OS windows
paramfile:./param.sh
segment_duration=10.24
smoothband=0.3
nseg_segave=10
idprepro=0
idmksegment=1
idcalc=1
idgnplt=1
delete_level=0
<SETPAR>
-------------------------------------------------
Array geometry: centered 6-station array.
Array radius:  18. [m] 
Number of sensors at the center: 1
Number of sensors around the circle: 5
Data: all three components
-------------------------------------------------
Power spectral densities will be estimated.
horizontal-to-vertical spectral ratios will be estimated.
Rayleigh wave phase velocities will be estimated (by SPAC).
Rayleigh wave phase velocities will be estimated (by CCA).
Rayleigh wave phase velocities will be estimated (by ncCCA).
Rayleigh wave phase velocities will be estimated (by H0).
Rayleigh wave phase velocities will be estimated (by H1).
Rayleigh wave phase velocities will be estimated (by V).
Noise-to-signal ratios in the vertical component will be estimated.
Rayleigh wave phase velocities will be estimated (by CCA+R).
Rayleigh wave phase velocities will be estimated (by SPAC+R).
Rayleigh wave phase velocities will be estimated (by SPAC-R).
Love wave phase velocities will be estimated (by CCA+L).
Love wave phase velocities will be estimated (by SPAC+R).
Love wave phase velocities will be estimated (by SPAC-R).
H/V power partition ratios of the Rayleigh waves will be estimated.
Rayleigh-to-Love power partition ratios will be estimated.
Noise-to-signal ratios in the horizontal components will be estimated.

Do you really want to start running the program? [y/n] 
<MKSEGMENT>
Output demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/segment_3c.d
[Segments with RMS values between 1.000000 and 1.200000 are selected]
NOTE: 57 segments have been selected.

<mkgnplt_wave.sh>
NOTE: This script uses a program gnuplot to plot the waveforms. You can manually plot the same figures later, using a gnuplot macro, plot_wave.gnplt, which was created by this script and is found in demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT. To do this, type cd demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT & gnuplot plot_wave.gnplt
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/plot_wave.gnplt
/
<MKCIRCLE>
seismfile: demo/synth_SN100_18mGamR0.8RV0.1N6/seism.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z0r.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z1r.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z00.d
<MKCIRCLE_H>
seismfile: demo/synth_SN100_18mGamR0.8RV0.1N6/seism.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/R0r.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/R1r.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/T0r.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/T1r.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/R10.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/T10.d
<MKWAV3C>
seismfile: demo/synth_SN100_18mGamR0.8RV0.1N6/seism.d
demo/synth_SN100_18mGamR0.8RV0.1N6/S01.d used to estimate horizontal-to-vertical spectral ratios
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/wavud.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/wavew.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/wavns.d

* Preexisting directori(es) detected (created in a previous calculation?):
demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1 demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave
NOTE: These directories are removed to proceed with the current analysis.

<CPWAV>
Copying original waveforms to a temporary dierectory demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav to estimate the power spectral densities.

### Step 1 (Total 5) ###
<SETPAR>
-------------------------------------------------
Array geometry: centered 6-station array.
Array radius:  18. [m] 
Number of sensors at the center: 1
Number of sensors around the circle: 5
Data: all three components
-------------------------------------------------
Power spectral densities will be estimated.
horizontal-to-vertical spectral ratios will be estimated.
Rayleigh wave phase velocities will be estimated (by SPAC).
Rayleigh wave phase velocities will be estimated (by CCA).
Rayleigh wave phase velocities will be estimated (by ncCCA).
Rayleigh wave phase velocities will be estimated (by H0).
Rayleigh wave phase velocities will be estimated (by H1).
Rayleigh wave phase velocities will be estimated (by V).
Noise-to-signal ratios in the vertical component will be estimated.
Rayleigh wave phase velocities will be estimated (by CCA+R).
Rayleigh wave phase velocities will be estimated (by SPAC+R).
Rayleigh wave phase velocities will be estimated (by SPAC-R).
Love wave phase velocities will be estimated (by CCA+L).
Love wave phase velocities will be estimated (by SPAC+R).
Love wave phase velocities will be estimated (by SPAC-R).
H/V power partition ratios of the Rayleigh waves will be estimated.
Rayleigh-to-Love power partition ratios will be estimated.
Noise-to-signal ratios in the horizontal components will be estimated.
<ESTSPEC>
NOICE:idrimag=1, read columns 1-3
[column 1: time; 2: real part; 3: imaginary part]
OUTPUT DIR: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1
 No. of Seismograms: 9
DATAFILE  1) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/R10.d
DATAFILE  2) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/R0r.d
DATAFILE  3) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/R1r.d
DATAFILE  4) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/T10.d
DATAFILE  5) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/T0r.d
DATAFILE  6) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/T1r.d
DATAFILE  7) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z00.d
DATAFILE  8) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z0r.d
DATAFILE  9) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z1r.d

Cross-spectral density calculations (1:yes; 2: no)
   |  1  2  3  4  5  6  7  8  9
-------------------------------
  1|  1  1  1  1  1  0  0  0  0
  2|  1  1  1  0  0  0  0  0  0
  3|  0  1  1  0  1  1  0  0  0
  4|  0  1  0  0  1  1  0  0  0
  5|  0  1  0  1  1  1  0  0  0
  6|  0  1  0  0  1  1  0  0  0
  7|  0  0  0  0  0  0  1  1  0
  8|  0  0  0  0  0  0  1  1  0
  9|  0  0  1  0  0  1  0  0  1

No. of segments:    10
Data segment duration: 10.240 s
dt           :  0.010 s
Total duration (zero-padded):   20.480s (   2048 pts)
Ratio of data length to total length (zero-padded):  0.500
(Power reduction is corrected based on this value)
Frequency interval:0.488E-01 Hz
Nyquist frequency : 50.0     Hz
Use data window  [Hanning window with taper rate: 0.500 (  513 pts)]
Ratio of tapered power to raw power:  0.50
(Power reduction is corrected based on this value)
Use spectral window [Parzen window with band width:  0.30000 Hz (Total   13 pts)]
Resulting degree of freedom:    65
Standard error:     0.176777 (the effects of cos taper & zero-padding considered)
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/R10_R10.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/R10_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/R10_R1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/R10_T10.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/R10_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/R0r_R10.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/R0r_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/R0r_R1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/R1r_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/R1r_R1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/R1r_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/R1r_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/T10_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/T10_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/T10_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/T0r_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/T0r_T10.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/T0r_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/T0r_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/T1r_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/T1r_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/T1r_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/Z00_Z00.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/Z00_Z0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/Z0r_Z00.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/Z0r_Z0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/Z1r_R1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/Z1r_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/Z1r_Z1r.d
<ESTSPEC>
NOICE:idrimag=    0 read only columns 1 and 2
No other columns are read
OUTPUT DIR: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1
 No. of Seismograms: 3
DATAFILE  1) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/wavud.d
DATAFILE  2) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/wavew.d
DATAFILE  3) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/wavns.d

Cross-spectral density calculations (1:yes; 2: no)
   |  1  2  3
-------------
  1|  1  0  0
  2|  0  1  0
  3|  0  0  1

