# -*- coding: utf-8 -*-
"""
Created on Sun Apr 24 18:55:33 2016
@author: thomasaref
"""
from TA88_fundamental import TA88_VNA_Lyzer, TA88_Read, TA88_VNA_Pwr_Lyzer
from taref.plotter.api import colormesh, line, scatter
from numpy import absolute
a = TA88_VNA_Lyzer(
name="testing",
on_res_ind=58,
VNA_name="RS VNA", #241
rd_hdf=TA88_Read(main_file="Data_0307/S1A4_TA88_wide_f_flux_swp2.hdf5"
), #S1A4_TA88_coupling_search.hdf5"),
desc="looking",
#offset=-0.09,
#fit_indices=[range(19, 259+1),range(300, 566+1)],
) #33, 70
a.filt.center = 150 #125
a.filt.halfwidth = 30
a.fitter.fit_type = "lorentzian"
a.fitter.gamma = 0.05 #0.01
a.flux_axis_type = "fq" #"flux"
a.end_skip = 10
a.save_folder.main_dir = a.name
a.bgsub_type = "dB"
if 0:
# -*- coding: utf-8 -*-
"""
Created on Sun Apr 24 18:55:33 2016
@author: thomasaref
"""
from TA88_fundamental import TA88_VNA_Lyzer, TA88_Read, qdt, TA88_Read_NP, TA88_Save_NP
from TA53_fundamental import TA53_VNA_Pwr_Lyzer, TA53_Read
from numpy import array, absolute, squeeze, append, sqrt, pi, arccos, shape, linspace
from taref.physics.fundamentals import h
from taref.plotter.api import colormesh, line, scatter
from taref.physics.filtering import Filter
a = TA88_VNA_Lyzer(
on_res_ind=201,
rd_hdf=TA88_Read(
main_file="Data_0628/S4A4_just_gate_overnight_flux_swp.hdf5"))
a.filt.center = 0
a.filt.halfwidth = 200
a.fitter.fit_type = "lorentzian"
a.fitter.gamma = 0.01
a.flux_axis_type = "flux" #"yoko"#"flux"
a.end_skip = 10
a.fit_indices = [
range(2, 14),
range(15, 17),
range(19, 23),
range(24, 26),
range(29, 37),
range(38, 39),
from TA88_fundamental import TA88_VNA_Lyzer, TA88_VNA_Pwr_Lyzer, TA88_Read, qdt as qdt88, idt as idt88, TA88_Read_NP, TA88_Save_NP, bg_A4, bg_A1
from TA53_fundamental import TA53_VNA_Pwr_Lyzer, TA53_Read, idt, qdt
from taref.plotter.api import colormesh, line, scatter, Plotter
from numpy import log10, absolute, linspace, mean, sqrt
from D0527_trans_careful import MagcomFilt as MagcomFilt88
from D0527_trans_careful import a as d0527
from D0317_S4A1_frq_pulse_flux import a as d0317
from matplotlib.pyplot import colorbar #, tight_layout
c = TA88_VNA_Lyzer(
name="S4A1_midpeak",
desc="S4A1 Main peak",
on_res_ind=260,
#VNA_name='RS VNA', port_name='S21',
rd_hdf=TA88_Read(
main_file="Data_0316/S4A1_TA88_coupling_search_midpeak.hdf5"),
fit_indices=[range(65, 984 + 1)],
flux_factor=qdt88.flux_factor * 1000.0 / 560.0,
offset=-0.045)
c.filt.center = 31
c.filt.halfwidth = 22
c.fitter.fit_type = "lorentzian"
c.fitter.gamma = 0.055 #0.01
c.flux_axis_type = "flux" #"fq" #"flux"
c.end_skip = 10
pl = "pwr_sat"
fig_width = 7.2
fig_height = 5.0
from TA88_fundamental import TA88_VNA_Lyzer, TA88_Read #, qdt
from taref.plotter.api import colormesh, line, Plotter, scatter
#from taref.core.api import set_tag, set_all_tags
from numpy import array, squeeze, append, sqrt, pi, mod, floor_divide, trunc, arccos, shape, linspace, interp, absolute, fft, log10, angle, unwrap
from atom.api import FloatRange, Int, Float
from taref.core.api import tag_property
from taref.plotter.api import LineFitter
from taref.physics.fundamentals import h #, filt_prep
