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mirror of https://github.com/QuantumPackage/qp2.git synced 2024-12-21 11:03:29 +01:00

handling degerated vectors correctly for bi-orthogonality

This commit is contained in:
AbdAmmar 2023-12-23 16:35:08 +01:00
parent 368450f72b
commit e3beae681b
2 changed files with 154 additions and 159 deletions

View File

@ -275,10 +275,11 @@ subroutine non_hrmt_bieig(n, A, thr_d, thr_nd, leigvec, reigvec, n_real_eigv, ei
double precision :: thr, thr_cut, thr_diag, thr_norm
double precision :: accu_d, accu_nd
integer, allocatable :: list_good(:), iorder(:)
integer, allocatable :: list_good(:), iorder(:), deg_num(:)
double precision, allocatable :: WR(:), WI(:), VL(:,:), VR(:,:)
double precision, allocatable :: S(:,:)
double precision, allocatable :: phi_1_tilde(:),phi_2_tilde(:),chi_1_tilde(:),chi_2_tilde(:)
allocate(phi_1_tilde(n),phi_2_tilde(n),chi_1_tilde(n),chi_2_tilde(n))
@ -496,18 +497,10 @@ subroutine non_hrmt_bieig(n, A, thr_d, thr_nd, leigvec, reigvec, n_real_eigv, ei
! ---
! call impose_orthog_degen_eigvec(n, eigval, reigvec)
! call impose_orthog_degen_eigvec(n, eigval, leigvec)
call reorder_degen_eigvec(n, eigval, leigvec, reigvec)
call impose_biorthog_degen_eigvec(n, eigval, leigvec, reigvec)
!call impose_orthog_biorthog_degen_eigvec(n, thr_d, thr_nd, eigval, leigvec, reigvec)
!call impose_unique_biorthog_degen_eigvec(n, eigval, mo_coef, ao_overlap, leigvec, reigvec)
! ---
allocate(deg_num(n))
call reorder_degen_eigvec(n, deg_num, eigval, leigvec, reigvec)
call impose_biorthog_degen_eigvec(n, deg_num, eigval, leigvec, reigvec)
deallocate(deg_num)
call check_biorthog(n, n_real_eigv, leigvec, reigvec, accu_d, accu_nd, S, thr_d, thr_nd, .false.)
if( (accu_nd .lt. thr_nd) .and. (dabs(accu_d-dble(n_real_eigv)) .gt. thr_d) ) then
@ -515,12 +508,7 @@ subroutine non_hrmt_bieig(n, A, thr_d, thr_nd, leigvec, reigvec, n_real_eigv, ei
endif
call check_biorthog(n, n_real_eigv, leigvec, reigvec, accu_d, accu_nd, S, thr_d, thr_nd, .true.)
!call impose_biorthog_qr(n, n_real_eigv, thr_d, thr_nd, leigvec, reigvec)
!call impose_biorthog_lu(n, n_real_eigv, thr_d, thr_nd, leigvec, reigvec)
! ---
call check_EIGVEC(n, n, A, eigval, leigvec, reigvec, thr_diag, thr_norm, .true.)
!call check_EIGVEC(n, n, A, eigval, leigvec, reigvec, thr_diag, thr_norm, .true.)
