_Alps200921     _Alps orogen, model year and number
3.000E4         L0 = length of fault trace whose offset rate gets unit weight (in m)
8.100E9         A0 = area of continuum whose stiffness & isotropy gets unit weight (in m**2)
20              refinements (for nonlinearity) allowed in this solution
5.0E-16         mu_ = scalar measure of typical anelastic strain rates in continuum (/s)
3.2E-17         xi_ = small strain-rate increment, in /s  (Not TOO small!)
20.             sigma, in degrees, of angle between [heave vectors of dip-slip faults] & [trace-normal direction]
6371.           radius of planet, in kilometers
 1.   12.       minimum and maximum locking depths of intraplate faults, in km
14.   40.       minimum and maximum locking depths of subduction zones, in km
FALSE           switch: Do active faults give sigma_1h direction data?
f_Alps_2009_04_16.nki      filename of fault offset rates (or, 'none')
f_Alps_2009_01_21.dig      filename of digitized fault traces (or, 'none')
s_Alps.nki                 filename of horizontal principal stress directions (or, 'none')
g_Alps_merged.gps          filename of geodetic velocity data (or, 'none")
none            filename of covariance matrix for geodetic velocity components (or, 'none')
FALSE           switch: Is velocity reference frame allowed to free-float?
FALSE           conservative_geodetic_adjustment? (uses geologic slip rates; not self-consistent)
Alps8C.feg      filename of finite element grid (required)
b_Alps8C.nki    filename of boundary conditions for finite element grid (required)
EU              plate defining velocity reference frame for type-4 boundary conditions
FALSE           that velocity solutions from all iterations will be written to v_log.nko