|  | programmer's documentation | 
|   | 
| Variables | |
| integer(c_int), pointer, save | ntpabs | 
| Absolute time step number for previous calculation.  More... | |
| integer(c_int), pointer, save | ntcabs | 
| Current absolute time step number. In case of restart, this is equal to ntpabs + number of new iterations.  More... | |
| integer(c_int), pointer, save | ntmabs | 
| Maximum absolute time step number.  More... | |
| real(c_double), pointer, save | ttpabs | 
| Absolute time value for previous calculation.  More... | |
| real(c_double), pointer, save | ttcabs | 
| Current absolute time. In case of restart, this is equal to ttpabs + additional computed time.  More... | |
| real(c_double), pointer, save | ttmabs | 
| Maximum absolute time.  More... | |
| integer, save | inpdt0 | 
| indicator "zero time step"  More... | |
| integer, save | iptlro | 
| Clip the time step with respect to the buoyant effects.  More... | |
| integer, save | idtvar | 
| option for a variable time step  More... | |
| double precision, save | dtref | 
| reference time step  More... | |
| double precision, save | coumax | 
| maximum Courant number (when idtvar is different from 0)  More... | |
| double precision, save | cflmmx | 
| maximum Courant number for the continuity equation in compressible model  More... | |
| double precision, save | foumax | 
| maximum Fourier number (when idtvar is different from 0)  More... | |
| double precision, save | varrdt | 
| relative allowed variation of dt (when idtvar is different from 0)  More... | |
| double precision, save | dtmin | 
| minimum value of dt (when idtvar is different from 0). Take dtmin = min (ld/ud, sqrt(lt/(gdelta rho/rho)), ...)  More... | |
| double precision, save | dtmax | 
| maximum value of dt (when idtvar is different from 0). Take dtmax = max (ld/ud, sqrt(lt/(gdelta rho/rho)), ...)  More... | |
| double precision, dimension(nvarmx), save | cdtvar | 
| multiplicator coefficient for the time step of each variable  More... | |
| double precision, dimension(nvarmx), save | relaxv | 
| relaxation of variables (1 stands fo no relaxation)  More... | |
| double precision, save | relxst | 
| relaxation coefficient for the stationary algorithm  More... | |
| double precision, dimension(nvarmx), save cdtvar | 
multiplicator coefficient for the time step of each variable
| double precision, save cflmmx | 
maximum Courant number for the continuity equation in compressible model
| double precision, save coumax | 
maximum Courant number (when idtvar is different from 0)
| double precision, save dtmax | 
maximum value of dt (when idtvar is different from 0). Take dtmax = max (ld/ud, sqrt(lt/(gdelta rho/rho)), ...)
| double precision, save dtmin | 
minimum value of dt (when idtvar is different from 0). Take dtmin = min (ld/ud, sqrt(lt/(gdelta rho/rho)), ...)
| double precision, save dtref | 
reference time step
| double precision, save foumax | 
maximum Fourier number (when idtvar is different from 0)
| integer, save idtvar | 
option for a variable time step
| integer, save inpdt0 | 
indicator "zero time step"
| integer, save iptlro | 
Clip the time step with respect to the buoyant effects.
| integer(c_int), pointer, save ntcabs | 
Current absolute time step number. In case of restart, this is equal to ntpabs + number of new iterations.
| integer(c_int), pointer, save ntmabs | 
Maximum absolute time step number.
| integer(c_int), pointer, save ntpabs | 
Absolute time step number for previous calculation.
| double precision, dimension(nvarmx), save relaxv | 
relaxation of variables (1 stands fo no relaxation)
| double precision, save relxst | 
relaxation coefficient for the stationary algorithm
| real(c_double), pointer, save ttcabs | 
Current absolute time. In case of restart, this is equal to ttpabs + additional computed time.
| real(c_double), pointer, save ttmabs | 
Maximum absolute time.
| real(c_double), pointer, save ttpabs | 
Absolute time value for previous calculation.
| double precision, save varrdt | 
relative allowed variation of dt (when idtvar is different from 0)
 1.8.3.1
 1.8.3.1