#from scipy.optimize import fsolve
#from scipy.signal import freqz
#from taref.physics.fitting_functions import lorentzian, rpt_fit, lorentzian2
from time import time
a = TA88_VNA_Lyzer(
on_res_ind=440,
VNA_name="RS VNA",
rd_hdf=TA88_Read(main_file="Data_0523/S1A4_trans_mainlobe.hdf5"),
#fit_func=lorentzian, #[0.2,2.3, 3e-7, 7.5e-7],
offset=-0.08, #indices=range(50, 534),
fit_indices=[range(200, 1901)],
) #33, 70
a.filt.center = 51
a.filt.halfwidth = 20
a.flux_axis_type = "yoko"
a.end_skip = 10
a.fitter.gamma = 0.03
#print s3a4_wg.filt_center, s3a4_wg.filt_halfwidth, s3a4_wg.filt_start_ind, s3a4_wg.filt_end_ind
a.read_data()
if __name__ == "__main__":
pl = a.magabs_colormesh() #magabs_colormesh3(s3a4_wg)
# -*- coding: utf-8 -*-
"""
Created on Sun May 8 13:25:50 2016
@author: thomasaref
"""
from TA88_fundamental import TA88_VNA_Lyzer, TA88_Read, qdt
from numpy import absolute, fft
from taref.plotter.api import Plotter, line, scatter
a = TA88_VNA_Lyzer(
name="S4A1_wide",
desc="S4A1 wide",
on_res_ind=260,
VNA_name='RS VNA',
port_name='S21',
rd_hdf=TA88_Read(main_file="Data_0312/S4A1_TA88_coupling_search.hdf5"),
#fit_indices=[range(65, 984+1)],
#fit_func=lorentzian,
flux_factor=qdt.flux_factor * 1000.0 / 560.0,
offset=-0.045) #, fit_type="yoko")
a.filt.center = 129
a.filt.halfwidth = 30
a.fitter.fit_type = "lorentzian"
a.fitter.gamma = 0.055 #0.01
a.flux_axis_type = "flux" #"fq" #"flux"
a.end_skip = 10
a.save_folder.main_dir = a.name
#a.read_data()
Magcom = Magvec[:, 0, :] + 1j * Magvec[:, 1, :]
Magcom = reshape(Magcom, s, order="F")
self.frequency = linspace(fstart, fstart + fstep * (sm - 1), sm)
#if self.swp_type=="pwr_first":
# Magcom=swapaxes(Magcom, 1, 2)
self.MagcomData = squeeze(Magcom) #[:, 2, :]
print self.MagcomData.shape
#self.stop_ind=len(self.yoko)-1
self.filt.N = len(self.frequency)
a = TA88_VNA_Lyzer(
name="d0530",
on_res_ind=0,
VNA_name="RS VNA",
rd_hdf=TA88_Read(main_file="Data_0530/S4A4l_careful_refl.hdf5"),
#fit_func=lorentzian, #[0.2,2.3, 3e-7, 7.5e-7],
offset=0.07, #fit_type="yoko",
rt_atten=30.0, #indices=range(50, 534),
read_data=read_data,
) #33, 70
#print s3a4_wg.filt_center, s3a4_wg.filt_halfwidth, s3a4_wg.filt_start_ind, s3a4_wg.filt_end_ind
a.filt.center = 209
a.filt.halfwidth = 200
a.read_data()
a.save_folder.main_dir = a.name
b = TA88_VNA_Lyzer(
on_res_ind=0,
VNA_name="RS VNA",
rd_hdf=TA88_Read(main_file="Data_0531/S4A4_careful_unswitched.hdf5"),
# fit_func=lorentzian, #[0.2,2.3, 3e-7, 7.5e-7],
from TA88_fundamental import TA88_VNA_Lyzer, TA88_Read, qdt, TA88_Read_NP, TA88_Save_NP
from taref.plotter.api import colormesh, line, Plotter, scatter
from taref.core.api import set_tag, set_all_tags
from numpy import array, absolute, squeeze, append, sqrt, pi, mod, floor_divide, trunc, arccos, shape
from atom.api import FloatRange
from taref.core.api import tag_property, reset_properties, reset_property
from taref.plotter.api import LineFitter
from taref.physics.fundamentals import h
from scipy.optimize import fsolve
from scipy.signal import savgol_filter
#savgol_filter(x, 5, 2)
from scipy.interpolate import interp1d
a=TA88_VNA_Lyzer(on_res_ind=215,# VNA_name="RS VNA", filt_center=15, filt_halfwidth=15,