No. of segments:    10
Data segment duration: 10.240 s
dt           :  0.010 s
Total duration (zero-padded):   20.480s (   2048 pts)
Ratio of data length to total length (zero-padded):  0.500
(Power reduction is corrected based on this value)
Frequency interval:0.488E-01 Hz
Nyquist frequency : 50.0     Hz
Use data window  [Hanning window with taper rate: 0.500 (  513 pts)]
Ratio of tapered power to raw power:  0.50
(Power reduction is corrected based on this value)
Use spectral window [Parzen window with band width:  0.30000 Hz (Total   13 pts)]
Resulting degree of freedom:    65
Standard error:     0.176777 (the effects of cos taper & zero-padding considered)
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/wavud_wavud.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/wavew_wavew.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/wavns_wavns.d
<ESTSPEC>
NOICE:idrimag=    0 read only columns 1 and 2
No other columns are read
OUTPUT DIR: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1
 No. of Seismograms: 18
DATAFILE  1) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD1u.d
DATAFILE  2) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD2u.d
DATAFILE  3) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD3u.d
DATAFILE  4) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD4u.d
DATAFILE  5) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD5u.d
DATAFILE  6) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD6u.d
DATAFILE  7) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD1n.d
DATAFILE  8) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD2n.d
DATAFILE  9) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD3n.d
DATAFILE 10) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD4n.d
DATAFILE 11) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD5n.d
DATAFILE 12) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD6n.d
DATAFILE 13) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD1e.d
DATAFILE 14) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD2e.d
DATAFILE 15) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD3e.d
DATAFILE 16) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD4e.d
DATAFILE 17) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD5e.d
DATAFILE 18) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD6e.d

Cross-spectral density calculations (1:yes; 2: no)
   |  1  2  3  4  5  6  7  8  9 10 11 12 13 14 15 16 17 18
----------------------------------------------------------
  1|  1  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0
  2|  0  1  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0
  3|  0  0  1  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0
  4|  0  0  0  1  0  0  0  0  0  0  0  0  0  0  0  0  0  0
  5|  0  0  0  0  1  0  0  0  0  0  0  0  0  0  0  0  0  0
  6|  0  0  0  0  0  1  0  0  0  0  0  0  0  0  0  0  0  0
  7|  0  0  0  0  0  0  1  0  0  0  0  0  0  0  0  0  0  0
  8|  0  0  0  0  0  0  0  1  0  0  0  0  0  0  0  0  0  0
  9|  0  0  0  0  0  0  0  0  1  0  0  0  0  0  0  0  0  0
 10|  0  0  0  0  0  0  0  0  0  1  0  0  0  0  0  0  0  0
 11|  0  0  0  0  0  0  0  0  0  0  1  0  0  0  0  0  0  0
 12|  0  0  0  0  0  0  0  0  0  0  0  1  0  0  0  0  0  0
 13|  0  0  0  0  0  0  0  0  0  0  0  0  1  0  0  0  0  0
 14|  0  0  0  0  0  0  0  0  0  0  0  0  0  1  0  0  0  0
 15|  0  0  0  0  0  0  0  0  0  0  0  0  0  0  1  0  0  0
 16|  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  1  0  0
 17|  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  1  0
 18|  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  1

No. of segments:    10
Data segment duration: 10.240 s
dt           :  0.010 s
Total duration (zero-padded):   20.480s (   2048 pts)
Ratio of data length to total length (zero-padded):  0.500
(Power reduction is corrected based on this value)
Frequency interval:0.488E-01 Hz
Nyquist frequency : 50.0     Hz
Use data window  [Hanning window with taper rate: 0.500 (  513 pts)]
Ratio of tapered power to raw power:  0.50
(Power reduction is corrected based on this value)
Use spectral window [Parzen window with band width:  0.30000 Hz (Total   13 pts)]
Resulting degree of freedom:    65
Standard error:     0.176777 (the effects of cos taper & zero-padding considered)
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/SD1u_SD1u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/SD2u_SD2u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/SD3u_SD3u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/SD4u_SD4u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/SD5u_SD5u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/SD6u_SD6u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/SD1n_SD1n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/SD2n_SD2n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/SD3n_SD3n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/SD4n_SD4n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/SD5n_SD5n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/SD6n_SD6n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/SD1e_SD1e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/SD2e_SD2e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/SD3e_SD3e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/SD4e_SD4e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/SD5e_SD5e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/SD6e_SD6e.d
<SPECRATIO>
OUTPUT (for CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/spr_cca.d
OUTPUT (for SPAC)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/spr_spac.d
OUTPUT (for H0)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/spr_h0.d
OUTPUT (for MSC)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/coh2.d
Array radius: 0.018000 [km][from demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z0r.d.log]
OUTPUT (for NSR_Z)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/nsr.d
OUTPUT (for signal power)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/pow_signal.d
OUTPUT (for noise power)   demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/pow_noise.d
OUTPUT (for H1)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/spr_h1.d
OUTPUT (for V)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/spr_v.d
<SPECRATIO for horizontal components>
OUTPUT (for CCA-L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/sprh_cca_minus_L.d
OUTPUT (for CCA-R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/sprh_cca_minus_R.d
OUTPUT (for R/V)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/AmpRV_R.d
OUTPUT (for SPAC-L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/sprh_spac_minus_L.d
OUTPUT (for SPAC+L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/sprh_spac_plus_L.d
OUTPUT (for SPAC-R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/sprh_spac_minus_R.d
OUTPUT (for SPAC+R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/sprh_spac_plus_R.d
OUTPUT (for R/(R+L))  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/powratio_R2L.d
OUTPUT (for NSR_H)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/nsr_h.d
<SPECRATIO HV>
OUTPUT (for HV spectral ratio)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/spr_hv.d
<SPEC2PV>
Array radius: 0.018000 [km][from demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z0r.d.log]
OUTPUT (for CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/vel_cca.d
OUTPUT (for SPAC)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/vel_spac.d
OUTPUT (for H0)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/vel_h0.d
OUTPUT (for H1)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/vel_h1.d
OUTPUT (for V)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/vel_v.d
OUTPUT (for nc-CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/vel_cca.lwapx.d
OUTPUT (for NSR limit by CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/nsrlim_cca.d
OUTPUT (for NSR limit by nc-CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/nsrlim_cca.lwapx.d
<SPEC2PV for horizontal components>
Array radius: 0.018000 [km][from demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/R0r.d.log]
OUTPUT (for CCA-L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/velh_cca_minus_L.d
OUTPUT (for CCA-R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/velh_cca_minus_R.d
OUTPUT (for SPAC-L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/velh_spac_minus_L.d
OUTPUT (for SPAC+L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/velh_spac_plus_L.d
OUTPUT (for SPAC-R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/velh_spac_minus_R.d
OUTPUT (for SPAC+R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/1/velh_spac_plus_R.d

### Step 2 (Total 5) ###
<SETPAR>
-------------------------------------------------
Array geometry: centered 6-station array.
Array radius:  18. [m] 
Number of sensors at the center: 1
Number of sensors around the circle: 5
Data: all three components
-------------------------------------------------
Power spectral densities will be estimated.
horizontal-to-vertical spectral ratios will be estimated.
Rayleigh wave phase velocities will be estimated (by SPAC).
Rayleigh wave phase velocities will be estimated (by CCA).
Rayleigh wave phase velocities will be estimated (by ncCCA).
Rayleigh wave phase velocities will be estimated (by H0).
Rayleigh wave phase velocities will be estimated (by H1).
Rayleigh wave phase velocities will be estimated (by V).
Noise-to-signal ratios in the vertical component will be estimated.
Rayleigh wave phase velocities will be estimated (by CCA+R).
Rayleigh wave phase velocities will be estimated (by SPAC+R).
Rayleigh wave phase velocities will be estimated (by SPAC-R).
Love wave phase velocities will be estimated (by CCA+L).
Love wave phase velocities will be estimated (by SPAC+R).
Love wave phase velocities will be estimated (by SPAC-R).
H/V power partition ratios of the Rayleigh waves will be estimated.
Rayleigh-to-Love power partition ratios will be estimated.
Noise-to-signal ratios in the horizontal components will be estimated.
<ESTSPEC>
NOICE:idrimag=1, read columns 1-3
[column 1: time; 2: real part; 3: imaginary part]
OUTPUT DIR: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2
 No. of Seismograms: 9
DATAFILE  1) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/R10.d
DATAFILE  2) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/R0r.d
DATAFILE  3) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/R1r.d
DATAFILE  4) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/T10.d
DATAFILE  5) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/T0r.d
DATAFILE  6) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/T1r.d
DATAFILE  7) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z00.d
DATAFILE  8) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z0r.d
DATAFILE  9) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z1r.d

