28 integer(kind=kint),
intent(in) :: sym
64 real(kind=
kreal),
intent(in) :: r(:)
65 real(kind=
kreal),
intent(out) :: z(:), zp(:)
66 real(kind=
kreal),
intent(inout) :: time_precond
67 real(kind=
kreal),
intent(inout) :: commtime
68 integer(kind=kint ) :: i, iterpre, iterpremax
69 real(kind=
kreal) :: start_time, end_time
72 do iterpre= 1, iterpremax
86 time_precond = time_precond + end_time - start_time
92 if (iterpre.eq.iterpremax)
exit
integer(kind=kint) function, public hecmw_mat_get_iterpremax(hecMAT)
integer(kind=kint) function, public hecmw_mat_get_precond(hecMAT)
subroutine, public hecmw_precond_11_setup(hecMAT, hecMESH, sym)
subroutine, public hecmw_precond_11_apply(hecMESH, hecMAT, R, Z, ZP, time_precond, COMMtime)
subroutine, public hecmw_precond_11_clear(hecMAT)
subroutine, public hecmw_precond_diag_11_setup(hecMAT)
subroutine, public hecmw_precond_diag_11_apply(WW)
subroutine, public hecmw_precond_diag_11_clear()
subroutine, public hecmw_precond_nn_setup(hecMAT, hecMESH, sym)
subroutine, public hecmw_precond_nn_apply(hecMESH, hecMAT, R, Z, ZP, time_precond, COMMtime)
subroutine, public hecmw_precond_nn_clear(hecMAT)
subroutine, public hecmw_precond_ssor_11_setup(hecMAT)
subroutine, public hecmw_precond_ssor_11_clear(hecMAT)
subroutine, public hecmw_precond_ssor_11_apply(ZP)
subroutine, public hecmw_matresid_11(hecMESH, hecMAT, X, B, R, COMMtime)
integer(kind=4), parameter kreal
real(kind=kreal) function hecmw_wtime()