deallocate(S)

View File

@ -1865,7 +1865,7 @@ subroutine check_biorthog(n, m, Vl, Vr, accu_d, accu_nd, S, thr_d, thr_nd, stop_
, Vl, size(Vl, 1), Vr, size(Vr, 1) &
, 0.d0, S, size(S, 1) )
! print ca juste s'il y a besoin
! print S s'il y a besoin
!print *, ' overlap matrix:'
!do i = 1, m
! write(*,'(1000(F16.10,X))') S(i,:)
@ -1877,11 +1877,13 @@ subroutine check_biorthog(n, m, Vl, Vr, accu_d, accu_nd, S, thr_d, thr_nd, stop_
do j = 1, m
if(i==j) then
accu_d = accu_d + dabs(S(i,i))
!print*, i, S(i,i)
else
accu_nd = accu_nd + S(j,i) * S(j,i)
endif
enddo
enddo
!accu_nd = dsqrt(accu_nd) / dble(m*m)
accu_nd = dsqrt(accu_nd) / dble(m)
if((accu_nd .gt. thr_nd) .or. dabs(accu_d-dble(m))/dble(m) .gt. thr_d) then
@ -1951,24 +1953,21 @@ end subroutine check_orthog
! ---
subroutine reorder_degen_eigvec(n, e0, L0, R0)
subroutine reorder_degen_eigvec(n, deg_num, e0, L0, R0)
implicit none
integer, intent(in) :: n
double precision, intent(in) :: e0(n)
double precision, intent(inout) :: L0(n,n), R0(n,n)
double precision, intent(inout) :: e0(n), L0(n,n), R0(n,n)
integer, intent(out) :: deg_num(n)
logical :: complex_root
integer :: i, j, k, m, ii
integer :: i, j, k, m, ii, j_tmp
double precision :: ei, ej, de, de_thr
double precision :: accu_d, accu_nd
integer, allocatable :: deg_num(:)
double precision :: e0_tmp, L0_tmp(n), R0_tmp(n)
double precision, allocatable :: L(:,:), R(:,:), S(:,:), S_inv_half(:,:)
! ---
allocate( deg_num(n) )
do i = 1, n
deg_num(i) = 1
enddo
@ -1981,22 +1980,39 @@ subroutine reorder_degen_eigvec(n, e0, L0, R0)
! already considered in degen vectors
if(deg_num(i) .eq. 0) cycle
ii = 0
do j = i+1, n
ej = e0(j)
de = dabs(ei - ej)
if(de .lt. de_thr) then
deg_num(i) = deg_num(i) + 1
deg_num(j) = 0
endif
ii = ii + 1
j_tmp = i + ii
deg_num(j_tmp) = 0
e0_tmp = e0(j_tmp)
e0(j_tmp) = e0(j)
e0(j) = e0_tmp
L0_tmp(1:n) = L0(1:n,j_tmp)
L0(1:n,j_tmp) = L0(1:n,j)
L0(1:n,j) = L0_tmp(1:n)
R0_tmp(1:n) = R0(1:n,j_tmp)
R0(1:n,j_tmp) = R0(1:n,j)
R0(1:n,j) = R0_tmp(1:n)
endif
enddo
deg_num(i) = ii + 1
enddo
ii = 0
do i = 1, n
if(deg_num(i) .gt. 1) then
print *, ' degen on', i, deg_num(i), e0(i)
!print *, ' degen on', i, deg_num(i), e0(i)
ii = ii + 1
endif
enddo
@ -2011,55 +2027,55 @@ subroutine reorder_degen_eigvec(n, e0, L0, R0)
! ---
do i = 1, n
m = deg_num(i)
if(m .gt. 1) then
allocate(L(n,m))
allocate(R(n,m),S(m,m))
do j = 1, m
L(1:n,j) = L0(1:n,i+j-1)
R(1:n,j) = R0(1:n,i+j-1)
enddo
call dgemm( 'T', 'N', m, m, n, 1.d0 &
, L, size(L, 1), R, size(R, 1) &
, 0.d0, S, size(S, 1) )
print*, 'Overlap matrix '
accu_nd = 0.d0
do j = 1, m
write(*,'(100(F16.10,X))') S(1:m,j)
do k = 1, m
if(j==k) cycle
accu_nd += dabs(S(j,k))
enddo
enddo
print*,'accu_nd = ',accu_nd
! if(accu_nd .gt.1.d-10) then
! stop
! do i = 1, n
! m = deg_num(i)
!
! if(m .gt. 1) then
!
! allocate(L(n,m))
! allocate(R(n,m),S(m,m))
!
! do j = 1, m
! L(1:n,j) = L0(1:n,i+j-1)
! R(1:n,j) = R0(1:n,i+j-1)
! enddo
!