Cross-spectral density calculations (1:yes; 2: no)
   |  1  2  3  4  5  6  7  8  9
-------------------------------
  1|  1  1  1  1  1  0  0  0  0
  2|  1  1  1  0  0  0  0  0  0
  3|  0  1  1  0  1  1  0  0  0
  4|  0  1  0  0  1  1  0  0  0
  5|  0  1  0  1  1  1  0  0  0
  6|  0  1  0  0  1  1  0  0  0
  7|  0  0  0  0  0  0  1  1  0
  8|  0  0  0  0  0  0  1  1  0
  9|  0  0  1  0  0  1  0  0  1

No. of segments:    10
Data segment duration: 10.240 s
dt           :  0.010 s
Total duration (zero-padded):   20.480s (   2048 pts)
Ratio of data length to total length (zero-padded):  0.500
(Power reduction is corrected based on this value)
Frequency interval:0.488E-01 Hz
Nyquist frequency : 50.0     Hz
Use data window  [Hanning window with taper rate: 0.500 (  513 pts)]
Ratio of tapered power to raw power:  0.50
(Power reduction is corrected based on this value)
Use spectral window [Parzen window with band width:  0.30000 Hz (Total   13 pts)]
Resulting degree of freedom:    65
Standard error:     0.176777 (the effects of cos taper & zero-padding considered)
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/R10_R10.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/R10_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/R10_R1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/R10_T10.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/R10_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/R0r_R10.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/R0r_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/R0r_R1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/R1r_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/R1r_R1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/R1r_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/R1r_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/T10_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/T10_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/T10_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/T0r_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/T0r_T10.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/T0r_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/T0r_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/T1r_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/T1r_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/T1r_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/Z00_Z00.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/Z00_Z0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/Z0r_Z00.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/Z0r_Z0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/Z1r_R1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/Z1r_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/Z1r_Z1r.d
<ESTSPEC>
NOICE:idrimag=    0 read only columns 1 and 2
No other columns are read
OUTPUT DIR: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2
 No. of Seismograms: 3
DATAFILE  1) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/wavud.d
DATAFILE  2) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/wavew.d
DATAFILE  3) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/wavns.d

Cross-spectral density calculations (1:yes; 2: no)
   |  1  2  3
-------------
  1|  1  0  0
  2|  0  1  0
  3|  0  0  1

No. of segments:    10
Data segment duration: 10.240 s
dt           :  0.010 s
Total duration (zero-padded):   20.480s (   2048 pts)
Ratio of data length to total length (zero-padded):  0.500
(Power reduction is corrected based on this value)
Frequency interval:0.488E-01 Hz
Nyquist frequency : 50.0     Hz
Use data window  [Hanning window with taper rate: 0.500 (  513 pts)]
Ratio of tapered power to raw power:  0.50
(Power reduction is corrected based on this value)
Use spectral window [Parzen window with band width:  0.30000 Hz (Total   13 pts)]
Resulting degree of freedom:    65
Standard error:     0.176777 (the effects of cos taper & zero-padding considered)
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/wavud_wavud.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/wavew_wavew.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/wavns_wavns.d
<ESTSPEC>
NOICE:idrimag=    0 read only columns 1 and 2
No other columns are read
OUTPUT DIR: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2
 No. of Seismograms: 18
DATAFILE  1) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD1u.d
DATAFILE  2) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD2u.d
DATAFILE  3) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD3u.d
DATAFILE  4) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD4u.d
DATAFILE  5) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD5u.d
DATAFILE  6) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD6u.d
DATAFILE  7) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD1n.d
DATAFILE  8) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD2n.d
DATAFILE  9) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD3n.d
DATAFILE 10) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD4n.d
DATAFILE 11) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD5n.d
DATAFILE 12) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD6n.d
DATAFILE 13) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD1e.d
DATAFILE 14) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD2e.d
DATAFILE 15) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD3e.d
DATAFILE 16) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD4e.d
DATAFILE 17) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD5e.d
DATAFILE 18) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD6e.d

Cross-spectral density calculations (1:yes; 2: no)
   |  1  2  3  4  5  6  7  8  9 10 11 12 13 14 15 16 17 18
----------------------------------------------------------
  1|  1  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0
  2|  0  1  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0
  3|  0  0  1  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0
  4|  0  0  0  1  0  0  0  0  0  0  0  0  0  0  0  0  0  0
  5|  0  0  0  0  1  0  0  0  0  0  0  0  0  0  0  0  0  0
  6|  0  0  0  0  0  1  0  0  0  0  0  0  0  0  0  0  0  0
  7|  0  0  0  0  0  0  1  0  0  0  0  0  0  0  0  0  0  0
  8|  0  0  0  0  0  0  0  1  0  0  0  0  0  0  0  0  0  0
  9|  0  0  0  0  0  0  0  0  1  0  0  0  0  0  0  0  0  0
 10|  0  0  0  0  0  0  0  0  0  1  0  0  0  0  0  0  0  0
 11|  0  0  0  0  0  0  0  0  0  0  1  0  0  0  0  0  0  0
 12|  0  0  0  0  0  0  0  0  0  0  0  1  0  0  0  0  0  0
 13|  0  0  0  0  0  0  0  0  0  0  0  0  1  0  0  0  0  0
 14|  0  0  0  0  0  0  0  0  0  0  0  0  0  1  0  0  0  0
 15|  0  0  0  0  0  0  0  0  0  0  0  0  0  0  1  0  0  0
 16|  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  1  0  0
 17|  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  1  0
 18|  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  1

