# {
# 'name': 't_0',
# 'ampl': [0, 1],
# },
# ]
k = 0
T = 1 * mks
dt = (0.01/l)
nt = int(T/dt)
for i in _a:
hr(100)
# print(i[0][0])
# w_0 = s_2 * i[0][0]
# w_0 = s_2 * i['ampl'][0] + t_0 * i['ampl'][1]
w_0 = s_2 * i[0][0] + t_0 * i[1][0]
w_0.normalize()
d = {}
d['fidelity_t0'] = [Fidelity_full(w_0, t_0)]
d['fidelity_s2'] = [Fidelity_full(w_0, s_2)]
ro_t = ro_0 = DensityMatrix(w_0)
time = 0
# nt = int(T/dt)
if mpirank == 0:
# ----------------------------------
# cavity.info()
cprint('T:', 'green', end='')
print(time_unit_full(T))
cprint('dt:', 'green', end='')
print(time_unit_full(dt))
cprint('nt:', 'green', end='')
print(nt)
hr(50)
# ----------------------------------
# cprint('nt_batch:', 'green', end='')
# print(nt_batch)
cprint('lg_str:', 'green', end='')
print(lg_str)
cprint('dt_click:', 'green', end='')
print(dt_click)
cprint('dt_click_str:', 'green', end='')
print(dt_click_str)
cprint('out_path:', 'green', end='')
print(out_path)