20 integer(kind=kint) :: N
21 real(kind=
kreal),
pointer :: alu(:) => null()
23 logical,
save :: INITIALIZED = .false.
31 integer(kind=kint ) :: np
32 real (kind=
kreal) :: sigma_diag
33 real(kind=
kreal),
pointer:: d(:)
35 real (kind=
kreal):: alutmp(4,4), pw(4)
36 integer(kind=kint ):: ii, i, j, k
39 if (hecmat%Iarray(98) == 0 .and. hecmat%Iarray(97) == 0)
return
52 alu(16*ii-15) = d(16*ii-15)
53 alu(16*ii-14) = d(16*ii-14)
54 alu(16*ii-13) = d(16*ii-13)
55 alu(16*ii-12) = d(16*ii-12)
56 alu(16*ii-11) = d(16*ii-11)
57 alu(16*ii-10) = d(16*ii-10)
58 alu(16*ii-9 ) = d(16*ii-9 )
59 alu(16*ii-8 ) = d(16*ii-8 )
60 alu(16*ii-7 ) = d(16*ii-7 )
61 alu(16*ii-6 ) = d(16*ii-6 )
62 alu(16*ii-5 ) = d(16*ii-5 )
63 alu(16*ii-4 ) = d(16*ii-4 )
64 alu(16*ii-3 ) = d(16*ii-3 )
65 alu(16*ii-2 ) = d(16*ii-2 )
66 alu(16*ii-1 ) = d(16*ii-1 )
67 alu(16*ii ) = d(16*ii )
71 alutmp(1,1)= alu(16*ii-15) * sigma_diag
72 alutmp(1,2)= alu(16*ii-14)
73 alutmp(1,3)= alu(16*ii-13)
74 alutmp(1,4)= alu(16*ii-12)
76 alutmp(2,1)= alu(16*ii-11)
77 alutmp(2,2)= alu(16*ii-10) * sigma_diag
78 alutmp(2,3)= alu(16*ii- 9)
79 alutmp(2,4)= alu(16*ii- 8)
81 alutmp(3,1)= alu(16*ii- 7)
82 alutmp(3,2)= alu(16*ii- 6)
83 alutmp(3,3)= alu(16*ii- 5) * sigma_diag
84 alutmp(3,4)= alu(16*ii- 4)
86 alutmp(4,1)= alu(16*ii- 3)
87 alutmp(4,2)= alu(16*ii- 2)
88 alutmp(4,3)= alu(16*ii- 1)
89 alutmp(4,4)= alu(16*ii ) * sigma_diag
92 alutmp(k,k)= 1.d0/alutmp(k,k)
94 alutmp(i,k)= alutmp(i,k) * alutmp(k,k)
96 pw(j)= alutmp(i,j) - alutmp(i,k)*alutmp(k,j)
104 alu(16*ii-15)= alutmp(1,1)
105 alu(16*ii-14)= alutmp(1,2)
106 alu(16*ii-13)= alutmp(1,3)
107 alu(16*ii-12)= alutmp(1,4)
108 alu(16*ii-11)= alutmp(2,1)
109 alu(16*ii-10)= alutmp(2,2)
110 alu(16*ii- 9)= alutmp(2,3)
111 alu(16*ii- 8)= alutmp(2,4)
112 alu(16*ii- 7)= alutmp(3,1)
113 alu(16*ii- 6)= alutmp(3,2)
114 alu(16*ii- 5)= alutmp(3,3)
115 alu(16*ii- 4)= alutmp(3,4)
116 alu(16*ii- 3)= alutmp(4,1)
117 alu(16*ii- 2)= alutmp(4,2)
118 alu(16*ii- 1)= alutmp(4,3)
119 alu(16*ii )= alutmp(4,4)
123 hecmat%Iarray(98) = 0
124 hecmat%Iarray(97) = 0
129 real(kind=
kreal),
intent(inout) :: ww(:)
130 integer(kind=kint) :: i
131 real(kind=
kreal) :: x1, x2, x3, x4
140 x2= x2 -alu(16*i-11)*x1
141 x3= x3 -alu(16*i- 7)*x1 -alu(16*i- 6)*x2
142 x4= x4 -alu(16*i- 3)*x1 -alu(16*i- 2)*x2 -alu(16*i- 1)*x3
144 x3= alu(16*i- 5)*(x3 -alu(16*i- 4)*x4)
145 x2= alu(16*i-10)*(x2 -alu(16*i- 8)*x4 -alu(16*i- 9)*x3)
146 x1= alu(16*i-15)*(x1 -alu(16*i-12)*x4 -alu(16*i-13)*x3 -alu(16*i-14)*x2)
156 if (
associated(alu))
deallocate(alu)
158 initialized = .false.
real(kind=kreal) function, public hecmw_mat_get_sigma_diag(hecmat)
subroutine, public hecmw_precond_diag_44_setup(hecmat)
subroutine, public hecmw_precond_diag_44_apply(ww)
subroutine, public hecmw_precond_diag_44_clear()
integer(kind=4), parameter kreal