Sherman-Morrison/independent_test_harness/detupdate21.f90

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9.0 KiB
Fortran
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subroutine detupd(vDim, vLDS, Updates, Updates_index, &
Slater_inv, determinant) bind(C)
use iso_c_binding
implicit none ! det.irp.f_template_577: 428
external :: det_update21
integer(c_int64_t), intent(in), value :: vLDS, vDim
real(c_double), intent(in) :: Updates(vLDS)
integer(c_int64_t), intent(in) :: Updates_index(1)
real(c_double), intent(inout) :: Slater_inv(vLDS,vDim)
real(c_double), intent(inout) :: determinant
integer(c_int64_t) :: l, n, LDS ! det.irp.f_template_577: 432
n = vDim
LDS = vLDS
l = Updates_index(1)
call det_update21(n, LDS, Updates, l, Slater_inv, determinant) ! det.irp.f_template_577: 427
end
subroutine det_update21(n, LDS, u, l, S_inv, d) ! det.irp.f_template_577: 427
use iso_c_binding
implicit none ! det.irp.f_template_577: 428
integer(c_int64_t), intent(in) :: l ! det.irp.f_template_577: 430
integer(c_int64_t), intent(in) :: n,LDS ! det.irp.f_template_577: 430
real(c_double),intent(inout) :: S_inv(LDS,n) ! det.irp.f_template_577: 435
real(c_double),intent(inout) :: d ! det.irp.f_template_577: 436
real(c_double), intent(in) :: u(n)
real(c_double) :: z(n), w(n), lambda, d_inv ! det.irp.f_template_577: 438
integer(c_int64_t) :: i,j ! det.irp.f_template_577: 444
real(c_double) :: zj, zj1, zj2, zj3 ! det.irp.f_template_577: 445
!DIR$ ATTRIBUTES ALIGN : 32 :: z, w ! det.irp.f_template_577: 439
!DIR$ ASSUME_ALIGNED u : 32 ! det.irp.f_template_577: 440
!DIR$ ASSUME_ALIGNED S_inv : 32 ! det.irp.f_template_577: 441
!DIR$ ASSUME (mod(LDS,32/8) == 0) ! det.irp.f_template_577: 442
!DIR$ ASSUME (LDS >= 21) ! det.irp.f_template_577: 443
zj = 0.d0 !! dot prod col S_inv and update: vT*S_inv*u ! det.irp.f_template_577: 451
!DIR$ NOPREFETCH ! det.irp.f_template_577: 452
do i=1,21-1,4 ! det.irp.f_template_577: 453
zj = zj + S_inv(i,l)*u(i) + S_inv(i+1,l)*u(i+1) &
+ S_inv(i+2,l)*u(i+2) + S_inv(i+3,l)*u(i+3) ! det.irp.f_template_577: 454
enddo ! det.irp.f_template_577: 456
zj = zj + S_inv(21,l)*u(21) ! det.irp.f_template_577: 457
d_inv = 1.d0/d ! reciprocal of old det ! det.irp.f_template_577: 459
d = d+zj ! det.irp.f_template_577: 460
lambda = d*d_inv ! det.irp.f_template_577: 461
if (dabs(lambda) < 1.d-3) then ! det.irp.f_template_577: 462
! d = 0.d0 ! det.irp.f_template_577: 463
return ! det.irp.f_template_577: 464
endif ! det.irp.f_template_577: 465
!DIR$ VECTOR ALIGNED ! det.irp.f_template_577: 467
do j=1,21-1,4 ! det.irp.f_template_577: 468
zj = 0.d0 ! det.irp.f_template_577: 469
zj1 = 0.d0 ! det.irp.f_template_577: 470
