[914] | 1 | MODULE compute_velocity_mod |
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| 2 | USE icosa |
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| 3 | USE caldyn_vars_mod |
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| 4 | IMPLICIT NONE |
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| 5 | PRIVATE |
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| 6 | |
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| 7 | PUBLIC :: velocity |
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| 8 | |
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| 9 | CONTAINS |
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| 10 | |
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| 11 | !------------------- Conversion from momentum to horizontal velocity ------------------ |
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| 12 | |
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| 13 | SUBROUTINE velocity(f_geopot, f_ps, f_rhodz, f_u, f_W, f_buf_Fel, f_uh, f_uz) |
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| 14 | USE disvert_mod, ONLY : caldyn_eta, eta_mass |
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| 15 | USE compute_diagnostics_mod, ONLY : compute_rhodz |
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| 16 | TYPE(t_field), POINTER :: f_geopot(:), f_ps(:), f_rhodz(:), & |
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| 17 | f_u(:), f_W(:), & ! IN |
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| 18 | f_buf_Fel(:), & ! BUF |
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| 19 | f_uh(:), f_uz(:) ! OUT |
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| 20 | REAL(rstd),POINTER :: geopot(:,:), ps(:), rhodz(:,:), u(:,:), W(:,:), uh(:,:), uz(:,:), F_el(:,:) |
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| 21 | INTEGER :: ind |
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| 22 | |
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| 23 | DO ind=1,ndomain |
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| 24 | IF (.NOT. assigned_domain(ind)) CYCLE |
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| 25 | CALL swap_dimensions(ind) |
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| 26 | CALL swap_geometry(ind) |
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| 27 | geopot = f_geopot(ind) |
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| 28 | rhodz = f_rhodz(ind) |
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| 29 | u = f_u(ind) |
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| 30 | W = f_W(ind) |
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| 31 | uh = f_uh(ind) |
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| 32 | F_el = f_buf_Fel(ind) |
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| 33 | IF(caldyn_eta==eta_mass) THEN |
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| 34 | ps=f_ps(ind) |
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| 35 | CALL compute_rhodz(.TRUE., ps, rhodz) |
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| 36 | END IF |
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| 37 | uz = f_uz(ind) |
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| 38 | !$OMP BARRIER |
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| 39 | CALL compute_velocity(geopot,rhodz,u,W, F_el, uh,uz) |
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| 40 | !$OMP BARRIER |
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| 41 | END DO |
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| 42 | END SUBROUTINE velocity |
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| 43 | |
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| 44 | SUBROUTINE compute_velocity(Phi, rhodz, u, W, F_el, uh, uz) |
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| 45 | USE omp_para |
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| 46 | REAL(rstd), INTENT(IN) :: Phi(iim*jjm,llm+1) |
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| 47 | REAL(rstd), INTENT(IN) :: rhodz(iim*jjm,llm) |
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| 48 | REAL(rstd), INTENT(IN) :: u(3*iim*jjm,llm) |
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| 49 | REAL(rstd), INTENT(IN) :: W(iim*jjm,llm+1) |
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| 50 | REAL(rstd), INTENT(OUT) :: uh(3*iim*jjm,llm) |
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| 51 | REAL(rstd), INTENT(OUT) :: uz(iim*jjm,llm) |
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| 52 | INTEGER :: ij,l |
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| 53 | REAL(rstd) :: F_el(3*iim*jjm,llm+1) |
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| 54 | REAL(rstd) :: uu_right, uu_lup, uu_ldown, W_el, DePhil |
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| 55 | ! NB : u and uh are not in DEC form, they are normal components |
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| 56 | ! => we must divide by de |
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| 57 | IF(hydrostatic) THEN |
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| 58 | uh(:,:)=u(:,:) |
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| 59 | uz(:,:)=0. |
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| 60 | ELSE |
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| 61 | DO l=ll_begin, ll_endp1 ! compute on l levels (interfaces) |
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| 62 | DO ij=ij_begin_ext, ij_end_ext |
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| 63 | ! Compute on edge 'right' |
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| 64 | W_el = .5*( W(ij,l)+W(ij+t_right,l) ) |
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| 65 | DePhil = ne_right*(Phi(ij+t_right,l)-Phi(ij,l)) |
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| 66 | F_el(ij+u_right,l) = DePhil*W_el/de(ij+u_right) |
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| 67 | ! Compute on edge 'lup' |
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| 68 | W_el = .5*( W(ij,l)+W(ij+t_lup,l) ) |
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| 69 | DePhil = ne_lup*(Phi(ij+t_lup,l)-Phi(ij,l)) |
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| 70 | F_el(ij+u_lup,l) = DePhil*W_el/de(ij+u_lup) |
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| 71 | ! Compute on edge 'ldown' |
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| 72 | W_el = .5*( W(ij,l)+W(ij+t_ldown,l) ) |
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| 73 | DePhil = ne_ldown*(Phi(ij+t_ldown,l)-Phi(ij,l)) |
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| 74 | F_el(ij+u_ldown,l) = DePhil*W_el/de(ij+u_ldown) |
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| 75 | END DO |
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| 76 | END DO |
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| 77 | |
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| 78 | ! We need a barrier here because we compute F_el above and do a vertical average below |
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| 79 | !$OMP BARRIER |
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| 80 | |
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| 81 | DO l=ll_begin, ll_end ! compute on k levels (full levels) |
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| 82 | DO ij=ij_begin_ext, ij_end_ext |
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| 83 | ! w = vertical momentum = g^-2*dPhi/dt = uz/g |
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| 84 | uz(ij,l) = (.5*g)*(W(ij,l)+W(ij,l+1))/rhodz(ij,l) |
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| 85 | ! uh = u-w.grad(Phi) = u - uz.grad(z) |
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| 86 | uh(ij+u_right,l) = u(ij+u_right,l) - (F_el(ij+u_right,l)+F_el(ij+u_right,l+1)) / (rhodz(ij,l)+rhodz(ij+t_right,l)) |
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| 87 | uh(ij+u_lup,l) = u(ij+u_lup,l) - (F_el(ij+u_lup,l)+F_el(ij+u_lup,l+1)) / (rhodz(ij,l)+rhodz(ij+t_lup,l)) |
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| 88 | uh(ij+u_ldown,l) = u(ij+u_ldown,l) - (F_el(ij+u_ldown,l)+F_el(ij+u_ldown,l+1)) / (rhodz(ij,l)+rhodz(ij+t_ldown,l)) |
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| 89 | END DO |
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| 90 | END DO |
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| 91 | |
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| 92 | END IF |
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| 93 | END SUBROUTINE compute_velocity |
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| 94 | |
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| 95 | END MODULE compute_velocity_mod |
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