No. of segments:    10
Data segment duration: 10.240 s
dt           :  0.010 s
Total duration (zero-padded):   20.480s (   2048 pts)
Ratio of data length to total length (zero-padded):  0.500
(Power reduction is corrected based on this value)
Frequency interval:0.488E-01 Hz
Nyquist frequency : 50.0     Hz
Use data window  [Hanning window with taper rate: 0.500 (  513 pts)]
Ratio of tapered power to raw power:  0.50
(Power reduction is corrected based on this value)
Use spectral window [Parzen window with band width:  0.30000 Hz (Total   13 pts)]
Resulting degree of freedom:    65
Standard error:     0.176777 (the effects of cos taper & zero-padding considered)
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/SD1u_SD1u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/SD2u_SD2u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/SD3u_SD3u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/SD4u_SD4u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/SD5u_SD5u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/SD6u_SD6u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/SD1n_SD1n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/SD2n_SD2n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/SD3n_SD3n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/SD4n_SD4n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/SD5n_SD5n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/SD6n_SD6n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/SD1e_SD1e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/SD2e_SD2e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/SD3e_SD3e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/SD4e_SD4e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/SD5e_SD5e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/SD6e_SD6e.d
<SPECRATIO>
OUTPUT (for CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/spr_cca.d
OUTPUT (for SPAC)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/spr_spac.d
OUTPUT (for H0)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/spr_h0.d
OUTPUT (for MSC)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/coh2.d
Array radius: 0.018000 [km][from demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z0r.d.log]
OUTPUT (for NSR_Z)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/nsr.d
OUTPUT (for signal power)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/pow_signal.d
OUTPUT (for noise power)   demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/pow_noise.d
OUTPUT (for H1)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/spr_h1.d
OUTPUT (for V)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/spr_v.d
<SPECRATIO for horizontal components>
OUTPUT (for CCA-L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/sprh_cca_minus_L.d
OUTPUT (for CCA-R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/sprh_cca_minus_R.d
OUTPUT (for R/V)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/AmpRV_R.d
OUTPUT (for SPAC-L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/sprh_spac_minus_L.d
OUTPUT (for SPAC+L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/sprh_spac_plus_L.d
OUTPUT (for SPAC-R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/sprh_spac_minus_R.d
OUTPUT (for SPAC+R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/sprh_spac_plus_R.d
OUTPUT (for R/(R+L))  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/powratio_R2L.d
OUTPUT (for NSR_H)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/nsr_h.d
<SPECRATIO HV>
OUTPUT (for HV spectral ratio)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/spr_hv.d
<SPEC2PV>
Array radius: 0.018000 [km][from demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z0r.d.log]
OUTPUT (for CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/vel_cca.d
OUTPUT (for SPAC)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/vel_spac.d
OUTPUT (for H0)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/vel_h0.d
OUTPUT (for H1)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/vel_h1.d
OUTPUT (for V)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/vel_v.d
OUTPUT (for nc-CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/vel_cca.lwapx.d
OUTPUT (for NSR limit by CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/nsrlim_cca.d
OUTPUT (for NSR limit by nc-CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/nsrlim_cca.lwapx.d
<SPEC2PV for horizontal components>
Array radius: 0.018000 [km][from demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/R0r.d.log]
OUTPUT (for CCA-L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/velh_cca_minus_L.d
OUTPUT (for CCA-R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/velh_cca_minus_R.d
OUTPUT (for SPAC-L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/velh_spac_minus_L.d
OUTPUT (for SPAC+L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/velh_spac_plus_L.d
OUTPUT (for SPAC-R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/velh_spac_minus_R.d
OUTPUT (for SPAC+R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/2/velh_spac_plus_R.d

### Step 3 (Total 5) ###
<SETPAR>
-------------------------------------------------
Array geometry: centered 6-station array.
Array radius:  18. [m] 
Number of sensors at the center: 1
Number of sensors around the circle: 5
Data: all three components
-------------------------------------------------
Power spectral densities will be estimated.
horizontal-to-vertical spectral ratios will be estimated.
Rayleigh wave phase velocities will be estimated (by SPAC).
Rayleigh wave phase velocities will be estimated (by CCA).
Rayleigh wave phase velocities will be estimated (by ncCCA).
Rayleigh wave phase velocities will be estimated (by H0).
Rayleigh wave phase velocities will be estimated (by H1).
Rayleigh wave phase velocities will be estimated (by V).
Noise-to-signal ratios in the vertical component will be estimated.
Rayleigh wave phase velocities will be estimated (by CCA+R).
Rayleigh wave phase velocities will be estimated (by SPAC+R).
Rayleigh wave phase velocities will be estimated (by SPAC-R).
Love wave phase velocities will be estimated (by CCA+L).
Love wave phase velocities will be estimated (by SPAC+R).
Love wave phase velocities will be estimated (by SPAC-R).
H/V power partition ratios of the Rayleigh waves will be estimated.
Rayleigh-to-Love power partition ratios will be estimated.
Noise-to-signal ratios in the horizontal components will be estimated.
<ESTSPEC>
NOICE:idrimag=1, read columns 1-3
[column 1: time; 2: real part; 3: imaginary part]
OUTPUT DIR: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3
 No. of Seismograms: 9
DATAFILE  1) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/R10.d
DATAFILE  2) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/R0r.d
DATAFILE  3) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/R1r.d
DATAFILE  4) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/T10.d
DATAFILE  5) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/T0r.d
DATAFILE  6) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/T1r.d
DATAFILE  7) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z00.d
DATAFILE  8) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z0r.d
DATAFILE  9) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z1r.d

Cross-spectral density calculations (1:yes; 2: no)
   |  1  2  3  4  5  6  7  8  9
-------------------------------
  1|  1  1  1  1  1  0  0  0  0
  2|  1  1  1  0  0  0  0  0  0
  3|  0  1  1  0  1  1  0  0  0
  4|  0  1  0  0  1  1  0  0  0
  5|  0  1  0  1  1  1  0  0  0
  6|  0  1  0  0  1  1  0  0  0
  7|  0  0  0  0  0  0  1  1  0
  8|  0  0  0  0  0  0  1  1  0
  9|  0  0  1  0  0  1  0  0  1

No. of segments:    10
Data segment duration: 10.240 s
dt           :  0.010 s
Total duration (zero-padded):   20.480s (   2048 pts)
Ratio of data length to total length (zero-padded):  0.500
(Power reduction is corrected based on this value)
Frequency interval:0.488E-01 Hz
Nyquist frequency : 50.0     Hz
Use data window  [Hanning window with taper rate: 0.500 (  513 pts)]
Ratio of tapered power to raw power:  0.50
(Power reduction is corrected based on this value)
Use spectral window [Parzen window with band width:  0.30000 Hz (Total   13 pts)]
Resulting degree of freedom:    65
Standard error:     0.176777 (the effects of cos taper & zero-padding considered)
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/R10_R10.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/R10_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/R10_R1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/R10_T10.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/R10_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/R0r_R10.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/R0r_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/R0r_R1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/R1r_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/R1r_R1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/R1r_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/R1r_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/T10_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/T10_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/T10_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/T0r_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/T0r_T10.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/T0r_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/T0r_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/T1r_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/T1r_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/T1r_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/Z00_Z00.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/Z00_Z0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/Z0r_Z00.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/Z0r_Z0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/Z1r_R1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/Z1r_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/Z1r_Z1r.d
<ESTSPEC>
NOICE:idrimag=    0 read only columns 1 and 2
No other columns are read
OUTPUT DIR: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3
 No. of Seismograms: 3
DATAFILE  1) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/wavud.d
DATAFILE  2) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/wavew.d
DATAFILE  3) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/wavns.d

Cross-spectral density calculations (1:yes; 2: no)
   |  1  2  3
-------------
  1|  1  0  0
  2|  0  1  0
  3|  0  0  1