rd_hdf=TA88_Read(main_file="Data_0704/S4A4_gate_flux_swp.hdf5"))
a.filt.center=40#0 #107
a.filt.halfwidth=90
a.fitter.fit_type="lorentzian"
a.fitter.gamma=0.01
a.flux_axis_type="yoko"#"flux"
a.end_skip=10
a.fit_indices=[range(2, 14), range(15, 17), range(19,23), range(24, 26), range(29, 37), range(38, 39), range(44, 46), range(48, 52),
range(54, 66), range(67, 69), range(70, 85), range(105, 107), range(108, 116), range(122, 129), [130], range(132, 134), [138],
range(182,184), range(188, 193), range(217, 251+1), range(266, 275+1), range(314, 324+1)]
#a.flux_indices=[range(400,434), range(436, 610)]
#a.flux_indices=[range(200, 400)]
a.read_data()
a.ifft_plot()
from TA88_fundamental import TA88_VNA_Lyzer, TA88_Read, qdt, TA88_Read_NP, TA88_Save_NP
from taref.plotter.api import colormesh, line, Plotter, scatter
from taref.core.api import set_tag, set_all_tags
from numpy import array, absolute, squeeze, append, sqrt, pi, mod, floor_divide, trunc, arccos, shape
from atom.api import FloatRange
from taref.core.api import tag_property, reset_properties, reset_property
from taref.plotter.api import LineFitter
from taref.physics.fundamentals import h
from scipy.optimize import fsolve
from scipy.signal import savgol_filter
#savgol_filter(x, 5, 2)
from scipy.interpolate import interp1d
a = TA88_VNA_Lyzer(
on_res_ind=201, # VNA_name="RS VNA", filt_center=15, filt_halfwidth=15,
rd_hdf=TA88_Read(
main_file="Data_0628/S4A4_just_gate_overnight_flux_swp.hdf5"))
a.filt.center = 0
a.filt.halfwidth = 200
a.fitter.fit_type = "lorentzian"
a.fitter.gamma = 0.01
a.flux_axis_type = "yoko" #"flux"
a.end_skip = 10
a.fit_indices = [
range(2, 14),
range(15, 17),
range(19, 23),
range(24, 26),
range(29, 37),
range(38, 39),
# -*- coding: utf-8 -*-
"""
Created on Sun Apr 24 18:55:33 2016
@author: thomasaref
"""
from TA88_fundamental import TA88_VNA_Lyzer, TA88_Read, TA88_VNA_Pwr_Lyzer
from taref.plotter.api import colormesh, line, scatter
from numpy import absolute
a=TA88_VNA_Lyzer(name="testing", on_res_ind=662, VNA_name="RS VNA", #241
rd_hdf=TA88_Read(main_file="Data_0406/S3A1_gate_listen_fft.hdf5"), #S1A4_TA88_coupling_search.hdf5"),
desc="looking",
#offset=-0.09,
#fit_indices=[range(19, 259+1),range(300, 566+1)],
) #33, 70
a.filt.center=-5 #15*0#125
a.filt.halfwidth=10
a.fitter.fit_type="lorentzian"
a.fitter.gamma=0.05 #0.01
a.flux_axis_type="fq" #"flux"
a.end_skip=10
a.save_folder.main_dir=a.name
a.bgsub_type="Abs"#"dB"
if 0:
b=TA88_VNA_Pwr_Lyzer(name="testing", on_res_ind=231, VNA_name="RS VNA",
rd_hdf=TA88_Read(main_file="Data_0222/S4A1_TA88_powswp.hdf5"),
desc="looking", swp_type="yoko_first",
Magcom = Magvec[:, 0, :] + 1j * Magvec[:, 1, :]
Magcom = reshape(Magcom, s, order="F")
self.frequency = linspace(fstart, fstart + fstep * (sm - 1), sm)
#if self.swp_type=="pwr_first":
# Magcom=swapaxes(Magcom, 1, 2)
self.MagcomData = squeeze(Magcom) #[:, 2, :]
print self.MagcomData.shape
#self.stop_ind=len(self.yoko)-1
self.filt.N = len(self.frequency)
a = TA88_VNA_Lyzer(
name="d0527",
on_res_ind=0,
VNA_name="RS VNA",
rd_hdf=TA88_Read(main_file="Data_0527/S1A4_careful_trans.hdf5"),