! !call dgemm( 'T', 'N', m, m, n, 1.d0 &
! ! , L, size(L, 1), R, size(R, 1) &
! ! , 0.d0, S, size(S, 1) )
! !print*, 'Overlap matrix '
! !accu_nd = 0.d0
! !do j = 1, m
! ! write(*,'(100(F16.10,X))') S(1:m,j)
! ! do k = 1, m
! ! if(j==k) cycle
! ! accu_nd += dabs(S(j,k))
! ! enddo
! !enddo
! !print*,'accu_nd = ',accu_nd
!! if(accu_nd .gt.1.d-10) then
!! stop
!! endif
!
! do j = 1, m
! L0(1:n,i+j-1) = L(1:n,j)
! R0(1:n,i+j-1) = R(1:n,j)
! enddo
!
! deallocate(L, R, S)
!
! endif
do j = 1, m
L0(1:n,i+j-1) = L(1:n,j)
R0(1:n,i+j-1) = R(1:n,j)
enddo
deallocate(L, R, S)
endif
enddo
! enddo
!
end subroutine reorder_degen_eigvec
! ---
subroutine impose_biorthog_degen_eigvec(n, e0, L0, R0)
subroutine impose_biorthog_degen_eigvec(n, deg_num, e0, L0, R0)
implicit none
integer, intent(in) :: n
integer, intent(in) :: n, deg_num(n)
double precision, intent(in) :: e0(n)
double precision, intent(inout) :: L0(n,n), R0(n,n)
@ -2067,41 +2083,13 @@ subroutine impose_biorthog_degen_eigvec(n, e0, L0, R0)
integer :: i, j, k, m
double precision :: ei, ej, de, de_thr
double precision :: accu_d, accu_nd
integer, allocatable :: deg_num(:)
double precision, allocatable :: L(:,:), R(:,:), S(:,:), S_inv_half(:,:)
! ---
allocate( deg_num(n) )
do i = 1, n
deg_num(i) = 1
enddo
de_thr = thr_degen_tc
do i = 1, n-1
ei = e0(i)
! already considered in degen vectors
if(deg_num(i).eq.0) cycle
do j = i+1, n
ej = e0(j)
de = dabs(ei - ej)
if(de .lt. de_thr) then
deg_num(i) = deg_num(i) + 1
deg_num(j) = 0
endif
enddo
enddo
do i = 1, n
if(deg_num(i) .gt. 1) then
print *, ' degen on', i, deg_num(i), e0(i)
endif
enddo
!do i = 1, n
! if(deg_num(i) .gt. 1) then
! print *, ' degen on', i, deg_num(i), e0(i)
! endif
!enddo
! ---
@ -2110,8 +2098,7 @@ subroutine impose_biorthog_degen_eigvec(n, e0, L0, R0)
if(m .gt. 1) then
allocate(L(n,m))
allocate(R(n,m))
allocate(L(n,m), R(n,m), S(m,m))
do j = 1, m
L(1:n,j) = L0(1:n,i+j-1)
@ -2120,8 +2107,51 @@ subroutine impose_biorthog_degen_eigvec(n, e0, L0, R0)
! ---
call impose_orthog_svd(n, m, R)
L(:,:) = R(:,:)
!print*, 'Overlap matrix before'
call dgemm( 'T', 'N', m, m, n, 1.d0 &
, L, size(L, 1), R, size(R, 1) &
, 0.d0, S, size(S, 1) )
accu_nd = 0.d0
do j = 1, m
!write(*,'(100(F16.10,X))') S(1:m,j)
do k = 1, m
if(j==k) cycle
accu_nd += dabs(S(j,k))
enddo
enddo
if(accu_nd .lt. 1d-12) then
deallocate(S, L, R)
cycle
endif
!print*, ' accu_nd before = ', accu_nd
call impose_biorthog_svd(n, m, L, R)
!print*, 'Overlap matrix after'
call dgemm( 'T', 'N', m, m, n, 1.d0 &
, L, size(L, 1), R, size(R, 1) &
, 0.d0, S, size(S, 1) )
accu_nd = 0.d0
do j = 1, m
!write(*,'(100(F16.10,X))') S(1:m,j)
do k = 1, m
if(j==k) cycle
accu_nd += dabs(S(j,k))
enddo
enddo
!print*,' accu_nd after = ', accu_nd
if(accu_nd .gt. 1d-12) then
print*, ' your strategy for degenerates orbitals failed !'