No. of segments:    10
Data segment duration: 10.240 s
dt           :  0.010 s
Total duration (zero-padded):   20.480s (   2048 pts)
Ratio of data length to total length (zero-padded):  0.500
(Power reduction is corrected based on this value)
Frequency interval:0.488E-01 Hz
Nyquist frequency : 50.0     Hz
Use data window  [Hanning window with taper rate: 0.500 (  513 pts)]
Ratio of tapered power to raw power:  0.50
(Power reduction is corrected based on this value)
Use spectral window [Parzen window with band width:  0.30000 Hz (Total   13 pts)]
Resulting degree of freedom:    65
Standard error:     0.176777 (the effects of cos taper & zero-padding considered)
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/wavud_wavud.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/wavew_wavew.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/wavns_wavns.d
<ESTSPEC>
NOICE:idrimag=    0 read only columns 1 and 2
No other columns are read
OUTPUT DIR: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3
 No. of Seismograms: 18
DATAFILE  1) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD1u.d
DATAFILE  2) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD2u.d
DATAFILE  3) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD3u.d
DATAFILE  4) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD4u.d
DATAFILE  5) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD5u.d
DATAFILE  6) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD6u.d
DATAFILE  7) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD1n.d
DATAFILE  8) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD2n.d
DATAFILE  9) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD3n.d
DATAFILE 10) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD4n.d
DATAFILE 11) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD5n.d
DATAFILE 12) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD6n.d
DATAFILE 13) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD1e.d
DATAFILE 14) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD2e.d
DATAFILE 15) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD3e.d
DATAFILE 16) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD4e.d
DATAFILE 17) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD5e.d
DATAFILE 18) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD6e.d

Cross-spectral density calculations (1:yes; 2: no)
   |  1  2  3  4  5  6  7  8  9 10 11 12 13 14 15 16 17 18
----------------------------------------------------------
  1|  1  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0
  2|  0  1  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0
  3|  0  0  1  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0
  4|  0  0  0  1  0  0  0  0  0  0  0  0  0  0  0  0  0  0
  5|  0  0  0  0  1  0  0  0  0  0  0  0  0  0  0  0  0  0
  6|  0  0  0  0  0  1  0  0  0  0  0  0  0  0  0  0  0  0
  7|  0  0  0  0  0  0  1  0  0  0  0  0  0  0  0  0  0  0
  8|  0  0  0  0  0  0  0  1  0  0  0  0  0  0  0  0  0  0
  9|  0  0  0  0  0  0  0  0  1  0  0  0  0  0  0  0  0  0
 10|  0  0  0  0  0  0  0  0  0  1  0  0  0  0  0  0  0  0
 11|  0  0  0  0  0  0  0  0  0  0  1  0  0  0  0  0  0  0
 12|  0  0  0  0  0  0  0  0  0  0  0  1  0  0  0  0  0  0
 13|  0  0  0  0  0  0  0  0  0  0  0  0  1  0  0  0  0  0
 14|  0  0  0  0  0  0  0  0  0  0  0  0  0  1  0  0  0  0
 15|  0  0  0  0  0  0  0  0  0  0  0  0  0  0  1  0  0  0
 16|  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  1  0  0
 17|  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  1  0
 18|  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  1

No. of segments:    10
Data segment duration: 10.240 s
dt           :  0.010 s
Total duration (zero-padded):   20.480s (   2048 pts)
Ratio of data length to total length (zero-padded):  0.500
(Power reduction is corrected based on this value)
Frequency interval:0.488E-01 Hz
Nyquist frequency : 50.0     Hz
Use data window  [Hanning window with taper rate: 0.500 (  513 pts)]
Ratio of tapered power to raw power:  0.50
(Power reduction is corrected based on this value)
Use spectral window [Parzen window with band width:  0.30000 Hz (Total   13 pts)]
Resulting degree of freedom:    65
Standard error:     0.176777 (the effects of cos taper & zero-padding considered)
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/SD1u_SD1u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/SD2u_SD2u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/SD3u_SD3u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/SD4u_SD4u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/SD5u_SD5u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/SD6u_SD6u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/SD1n_SD1n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/SD2n_SD2n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/SD3n_SD3n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/SD4n_SD4n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/SD5n_SD5n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/SD6n_SD6n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/SD1e_SD1e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/SD2e_SD2e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/SD3e_SD3e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/SD4e_SD4e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/SD5e_SD5e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/SD6e_SD6e.d
<SPECRATIO>
OUTPUT (for CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/spr_cca.d
OUTPUT (for SPAC)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/spr_spac.d
OUTPUT (for H0)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/spr_h0.d
OUTPUT (for MSC)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/coh2.d
Array radius: 0.018000 [km][from demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z0r.d.log]
OUTPUT (for NSR_Z)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/nsr.d
OUTPUT (for signal power)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/pow_signal.d
OUTPUT (for noise power)   demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/pow_noise.d
OUTPUT (for H1)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/spr_h1.d
OUTPUT (for V)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/spr_v.d
<SPECRATIO for horizontal components>
OUTPUT (for CCA-L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/sprh_cca_minus_L.d
OUTPUT (for CCA-R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/sprh_cca_minus_R.d
OUTPUT (for R/V)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/AmpRV_R.d
OUTPUT (for SPAC-L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/sprh_spac_minus_L.d
OUTPUT (for SPAC+L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/sprh_spac_plus_L.d
OUTPUT (for SPAC-R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/sprh_spac_minus_R.d
OUTPUT (for SPAC+R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/sprh_spac_plus_R.d
OUTPUT (for R/(R+L))  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/powratio_R2L.d
OUTPUT (for NSR_H)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/nsr_h.d
<SPECRATIO HV>
OUTPUT (for HV spectral ratio)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/spr_hv.d
<SPEC2PV>
Array radius: 0.018000 [km][from demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z0r.d.log]
OUTPUT (for CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/vel_cca.d
OUTPUT (for SPAC)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/vel_spac.d
OUTPUT (for H0)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/vel_h0.d
OUTPUT (for H1)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/vel_h1.d
OUTPUT (for V)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/vel_v.d
OUTPUT (for nc-CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/vel_cca.lwapx.d
OUTPUT (for NSR limit by CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/nsrlim_cca.d
OUTPUT (for NSR limit by nc-CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/nsrlim_cca.lwapx.d
<SPEC2PV for horizontal components>
Array radius: 0.018000 [km][from demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/R0r.d.log]
OUTPUT (for CCA-L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/velh_cca_minus_L.d
OUTPUT (for CCA-R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/velh_cca_minus_R.d
OUTPUT (for SPAC-L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/velh_spac_minus_L.d
OUTPUT (for SPAC+L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/velh_spac_plus_L.d
OUTPUT (for SPAC-R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/velh_spac_minus_R.d
OUTPUT (for SPAC+R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/3/velh_spac_plus_R.d

### Step 4 (Total 5) ###
<SETPAR>
-------------------------------------------------
Array geometry: centered 6-station array.
Array radius:  18. [m] 
Number of sensors at the center: 1
Number of sensors around the circle: 5
Data: all three components
-------------------------------------------------
Power spectral densities will be estimated.
horizontal-to-vertical spectral ratios will be estimated.
Rayleigh wave phase velocities will be estimated (by SPAC).
Rayleigh wave phase velocities will be estimated (by CCA).
Rayleigh wave phase velocities will be estimated (by ncCCA).
Rayleigh wave phase velocities will be estimated (by H0).
Rayleigh wave phase velocities will be estimated (by H1).
Rayleigh wave phase velocities will be estimated (by V).
Noise-to-signal ratios in the vertical component will be estimated.
Rayleigh wave phase velocities will be estimated (by CCA+R).
Rayleigh wave phase velocities will be estimated (by SPAC+R).
Rayleigh wave phase velocities will be estimated (by SPAC-R).
Love wave phase velocities will be estimated (by CCA+L).
Love wave phase velocities will be estimated (by SPAC+R).
Love wave phase velocities will be estimated (by SPAC-R).
H/V power partition ratios of the Rayleigh waves will be estimated.
Rayleigh-to-Love power partition ratios will be estimated.
Noise-to-signal ratios in the horizontal components will be estimated.
<ESTSPEC>
NOICE:idrimag=1, read columns 1-3
[column 1: time; 2: real part; 3: imaginary part]
OUTPUT DIR: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4
 No. of Seismograms: 9
DATAFILE  1) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/R10.d
DATAFILE  2) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/R0r.d
DATAFILE  3) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/R1r.d
DATAFILE  4) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/T10.d
DATAFILE  5) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/T0r.d
DATAFILE  6) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/T1r.d
DATAFILE  7) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z00.d
DATAFILE  8) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z0r.d
DATAFILE  9) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z1r.d