offset=0.07,
#fit_type="yoko",
rt_atten=30.0, #indices=range(50, 534),
read_data=read_data,
) #33, 70
#print s3a4_wg.filt_center, s3a4_wg.filt_halfwidth, s3a4_wg.filt_start_ind, s3a4_wg.filt_end_ind
a.filt.center = 731
a.filt.halfwidth = 200
a.read_data()
a.save_folder.main_dir = a.name
b = TA88_VNA_Lyzer(
on_res_ind=0,
VNA_name="RS VNA",
rd_hdf=TA88_Read(main_file="Data_0531/S4A4_careful_unswitched.hdf5"),
offset=0.07,
# -*- coding: utf-8 -*-
"""
Created on Tue May 17 20:49:11 2016
@author: thomasaref
"""
from TA88_fundamental import TA88_VNA_Lyzer, TA88_Read
a = TA88_VNA_Lyzer(
name="d0502",
on_res_ind=176,
VNA_name="RS VNA",
rd_hdf=TA88_Read(main_file="Data_0502/S1A4_midpeak_trans.hdf5"),
desc="S1A4 low frequency side lobe 1",
offset=-0.08,
#fit_indices=[range(111, 570)],
) #33, 70
a.filt.center = 22
a.filt.halfwidth = 10
a.fitter.fit_type = "lorentzian"
a.fitter.gamma = 0.01
a.flux_axis_type = "fq" #"flux"
a.end_skip = 10
a.save_folder.main_dir = a.name
if __name__ == "__main__":
pls = a.fft_plots()
#a.save_plots(pls)
a.widths_plot()
a.center_plot()
# -*- coding: utf-8 -*-
"""
Created on Sun Apr 24 18:55:33 2016
@author: thomasaref
"""
from TA88_fundamental import TA88_VNA_Lyzer, TA88_Read, TA88_VNA_Pwr_Lyzer
from taref.plotter.api import colormesh, line, scatter
from numpy import absolute
a = TA88_VNA_Lyzer(
name="testing",
on_res_ind=182,
VNA_name="RS VNA",
rd_hdf=TA88_Read(
main_file="Data_0306/S4A4_TA88_wide_f_flux_swp_overnight.hdf5"),
desc="looking",
#offset=-0.09,
#fit_indices=[range(19, 259+1),range(300, 566+1)],
) #33, 70
a.filt.center = 14
a.filt.halfwidth = 5
a.fitter.fit_type = "lorentzian"
a.fitter.gamma = 0.05 #0.01
a.flux_axis_type = "fq" #"flux"
a.end_skip = 10
a.save_folder.main_dir = a.name
if 0:
b = TA88_VNA_Pwr_Lyzer(
# -*- coding: utf-8 -*-
"""
Created on Sun Apr 24 18:55:33 2016
@author: thomasaref
"""
from TA88_fundamental import TA88_VNA_Lyzer, TA88_Read, TA88_VNA_Pwr_Lyzer
from taref.plotter.api import colormesh, line, scatter
from numpy import absolute
a = TA88_VNA_Lyzer(
name="testing",
on_res_ind=341,
VNA_name="RS VNA", #241
rd_hdf=TA88_Read(main_file="Data_0312/S4A1_TA88_coupling_search.hdf5"),
desc="looking",
#offset=-0.09,
#fit_indices=[range(19, 259+1),range(300, 566+1)],
) #33, 70
a.filt.center = 127 #15*0#125
a.filt.halfwidth = 50
a.fitter.fit_type = "lorentzian"
a.fitter.gamma = 0.05 #0.01
a.flux_axis_type = "fq" #"flux"
a.end_skip = 10
a.save_folder.main_dir = a.name
a.bgsub_type = "dB" #"Abs"#"dB"
if 0:
print fstart, fstep
print shape(Magvec), shape(self.yoko)
sm=shape(Magvec)[0]
sy=shape(data)
#print sy
s=(sm, sy[0], 1)#sy[2])
Magcom=Magvec[:,0, :]#+1j*Magvec[:,1, :]
Magcom=reshape(Magcom, s, order="F")
self.frequency=linspace(fstart, fstart+fstep*(sm-1), sm)
self.MagcomData=squeeze(Magcom)
print shape(self.MagcomData)
self.stop_ind=len(self.yoko)-1
#S3A1_pulsing_new_osc_frq_swp.hdf5
a=TA88_VNA_Lyzer(name="d0703_time_try", on_res_ind=251, read_data=read_data, # VNA_name="RS VNA",
rd_hdf=TA88_Read(main_file="Data_0704/S3A1_pulsing_new_osc_frq_swp.hdf5"))#"Data_0703/S3A1_pulsing_new_osc_flux_swp.hdf5"))
