1 150 183 100 1
1 183 5
data -0.005
10 0.16 0.274 0.005
0.1 .001 1
0
1
1
.05
1
0
2
0
/* Comments */
Line 1: Data files [1], Number of diff_coefficients [50,100,150],
Number of data points in sample [nchan],
Number of iterations[niter], Number of cycles i.e. restarts with different
init values [ncycle].
Line 2: channel number of the 1st FCS data [1].
channel number of the end of FCS data [nchan],
Optimization range [0 for first data onwards; +5 will
exclude first 5 data points.
Line 3: Filename of the FCS data. ( t (msec) vs I, intensity). Value to be added to I.
Line 4: nmol-Number of molecules in fcs volume, ads factor-ratio of short to
long axis of the 'elliptical' FCS spot, ftrip-Fraction of triplet,
tau_trip- Triplet lifetime in msec. Pl note lifetime in msec. ;
Line 5: Inital value of flat distribution is [G(0)-1]/N,
lower value tau, upper value for tau (msec;same unit as in input data).
Line 6: 1 if distribution of Tau has to be read from a file,
0 otherwise.
Line 7: Option for truncation of negative amplitudes:
0 - no truncation,
1 - truncate to zero,
2 - truncate rapidly on successive itreations,
3 - truncate slowly on successive iterations.
Line 8: Data Reduction Factor (DRF). Value 1,2,3 or 4.
Line 9: Length factor; 0.02 to 5. (lower value for slow convergence,
higher value for rapid convergence but likely to be erratic)
Line 10: S definition option. 1-S=-ulnu; 2-S=-lnu; 3-S=-sqrt(u)
Line 11: 0 Log(tau); 1 Linear tau
Line 12: Noise_option. 1 for sigma=1.; 0 for sigma=constant/sqrt(t); 2 for SD data read from the file.
Line 13: Lowest chisq expected: 1 (if SD is given) or 0 (otherwise).