Cross-spectral density calculations (1:yes; 2: no)
   |  1  2  3  4  5  6  7  8  9
-------------------------------
  1|  1  1  1  1  1  0  0  0  0
  2|  1  1  1  0  0  0  0  0  0
  3|  0  1  1  0  1  1  0  0  0
  4|  0  1  0  0  1  1  0  0  0
  5|  0  1  0  1  1  1  0  0  0
  6|  0  1  0  0  1  1  0  0  0
  7|  0  0  0  0  0  0  1  1  0
  8|  0  0  0  0  0  0  1  1  0
  9|  0  0  1  0  0  1  0  0  1

No. of segments:    10
Data segment duration: 10.240 s
dt           :  0.010 s
Total duration (zero-padded):   20.480s (   2048 pts)
Ratio of data length to total length (zero-padded):  0.500
(Power reduction is corrected based on this value)
Frequency interval:0.488E-01 Hz
Nyquist frequency : 50.0     Hz
Use data window  [Hanning window with taper rate: 0.500 (  513 pts)]
Ratio of tapered power to raw power:  0.50
(Power reduction is corrected based on this value)
Use spectral window [Parzen window with band width:  0.30000 Hz (Total   13 pts)]
Resulting degree of freedom:    65
Standard error:     0.176777 (the effects of cos taper & zero-padding considered)
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/R10_R10.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/R10_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/R10_R1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/R10_T10.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/R10_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/R0r_R10.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/R0r_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/R0r_R1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/R1r_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/R1r_R1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/R1r_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/R1r_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/T10_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/T10_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/T10_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/T0r_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/T0r_T10.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/T0r_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/T0r_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/T1r_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/T1r_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/T1r_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/Z00_Z00.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/Z00_Z0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/Z0r_Z00.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/Z0r_Z0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/Z1r_R1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/Z1r_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/Z1r_Z1r.d
<ESTSPEC>
NOICE:idrimag=    0 read only columns 1 and 2
No other columns are read
OUTPUT DIR: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4
 No. of Seismograms: 3
DATAFILE  1) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/wavud.d
DATAFILE  2) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/wavew.d
DATAFILE  3) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/wavns.d

Cross-spectral density calculations (1:yes; 2: no)
   |  1  2  3
-------------
  1|  1  0  0
  2|  0  1  0
  3|  0  0  1

No. of segments:    10
Data segment duration: 10.240 s
dt           :  0.010 s
Total duration (zero-padded):   20.480s (   2048 pts)
Ratio of data length to total length (zero-padded):  0.500
(Power reduction is corrected based on this value)
Frequency interval:0.488E-01 Hz
Nyquist frequency : 50.0     Hz
Use data window  [Hanning window with taper rate: 0.500 (  513 pts)]
Ratio of tapered power to raw power:  0.50
(Power reduction is corrected based on this value)
Use spectral window [Parzen window with band width:  0.30000 Hz (Total   13 pts)]
Resulting degree of freedom:    65
Standard error:     0.176777 (the effects of cos taper & zero-padding considered)
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/wavud_wavud.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/wavew_wavew.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/wavns_wavns.d
<ESTSPEC>
NOICE:idrimag=    0 read only columns 1 and 2
No other columns are read
OUTPUT DIR: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4
 No. of Seismograms: 18
DATAFILE  1) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD1u.d
DATAFILE  2) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD2u.d
DATAFILE  3) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD3u.d
DATAFILE  4) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD4u.d
DATAFILE  5) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD5u.d
DATAFILE  6) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD6u.d
DATAFILE  7) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD1n.d
DATAFILE  8) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD2n.d
DATAFILE  9) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD3n.d
DATAFILE 10) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD4n.d
DATAFILE 11) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD5n.d
DATAFILE 12) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD6n.d
DATAFILE 13) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD1e.d
DATAFILE 14) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD2e.d
DATAFILE 15) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD3e.d
DATAFILE 16) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD4e.d
DATAFILE 17) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD5e.d
DATAFILE 18) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD6e.d

Cross-spectral density calculations (1:yes; 2: no)
   |  1  2  3  4  5  6  7  8  9 10 11 12 13 14 15 16 17 18
----------------------------------------------------------
  1|  1  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0
  2|  0  1  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0
  3|  0  0  1  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0
  4|  0  0  0  1  0  0  0  0  0  0  0  0  0  0  0  0  0  0
  5|  0  0  0  0  1  0  0  0  0  0  0  0  0  0  0  0  0  0
  6|  0  0  0  0  0  1  0  0  0  0  0  0  0  0  0  0  0  0
  7|  0  0  0  0  0  0  1  0  0  0  0  0  0  0  0  0  0  0
  8|  0  0  0  0  0  0  0  1  0  0  0  0  0  0  0  0  0  0
  9|  0  0  0  0  0  0  0  0  1  0  0  0  0  0  0  0  0  0
 10|  0  0  0  0  0  0  0  0  0  1  0  0  0  0  0  0  0  0
 11|  0  0  0  0  0  0  0  0  0  0  1  0  0  0  0  0  0  0
 12|  0  0  0  0  0  0  0  0  0  0  0  1  0  0  0  0  0  0
 13|  0  0  0  0  0  0  0  0  0  0  0  0  1  0  0  0  0  0
 14|  0  0  0  0  0  0  0  0  0  0  0  0  0  1  0  0  0  0
 15|  0  0  0  0  0  0  0  0  0  0  0  0  0  0  1  0  0  0
 16|  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  1  0  0
 17|  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  1  0
 18|  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  1