print*, m, 'deg on', i
stop
endif
deallocate(S)
! ---
!call impose_orthog_svd(n, m, L)
!call impose_orthog_GramSchmidt(n, m, L)
@ -2142,7 +2172,6 @@ subroutine impose_biorthog_degen_eigvec(n, e0, L0, R0)
!call bi_ortho_s_inv_half(m, L, R, S_inv_half)
!deallocate(S, S_inv_half)
!call impose_biorthog_svd(n, m, L, R)
!call impose_biorthog_inverse(n, m, L, R)
!call impose_biorthog_qr(n, m, thr_d, thr_nd, L, R)
@ -2158,7 +2187,6 @@ subroutine impose_biorthog_degen_eigvec(n, e0, L0, R0)
endif
enddo
! call impose_biorthog_inverse(n, n, L0, R0)
end subroutine impose_biorthog_degen_eigvec
@ -2526,18 +2554,16 @@ subroutine impose_biorthog_svd(n, m, L, R)
double precision, allocatable :: S(:,:), tmp(:,:)
double precision, allocatable :: U(:,:), V(:,:), Vt(:,:), D(:)
! ---
allocate(S(m,m))
call dgemm( 'T', 'N', m, m, n, 1.d0 &
, L, size(L, 1), R, size(R, 1) &
, 0.d0, S, size(S, 1) )
print *, ' overlap bef SVD: '
do i = 1, m
write(*, '(1000(F16.10,X))') S(i,:)
enddo
!print *, ' overlap bef SVD: '
!do i = 1, m
! write(*, '(1000(F16.10,X))') S(i,:)
!enddo
! ---
@ -2574,52 +2600,33 @@ subroutine impose_biorthog_svd(n, m, L, R)
! ---
allocate(tmp(n,m))
! R <-- R x V x D^{-0.5}
! L <-- L x U x D^{-0.5}
! tmp <-- R x V
call dgemm( 'N', 'N', n, m, m, 1.d0 &
, R, size(R, 1), V, size(V, 1) &
, 0.d0, tmp, size(tmp, 1) )
deallocate(V)
! R <-- tmp x sigma^-0.5
do j = 1, m
do i = 1, n
R(i,j) = tmp(i,j) * D(j)
enddo
enddo
! tmp <-- L x U
call dgemm( 'N', 'N', n, m, m, 1.d0 &
, L, size(L, 1), U, size(U, 1) &
, 0.d0, tmp, size(tmp, 1) )
deallocate(U)
! L <-- tmp x sigma^-0.5
do j = 1, m
do i = 1, n
L(i,j) = tmp(i,j) * D(j)
enddo
enddo
deallocate(D, tmp)
! ---
allocate(S(m,m))
call dgemm( 'T', 'N', m, m, n, 1.d0 &
, L, size(L, 1), R, size(R, 1) &
, 0.d0, S, size(S, 1) )
print *, ' overlap aft SVD: '
do i = 1, m
write(*, '(1000(F16.10,X))') S(i,:)
do j = 1, m
V(j,i) = V(j,i) * D(i)
U(j,i) = U(j,i) * D(i)
enddo
enddo
deallocate(S)
allocate(tmp(n,m))
tmp(:,:) = R(:,:)
call dgemm( 'N', 'N', n, m, m, 1.d0 &
, tmp, size(tmp, 1), V, size(V, 1) &
, 0.d0, R, size(R, 1))
! ---
tmp(:,:) = L(:,:)
call dgemm( 'N', 'N', n, m, m, 1.d0 &
, tmp, size(tmp, 1), U, size(U, 1) &
, 0.d0, L, size(L, 1))
deallocate(tmp, U, V, D)
end subroutine impose_biorthog_svd
! ---
subroutine impose_biorthog_inverse(n, m, L, R)
implicit none
@ -2661,7 +2668,7 @@ subroutine impose_biorthog_inverse(n, m, L, R)
deallocate(S,Lt)
end subroutine impose_biorthog_svd
end subroutine impose_biorthog_inverse
! ---