SUBROUTINE cv3_inip() ! ******************************************************************* ! * * ! CV3_INIP Input = choice of mixing probability laws * ! Output = normalized coefficients of the probability laws. * ! * * ! written by : Jean-Yves Grandpeix, 06/06/2006, 19.39.27 * ! modified by : * ! ******************************************************************* ! !---------------------------------------------- ! INPUT (from Common YOMCST2 in "YOMCST2.h") : ! iflag_mix ! gammas ! alphas ! betas ! Fmax ! scut ! !---------------------------------------------- ! INPUT/OUTPUT (from and to Common YOMCST2 in "YOMCST2.h") : ! qqa1 ! qqa2 ! !---------------------------------------------- ! OUTPUT (to Common YOMCST2 in "YOMCST2.h") : ! Qcoef1max ! Qcoef2max ! !---------------------------------------------- USE print_control_mod, ONLY: prt_level, lunout IMPLICIT NONE include "YOMCST2.h" !---------------------------------------------- ! Local variables : CHARACTER (LEN=20) :: modname = 'cv3_inip' CHARACTER (LEN=80) :: abort_message REAL :: sumcoef REAL :: sigma, aire, pdf, mu, df REAL :: ff ! -- Mixing probability distribution functions REAL qcoef1, qcoef2, qff, qfff, qmix, rmix, qmix1, rmix1, qmix2, rmix2, f qcoef1(f) = tanh(f/gammas) qcoef2(f) = (tanh(f/gammas)+gammas*log(cosh((1.-f)/gammas)/cosh(f/gammas))) qff(f) = max(min(f,1.), 0.) qfff(f) = min(qff(f), scut) qmix1(f) = (tanh((qff(f)-fmax)/gammas)+qcoef1max)/qcoef2max rmix1(f) = (gammas*log(cosh((qff(f)-fmax)/gammas))+qff(f)*qcoef1max)/ & qcoef2max qmix2(f) = -log(1.-qfff(f))/scut rmix2(f) = (qfff(f)+(1.-qff(f))*log(1.-qfff(f)))/scut qmix(f) = qqa1*qmix1(f) + qqa2*qmix2(f) rmix(f) = qqa1*rmix1(f) + qqa2*rmix2(f) ! cccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccc ! =========================================================================== ! READ IN PARAMETERS FOR THE MIXING DISTRIBUTION ! AND PASS THESE THROUGH A COMMON BLOCK TO SUBROUTINE CONVECT etc. ! (Written by V.T.J. Phillips, 20-30/Jan/99) ! =========================================================================== ! line 1: a flag (0 or 1) to decide whether P(F) = 1 or the general P(F) ! is to be ! used, followed by SCUT, which is the cut-off value of F in CONVECT ! line 2: blank ! line 3: the coefficients for the linear combination of P(F)s to ! make the general P(F) ! line 4: blank ! line 5: gammas, Fmax for the cosh^2 component of P(F) ! line 6: blank ! line 7: alphas for the 1st irrational P(F) ! line 8: blank ! line 9: betas for the 2nd irrational P(F) ! c$$$ open(57,file='parameter_mix.data') ! c$$$ ! c$$$ read(57,*) iflag_mix, scut ! c$$$ read(57,*) ! c$$$ if(iflag_mix .gt. 0) then ! c$$$ read(57,*) qqa1, qqa2 ! c$$$ read(57,*) ! c$$$ read(57,*) gammas, Fmax ! c$$$ read(57,*) ! c$$$ read(57,*) alphas ! c$$$ endif ! c$$$ close(57) IF (iflag_mix>0) THEN ! -- Normalize Pdf weights sumcoef = qqa1 + qqa2 qqa1 = qqa1/sumcoef qqa2 = qqa2/sumcoef qcoef1max = qcoef1(fmax) qcoef2max = qcoef2(fmax) sigma = 0. aire = 0.0 pdf = 0.0 mu = 0.0 df = 0.0001 ! do ff = 0.0 + df, 1.0 - 2.*df, df ff = df DO WHILE (ff<=1.0-2.*df) pdf = (qmix(ff+df)-qmix(ff))*(1.-ff)/df aire = aire + (qmix(ff+df)-qmix(ff))*(1.-ff) mu = mu + pdf*ff*df IF (prt_level>9) WRITE (lunout, *) pdf, qmix(ff), aire, ff ff = ff + df END DO ! do ff=0.0+df,1.0 - 2.*df,df ff = df DO WHILE (ff<=1.0-2.*df) pdf = (qmix(ff+df)-qmix(ff))*(1.-ff)/df sigma = sigma + pdf*(ff-mu)*(ff-mu)*df ff = ff + df END DO sigma = sqrt(sigma) IF (abs(aire-1.0)>0.02) THEN WRITE (lunout, *) 'WARNING:: AREA OF MIXING PDF IS::', aire abort_message = '' CALL abort_physic(modname, abort_message, 1) ELSE PRINT *, 'Area, mean & std deviation are ::', aire, mu, sigma END IF END IF ! (iflag_mix .gt. 0) RETURN END SUBROUTINE cv3_inip