zj2 = 0.d0 ! det.irp.f_template_577: 471
zj3 = 0.d0 ! det.irp.f_template_577: 472
!DIR$ VECTOR ALIGNED ! det.irp.f_template_577: 473
!DIR$ NOPREFETCH ! det.irp.f_template_577: 474
do i=1,21-1 ! det.irp.f_template_577: 475
zj = zj + S_inv(i,j )*u(i) ! det.irp.f_template_577: 476
zj1 = zj1 + S_inv(i,j+1)*u(i) ! det.irp.f_template_577: 477
zj2 = zj2 + S_inv(i,j+2)*u(i) ! det.irp.f_template_577: 478
zj3 = zj3 + S_inv(i,j+3)*u(i) ! det.irp.f_template_577: 479
enddo ! det.irp.f_template_577: 480
z(j ) = zj + S_inv(21,j )*u(21) ! det.irp.f_template_577: 481
z(j+1) = zj1 + S_inv(21,j+1)*u(21) ! det.irp.f_template_577: 482
z(j+2) = zj2 + S_inv(21,j+2)*u(21) ! det.irp.f_template_577: 483
z(j+3) = zj3 + S_inv(21,j+3)*u(21) ! det.irp.f_template_577: 484
enddo ! det.irp.f_template_577: 485
zj = 0.d0 ! det.irp.f_template_577: 487
!DIR$ VECTOR ALIGNED ! det.irp.f_template_577: 488
!DIR$ NOPREFETCH ! det.irp.f_template_577: 489
do i=1,21-1 ! det.irp.f_template_577: 490
zj = zj + S_inv(i,21)*u(i) ! det.irp.f_template_577: 491
enddo ! det.irp.f_template_577: 492
z(21) = zj + S_inv(21,21)*u(21) ! det.irp.f_template_577: 493
!DIR$ NOPREFETCH ! det.irp.f_template_577: 495
do i=1,21 ! det.irp.f_template_577: 496
w(i) = S_inv(i,l)*d_inv ! det.irp.f_template_577: 497
enddo ! det.irp.f_template_577: 499
do i=1,21-1,4 ! det.irp.f_template_577: 501
zj = z(i ) ! det.irp.f_template_577: 502
zj1 = z(i+1) ! det.irp.f_template_577: 503
zj2 = z(i+2) ! det.irp.f_template_577: 504
zj3 = z(i+3) ! det.irp.f_template_577: 505
!DIR$ VECTOR ALIGNED ! det.irp.f_template_577: 506
!DIR$ NOPREFETCH ! det.irp.f_template_577: 507
do j=1,21-1 ! det.irp.f_template_577: 508
S_inv(j,i ) = S_inv(j,i )*lambda - w(j)*zj ! det.irp.f_template_577: 509
S_inv(j,i+1) = S_inv(j,i+1)*lambda - w(j)*zj1 ! det.irp.f_template_577: 510
S_inv(j,i+2) = S_inv(j,i+2)*lambda - w(j)*zj2 ! det.irp.f_template_577: 511
S_inv(j,i+3) = S_inv(j,i+3)*lambda - w(j)*zj3 ! det.irp.f_template_577: 512
enddo ! det.irp.f_template_577: 513
S_inv(21,i ) = S_inv(21,i )*lambda - w(21)*zj ! det.irp.f_template_577: 514
S_inv(21,i+1) = S_inv(21,i+1)*lambda - w(21)*zj1 ! det.irp.f_template_577: 515
S_inv(21,i+2) = S_inv(21,i+2)*lambda - w(21)*zj2 ! det.irp.f_template_577: 516
S_inv(21,i+3) = S_inv(21,i+3)*lambda - w(21)*zj3 ! det.irp.f_template_577: 517
enddo ! det.irp.f_template_577: 518
zj = z(21) ! det.irp.f_template_577: 520
!DIR$ VECTOR ALIGNED ! det.irp.f_template_577: 521
!DIR$ NOPREFETCH ! det.irp.f_template_577: 522
do i=1,21 ! det.irp.f_template_577: 523
S_inv(i,21) = S_inv(i,21)*lambda -w(i)*zj ! det.irp.f_template_577: 524
enddo ! det.irp.f_template_577: 525
end ! det.irp.f_template_577: 528