No. of segments:    10
Data segment duration: 10.240 s
dt           :  0.010 s
Total duration (zero-padded):   20.480s (   2048 pts)
Ratio of data length to total length (zero-padded):  0.500
(Power reduction is corrected based on this value)
Frequency interval:0.488E-01 Hz
Nyquist frequency : 50.0     Hz
Use data window  [Hanning window with taper rate: 0.500 (  513 pts)]
Ratio of tapered power to raw power:  0.50
(Power reduction is corrected based on this value)
Use spectral window [Parzen window with band width:  0.30000 Hz (Total   13 pts)]
Resulting degree of freedom:    65
Standard error:     0.176777 (the effects of cos taper & zero-padding considered)
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/SD1u_SD1u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/SD2u_SD2u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/SD3u_SD3u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/SD4u_SD4u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/SD5u_SD5u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/SD6u_SD6u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/SD1n_SD1n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/SD2n_SD2n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/SD3n_SD3n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/SD4n_SD4n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/SD5n_SD5n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/SD6n_SD6n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/SD1e_SD1e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/SD2e_SD2e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/SD3e_SD3e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/SD4e_SD4e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/SD5e_SD5e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/SD6e_SD6e.d
<SPECRATIO>
OUTPUT (for CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/spr_cca.d
OUTPUT (for SPAC)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/spr_spac.d
OUTPUT (for H0)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/spr_h0.d
OUTPUT (for MSC)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/coh2.d
Array radius: 0.018000 [km][from demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z0r.d.log]
OUTPUT (for NSR_Z)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/nsr.d
OUTPUT (for signal power)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/pow_signal.d
OUTPUT (for noise power)   demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/pow_noise.d
OUTPUT (for H1)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/spr_h1.d
OUTPUT (for V)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/spr_v.d
<SPECRATIO for horizontal components>
OUTPUT (for CCA-L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/sprh_cca_minus_L.d
OUTPUT (for CCA-R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/sprh_cca_minus_R.d
OUTPUT (for R/V)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/AmpRV_R.d
OUTPUT (for SPAC-L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/sprh_spac_minus_L.d
OUTPUT (for SPAC+L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/sprh_spac_plus_L.d
OUTPUT (for SPAC-R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/sprh_spac_minus_R.d
OUTPUT (for SPAC+R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/sprh_spac_plus_R.d
OUTPUT (for R/(R+L))  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/powratio_R2L.d
OUTPUT (for NSR_H)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/nsr_h.d
<SPECRATIO HV>
OUTPUT (for HV spectral ratio)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/spr_hv.d
<SPEC2PV>
Array radius: 0.018000 [km][from demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z0r.d.log]
OUTPUT (for CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/vel_cca.d
OUTPUT (for SPAC)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/vel_spac.d
OUTPUT (for H0)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/vel_h0.d
OUTPUT (for H1)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/vel_h1.d
OUTPUT (for V)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/vel_v.d
OUTPUT (for nc-CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/vel_cca.lwapx.d
OUTPUT (for NSR limit by CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/nsrlim_cca.d
OUTPUT (for NSR limit by nc-CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/nsrlim_cca.lwapx.d
<SPEC2PV for horizontal components>
Array radius: 0.018000 [km][from demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/R0r.d.log]
OUTPUT (for CCA-L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/velh_cca_minus_L.d
OUTPUT (for CCA-R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/velh_cca_minus_R.d
OUTPUT (for SPAC-L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/velh_spac_minus_L.d
OUTPUT (for SPAC+L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/velh_spac_plus_L.d
OUTPUT (for SPAC-R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/velh_spac_minus_R.d
OUTPUT (for SPAC+R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/4/velh_spac_plus_R.d

### Step 5 (Total 5) ###
<SETPAR>
-------------------------------------------------
Array geometry: centered 6-station array.
Array radius:  18. [m] 
Number of sensors at the center: 1
Number of sensors around the circle: 5
Data: all three components
-------------------------------------------------
Power spectral densities will be estimated.
horizontal-to-vertical spectral ratios will be estimated.
Rayleigh wave phase velocities will be estimated (by SPAC).
Rayleigh wave phase velocities will be estimated (by CCA).
Rayleigh wave phase velocities will be estimated (by ncCCA).
Rayleigh wave phase velocities will be estimated (by H0).
Rayleigh wave phase velocities will be estimated (by H1).
Rayleigh wave phase velocities will be estimated (by V).
Noise-to-signal ratios in the vertical component will be estimated.
Rayleigh wave phase velocities will be estimated (by CCA+R).
Rayleigh wave phase velocities will be estimated (by SPAC+R).
Rayleigh wave phase velocities will be estimated (by SPAC-R).
Love wave phase velocities will be estimated (by CCA+L).
Love wave phase velocities will be estimated (by SPAC+R).
Love wave phase velocities will be estimated (by SPAC-R).
H/V power partition ratios of the Rayleigh waves will be estimated.
Rayleigh-to-Love power partition ratios will be estimated.
Noise-to-signal ratios in the horizontal components will be estimated.
<ESTSPEC>
NOICE:idrimag=1, read columns 1-3
[column 1: time; 2: real part; 3: imaginary part]
OUTPUT DIR: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5
 No. of Seismograms: 9
DATAFILE  1) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/R10.d
DATAFILE  2) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/R0r.d
DATAFILE  3) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/R1r.d
DATAFILE  4) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/T10.d
DATAFILE  5) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/T0r.d
DATAFILE  6) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/T1r.d
DATAFILE  7) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z00.d
DATAFILE  8) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z0r.d
DATAFILE  9) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z1r.d

Cross-spectral density calculations (1:yes; 2: no)
   |  1  2  3  4  5  6  7  8  9
-------------------------------
  1|  1  1  1  1  1  0  0  0  0
  2|  1  1  1  0  0  0  0  0  0
  3|  0  1  1  0  1  1  0  0  0
  4|  0  1  0  0  1  1  0  0  0
  5|  0  1  0  1  1  1  0  0  0
  6|  0  1  0  0  1  1  0  0  0
  7|  0  0  0  0  0  0  1  1  0
  8|  0  0  0  0  0  0  1  1  0
  9|  0  0  1  0  0  1  0  0  1

No. of segments:    10
Data segment duration: 10.240 s
dt           :  0.010 s
Total duration (zero-padded):   20.480s (   2048 pts)
Ratio of data length to total length (zero-padded):  0.500
(Power reduction is corrected based on this value)
Frequency interval:0.488E-01 Hz
Nyquist frequency : 50.0     Hz
Use data window  [Hanning window with taper rate: 0.500 (  513 pts)]
Ratio of tapered power to raw power:  0.50
(Power reduction is corrected based on this value)
Use spectral window [Parzen window with band width:  0.30000 Hz (Total   13 pts)]
Resulting degree of freedom:    65
Standard error:     0.176777 (the effects of cos taper & zero-padding considered)
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/R10_R10.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/R10_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/R10_R1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/R10_T10.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/R10_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/R0r_R10.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/R0r_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/R0r_R1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/R1r_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/R1r_R1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/R1r_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/R1r_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/T10_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/T10_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/T10_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/T0r_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/T0r_T10.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/T0r_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/T0r_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/T1r_R0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/T1r_T0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/T1r_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/Z00_Z00.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/Z00_Z0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/Z0r_Z00.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/Z0r_Z0r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/Z1r_R1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/Z1r_T1r.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/Z1r_Z1r.d
<ESTSPEC>
NOICE:idrimag=    0 read only columns 1 and 2
No other columns are read
OUTPUT DIR: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5
 No. of Seismograms: 3
DATAFILE  1) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/wavud.d
DATAFILE  2) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/wavew.d
DATAFILE  3) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/wavns.d

Cross-spectral density calculations (1:yes; 2: no)
   |  1  2  3
-------------
  1|  1  0  0
  2|  0  1  0
  3|  0  0  1

No. of segments:    10
Data segment duration: 10.240 s
dt           :  0.010 s
Total duration (zero-padded):   20.480s (   2048 pts)
Ratio of data length to total length (zero-padded):  0.500
(Power reduction is corrected based on this value)
Frequency interval:0.488E-01 Hz
Nyquist frequency : 50.0     Hz
Use data window  [Hanning window with taper rate: 0.500 (  513 pts)]
Ratio of tapered power to raw power:  0.50
(Power reduction is corrected based on this value)
Use spectral window [Parzen window with band width:  0.30000 Hz (Total   13 pts)]
Resulting degree of freedom:    65
Standard error:     0.176777 (the effects of cos taper & zero-padding considered)
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/wavud_wavud.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/wavew_wavew.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/wavns_wavns.d
<ESTSPEC>
NOICE:idrimag=    0 read only columns 1 and 2
No other columns are read
OUTPUT DIR: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5
 No. of Seismograms: 18
DATAFILE  1) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD1u.d
DATAFILE  2) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD2u.d
DATAFILE  3) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD3u.d
DATAFILE  4) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD4u.d
DATAFILE  5) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD5u.d
DATAFILE  6) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD6u.d
DATAFILE  7) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD1n.d
DATAFILE  8) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD2n.d
DATAFILE  9) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD3n.d
DATAFILE 10) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD4n.d
DATAFILE 11) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD5n.d
DATAFILE 12) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD6n.d
DATAFILE 13) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD1e.d
DATAFILE 14) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD2e.d
DATAFILE 15) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD3e.d
DATAFILE 16) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD4e.d
DATAFILE 17) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD5e.d
DATAFILE 18) demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/cpwav/SD6e.d