a.save_folder.main_dir=a.name
a.filt.center=4469
a.filt.halfwidth=300
a.filt.reflect=True
from taref.physics.filtering import Filter#, window_ifft, fir_filt_prep, fir_filter, fir_freqz, fft_filt_prep, fft_filter, ifft_x_fs
from scipy.signal import decimate, resample
from numpy import exp
a.read_data()
#line(a.MagcomData[10000,:])
#f=a.frequency[250]
pl=line(a.MagcomData[:,250])
t=a.frequency
f=a.yoko[250]
from TA53_fundamental import TA53_VNA_Pwr_Lyzer, TA53_Read, idt, qdt
from numpy import diag, mean, log10, array, absolute, squeeze, append, sqrt, pi, arccos, shape, linspace, argmin
from taref.physics.fundamentals import h
from taref.plotter.api import colormesh, line, scatter
from D1122_trans_direct import a as d1122
from D1122_trans_direct import MagcomFilt
from matplotlib.pyplot import colorbar #, tight_layout
idt.Np = 56
idt.f0 = 4.46e9 #4.452
idt.K2 = 0.032
a = TA88_VNA_Lyzer(
on_res_ind=201,
rd_hdf=TA88_Read(
main_file="Data_0628/S4A4_just_gate_overnight_flux_swp.hdf5"))
a.filt.center = 0
a.filt.halfwidth = 200
a.fitter.fit_type = "lorentzian"
a.fitter.gamma = 0.01
a.flux_axis_type = "flux" #"yoko"#"flux"
a.end_skip = 10
a.fit_indices = [
range(2, 14),
range(15, 17),
range(19, 23),
range(24, 26),
range(29, 37),
range(38, 39),
# -*- coding: utf-8 -*-
"""
Created on Sun Apr 24 18:55:33 2016
@author: thomasaref
"""
from TA88_fundamental import TA88_VNA_Lyzer, TA88_Read, TA88_VNA_Pwr_Lyzer, bg_A1
from taref.plotter.api import colormesh, line, scatter
from numpy import absolute, log10
a=TA88_VNA_Lyzer(name="testing", on_res_ind=182, VNA_name="RS VNA",
rd_hdf=TA88_Read(main_file="Data_0222/S4A1_TA88_swp_5Vtn5V.hdf5"),
desc="looking",
#offset=-0.09,
#fit_indices=[range(19, 259+1),range(300, 566+1)],
) #33, 70
a.filt.center=14
a.filt.halfwidth=5
a.fitter.fit_type="lorentzian"
a.fitter.gamma=0.05 #0.01
a.flux_axis_type="fq" #"flux"
a.end_skip=10
a.save_folder.main_dir=a.name
if 1:
b=TA88_VNA_Pwr_Lyzer(name="testing", on_res_ind=370, VNA_name="RS VNA",
rd_hdf=TA88_Read(main_file="Data_0222/S4A1_TA88_powswp.hdf5"),
desc="looking", swp_type="yoko_first",
)
from TA88_fundamental import TA88_VNA_Lyzer, TA88_Read, qdt, TA88_Read_NP, TA88_Save_NP
from taref.plotter.api import colormesh, line, Plotter, scatter
from taref.core.api import set_tag, set_all_tags
from numpy import array, absolute, squeeze, append, sqrt, pi, mod, floor_divide, trunc, arccos, shape
from atom.api import FloatRange
from taref.core.api import tag_property, reset_properties, reset_property
from taref.plotter.api import LineFitter
from taref.physics.fundamentals import h
from scipy.optimize import fsolve
from scipy.signal import savgol_filter
#savgol_filter(x, 5, 2)
from scipy.interpolate import interp1d
a = TA88_VNA_Lyzer(
on_res_ind=201, # VNA_name="RS VNA", filt_center=15, filt_halfwidth=15,
rd_hdf=TA88_Read(main_file="Data_0705/reflection_S4A4_widecoilsweep.hdf5"))
a.filt.center = 0
a.filt.halfwidth = 200
a.fitter.fit_type = "lorentzian"
a.fitter.gamma = 0.01
a.flux_axis_type = "yoko" #"flux"
a.end_skip = 10
a.fit_indices = [
range(2, 14),
range(15, 17),
range(19, 23),
range(24, 26),
range(29, 37),
range(38, 39),
