG)
|
||||
|
||||
reset_iters = 100
|
||||
reset_iters = 100 # TODO
|
||||
if prev_traceGtKG == 0 or iter % reset_iters == 0:
|
||||
print('RESET!')
|
||||
logger.inf('CG reset')
|
||||
gamma = 0
|
||||
else:
|
||||
gamma = gamma_numerator / prev_traceGtKG
|
||||
gamma = traceGtKG / prev_traceGtKG
|
||||
|
||||
D = gamma * d_scale * D + KG
|
||||
d_scale = numpy.sqrt(rtrace_AtB(D, D)) / num_modes
|
||||
d_scale = numpy.sqrt(_rtrace_AtB(D, D)) / num_modes
|
||||
D /= d_scale
|
||||
|
||||
ZtAZ = Z.conj().T @ AZ
|
||||
|
||||
AD = scipy_op @ D
|
||||
DtD = D.conj().T @ D
|
||||
DtAD = D.conj().T @ AD
|
||||
|
||||
ZtD = Z.conj().T @ D
|
||||
ZtAD = Z.conj().T @ AD
|
||||
symZtD = symmetrize(ZtD)
|
||||
symZtAD = symmetrize(ZtAD)
|
||||
symZtD = _symmetrize(Z.conj().T @ D)
|
||||
symZtAD = _symmetrize(Z.conj().T @ AD)
|
||||
|
||||
'''
|
||||
U_sZtD = U @ symZtD
|
||||
|
||||
dE = 2.0 * (rtrace_AtB(U, symZtAD) - rtrace_AtB(ZtAZU, U_sZtD))
|
||||
dE = 2.0 * (_rtrace_AtB(U, symZtAD) -
|
||||
_rtrace_AtB(ZtAZU, U_sZtD))
|
||||
|
||||
S2 = DtD - 4 * symZtD @ U_sZtD
|
||||
d2E = 2 * (rtrace_AtB(U, DtAD) -
|
||||
rtrace_AtB(ZtAZU, U @ S2) -
|
||||
4 * rtrace_AtB(U, symZtAD @ U_sZtD))
|
||||
d2E = 2 * (_rtrace_AtB(U, DtAD) -
|
||||
_rtrace_AtB(ZtAZU, U @ (DtD - 4 * symZtD @ U_sZtD)) -
|
||||
4 * _rtrace_AtB(U, symZtAD @ U_sZtD))
|
||||
|
||||
# Newton-Raphson to find a root of the first derivative:
|
||||
theta = -dE/d2E
|
||||
|
||||
if d2E < 0 or abs(theta) >= pi:
|
||||
theta = -abs(prev_theta) * numpy.sign(dE)
|
||||
|
||||
# ZtAZU * ZtZ = ZtAZ for use in line search
|
||||
ZtZ = Z.conj().T @ Z
|
||||
ZtAZ = ZtAZU @ ZtZ.conj().T
|
||||
'''
|
||||
|
||||
def Qi_func(theta, memo=[None, None]):
|
||||
if memo[0] == theta:
|
||||
@ -525,10 +517,10 @@ def eigsolve(num_modes: int,
|
||||
# if c or s small, taylor expand
|
||||
if c < 1e-4 * s and c != 0:
|
||||
Qi = numpy.linalg.inv(DtD)
|
||||
Qi = Qi / (s*s) - 2*c/(s*s*s) * (Qi @ symZtD.conj().T @ Qi.conj().T)
|
||||
Qi = Qi / (s*s) - 2*c/(s*s*s) * (Qi @ (Qi @ symZtD).conj().T)
|
||||
elif s < 1e-4 * c and s != 0:
|
||||
Qi = numpy.linalg.inv(ZtZ)
|
||||
Qi = Qi / (c*c) - 2*s/(c*c*c) * (Qi @ symZtD.conj().T @ Qi.conj().T)
|
||||
Qi = Qi / (c*c) - 2*s/(c*c*c) * (Qi @ (Qi @ symZtD).conj().T)
|
||||
else:
|
||||
raise Exception('Inexplicable singularity in trace_func')
|
||||
memo[0] = theta
|
||||
@ -540,22 +532,24 @@ def eigsolve(num_modes: int,
|
||||
s = numpy.sin(theta)
|
||||
Qi = Qi_func(theta)
|
||||
R = c*c * ZtAZ + s*s * DtAD + 2*s*c * symZtAD
|
||||
trace = rtrace_AtB(R, Qi)
|
||||
trace = _rtrace_AtB(R, Qi)
|
||||
return numpy.abs(trace)
|
||||
|
||||
#def trace_deriv(theta):
|
||||
# Qi = Qi_func(theta)
|
||||
# c2 = numpy.cos(2 * theta)
|
||||
# s2 = numpy.sin(2 * theta)
|
||||
# F = -0.5*s2 * (ZtAZ - DtAD) + c2 * symZtAD
|
||||
# trace_deriv = rtrace_AtB(Qi, F)
|
||||
'''
|
||||
def trace_deriv(theta):
|
||||
Qi = Qi_func(theta)
|
||||
c2 = numpy.cos(2 * theta)
|
||||
s2 = numpy.sin(2 * theta)
|
||||
F = -0.5*s2 * (ZtAZ - DtAD) + c2 * symZtAD
|
||||
trace_deriv = _rtrace_AtB(Qi, F)
|
||||
|
||||
# G = Qi @ F.conj().T @ Qi.conj().T
|
||||
# H = -0.5*s2 * (ZtZ - DtD) + c2 * symZtD
|
||||
# trace_deriv -= rtrace_AtB(G, H)
|
||||
G = Qi @ F.conj().T @ Qi.conj().T
|
||||
H = -0.5*s2 * (ZtZ - DtD) + c2 * symZtD
|
||||
trace_deriv -= _rtrace_AtB(G, H)
|
||||
|
||||
# trace_deriv *= 2
|
||||
# return trace_deriv * sgn
|
||||
trace_deriv *= 2
|
||||
return trace_deriv * sgn
|
||||
'''
|
||||
|
||||
'''
|
||||
theta, new_E, new_dE = linmin(theta, E, dE, 0.1, min(tolerance, 1e-6), 1e-14, 0, -numpy.sign(dE) * K_PI, trace_func)
|
||||
@ -623,3 +617,10 @@ def eigsolve(num_modes: int,
|
||||
|
||||
# return x, fx, dfx
|
||||
|
||||
|
||||
def _rtrace_AtB(A, B):
|
||||
return real(numpy.sum(A.conj() * B))
|
||||
|
||||
def _symmetrize(A):
|
||||
return (A + A.conj().T) * 0.5
|
||||
|
||||
|
Loading…
Reference in New Issue
Block a user