Cross-spectral density calculations (1:yes; 2: no)
   |  1  2  3  4  5  6  7  8  9 10 11 12 13 14 15 16 17 18
----------------------------------------------------------
  1|  1  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0
  2|  0  1  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0
  3|  0  0  1  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0
  4|  0  0  0  1  0  0  0  0  0  0  0  0  0  0  0  0  0  0
  5|  0  0  0  0  1  0  0  0  0  0  0  0  0  0  0  0  0  0
  6|  0  0  0  0  0  1  0  0  0  0  0  0  0  0  0  0  0  0
  7|  0  0  0  0  0  0  1  0  0  0  0  0  0  0  0  0  0  0
  8|  0  0  0  0  0  0  0  1  0  0  0  0  0  0  0  0  0  0
  9|  0  0  0  0  0  0  0  0  1  0  0  0  0  0  0  0  0  0
 10|  0  0  0  0  0  0  0  0  0  1  0  0  0  0  0  0  0  0
 11|  0  0  0  0  0  0  0  0  0  0  1  0  0  0  0  0  0  0
 12|  0  0  0  0  0  0  0  0  0  0  0  1  0  0  0  0  0  0
 13|  0  0  0  0  0  0  0  0  0  0  0  0  1  0  0  0  0  0
 14|  0  0  0  0  0  0  0  0  0  0  0  0  0  1  0  0  0  0
 15|  0  0  0  0  0  0  0  0  0  0  0  0  0  0  1  0  0  0
 16|  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  1  0  0
 17|  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  1  0
 18|  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  0  1

No. of segments:    10
Data segment duration: 10.240 s
dt           :  0.010 s
Total duration (zero-padded):   20.480s (   2048 pts)
Ratio of data length to total length (zero-padded):  0.500
(Power reduction is corrected based on this value)
Frequency interval:0.488E-01 Hz
Nyquist frequency : 50.0     Hz
Use data window  [Hanning window with taper rate: 0.500 (  513 pts)]
Ratio of tapered power to raw power:  0.50
(Power reduction is corrected based on this value)
Use spectral window [Parzen window with band width:  0.30000 Hz (Total   13 pts)]
Resulting degree of freedom:    65
Standard error:     0.176777 (the effects of cos taper & zero-padding considered)
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/SD1u_SD1u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/SD2u_SD2u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/SD3u_SD3u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/SD4u_SD4u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/SD5u_SD5u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/SD6u_SD6u.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/SD1n_SD1n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/SD2n_SD2n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/SD3n_SD3n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/SD4n_SD4n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/SD5n_SD5n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/SD6n_SD6n.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/SD1e_SD1e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/SD2e_SD2e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/SD3e_SD3e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/SD4e_SD4e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/SD5e_SD5e.d
OUTPUT (CSD): demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/SD6e_SD6e.d
<SPECRATIO>
OUTPUT (for CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/spr_cca.d
OUTPUT (for SPAC)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/spr_spac.d
OUTPUT (for H0)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/spr_h0.d
OUTPUT (for MSC)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/coh2.d
Array radius: 0.018000 [km][from demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z0r.d.log]
OUTPUT (for NSR_Z)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/nsr.d
OUTPUT (for signal power)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/pow_signal.d
OUTPUT (for noise power)   demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/pow_noise.d
OUTPUT (for H1)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/spr_h1.d
OUTPUT (for V)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/spr_v.d
<SPECRATIO for horizontal components>
OUTPUT (for CCA-L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/sprh_cca_minus_L.d
OUTPUT (for CCA-R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/sprh_cca_minus_R.d
OUTPUT (for R/V)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/AmpRV_R.d
OUTPUT (for SPAC-L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/sprh_spac_minus_L.d
OUTPUT (for SPAC+L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/sprh_spac_plus_L.d
OUTPUT (for SPAC-R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/sprh_spac_minus_R.d
OUTPUT (for SPAC+R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/sprh_spac_plus_R.d
OUTPUT (for R/(R+L))  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/powratio_R2L.d
OUTPUT (for NSR_H)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/nsr_h.d
<SPECRATIO HV>
OUTPUT (for HV spectral ratio)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/spr_hv.d
<SPEC2PV>
Array radius: 0.018000 [km][from demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/Z0r.d.log]
OUTPUT (for CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/vel_cca.d
OUTPUT (for SPAC)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/vel_spac.d
OUTPUT (for H0)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/vel_h0.d
OUTPUT (for H1)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/vel_h1.d
OUTPUT (for V)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/vel_v.d
OUTPUT (for nc-CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/vel_cca.lwapx.d
OUTPUT (for NSR limit by CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/nsrlim_cca.d
OUTPUT (for NSR limit by nc-CCA)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/nsrlim_cca.lwapx.d
<SPEC2PV for horizontal components>
Array radius: 0.018000 [km][from demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/R0r.d.log]
OUTPUT (for CCA-L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/velh_cca_minus_L.d
OUTPUT (for CCA-R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/velh_cca_minus_R.d
OUTPUT (for SPAC-L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/velh_spac_minus_L.d
OUTPUT (for SPAC+L)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/velh_spac_plus_L.d
OUTPUT (for SPAC-R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/velh_spac_minus_R.d
OUTPUT (for SPAC+R)  demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/5/velh_spac_plus_R.d

Averaging over 5 segment clusters...
For the sake of robustness, the maximum and minimum values (plus non-numbers (ex. NaN)) are eliminated from the averaging process when the number of segment clusters exceeds NROBUST4AVERAGE_INC (defined in the file PARAM.h). Read the file demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/ave.info for details.

OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/vel_cca.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/vel_cca.lwapx.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/vel_h0.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/vel_h1.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/vel_spac.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/vel_v.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/velh_cca_minus_L.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/velh_cca_minus_R.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/velh_spac_minus_L.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/velh_spac_minus_R.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/velh_spac_plus_L.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/velh_spac_plus_R.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/AmpRV_R.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/powratio_R2L.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/nsr.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/nsr_h.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/nsrlim_cca.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/nsrlim_cca.lwapx.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/spr_hv.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/SD1e_SD1e.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/SD1n_SD1n.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/SD1u_SD1u.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/SD2e_SD2e.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/SD2n_SD2n.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/SD2u_SD2u.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/SD3e_SD3e.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/SD3n_SD3n.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/SD3u_SD3u.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/SD4e_SD4e.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/SD4n_SD4n.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/SD4u_SD4u.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/SD5e_SD5e.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/SD5n_SD5n.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/SD5u_SD5u.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/SD6e_SD6e.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/SD6n_SD6n.d
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/ave/SD6u_SD6u.d

<mkgnplt.sh>
NOTE: This script uses a program gnuplot to plot the analysis results (all analysis results are contained in demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT). You can manually plot the same figures later, using a gnuplot macro, plot.gnplt, which was created by this script and is found in demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT. To do this, type cd demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT & gnuplot plot.gnplt
OUTPUT: demo/synth_SN100_18mGamR0.8RV0.1N6/RESULT/plot.gnplt
/

<mkdelete.sh>
/
All temporary files preserved.