sph int

GoSph

@@ -9,9 +9,9 @@ if [ $# = 2 ]
 then
 cp examples/molecule.Sph_"$1"  input/molecule
 cp examples/basis.Sph.Ylm"$2" input/basis
-cp int/Sph_ERI_"$2".dat int/ERI.dat
-cp int/Sph_Kin_"$2".dat int/Kin.dat
-cp int/Sph_Nuc_"$2".dat int/Nuc.dat
-cp int/Sph_Ov_"$2".dat  int/Ov.dat
+cp ~/Integrals/QuAcK_Sph/Sph_ERI_"$2".dat int/ERI.dat
+cp ~/Integrals/QuAcK_Sph/Sph_Kin_"$2".dat int/Kin.dat
+cp ~/Integrals/QuAcK_Sph/Sph_Nuc_"$2".dat int/Nuc.dat
+cp ~/Integrals/QuAcK_Sph/Sph_Ov_"$2".dat  int/Ov.dat
 ./bin/QuAcK
 fi

include/parameters.h

@@ -2,7 +2,7 @@
   integer,parameter              :: nspin = 2
   integer,parameter              :: nsp   = 3
   integer,parameter              :: maxEns = 10
-  integer,parameter              :: maxShell = 50
+  integer,parameter              :: maxShell = 1024
   integer,parameter              :: n1eInt = 3
   integer,parameter              :: n2eInt = 4
   integer,parameter              :: n3eInt = 3

input/basis

@@ -1,9 +1,129 @@
-1   3
-S   3   1.00
-     38.3600000              0.0238090        
-      5.7700000              0.1548910        
-      1.2400000              0.4699870        
+1   64
 S   1   1.00
-      0.2976000              1.0000000        
-P   1   1.00
-      1.2750000              1.0000000 
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        
+S   1   1.00
+      1.0000000              1.0000000        

input/methods

@@ -9,6 +9,6 @@
 # GF2 GF3
   F   F
 # G0W0 evGW qsGW
-  T    T    F
+  T    F    F
 # MCMP2
   F

input/molecule

@@ -1,4 +1,4 @@
 # nAt nEla nElb nCore nRyd
-  1   1     1   0     0
+  1   25   25   0     0
 # Znuc   x            y           z
-  He      0.0          0.0         0.0
+  X      0.0          0.0         0.0

src/QuAcK/QuAcK.f90

@@ -165,7 +165,7 @@ program QuAcK
 
 ! Read integrals
 
-  call read_integrals(nBas,S,T,V,Hc,ERI_AO_basis)  
+  call read_integrals(nEl(:),nBas,S,T,V,Hc,ERI_AO_basis)  
 
 ! Compute orthogonalization matrix
 

src/QuAcK/RHF.f90

@@ -16,12 +16,25 @@ subroutine RHF(maxSCF,thresh,max_diis,guess_type,nBas,nO,S,T,V,Hc,ERI,X,ENuc,ERH
 
 ! Local variables
 
-  integer                       :: nSCF,nBasSq,n_diis
-  double precision              :: ET,EV,EJ,EK,Conv,Gap 
+  integer                       :: nSCF
+  integer                       :: nBasSq
+  integer                       :: n_diis
+  double precision              :: ET,EV,EJ,EK
+  double precision              :: Conv
+  double precision              :: Gap 
   double precision              :: rcond
   double precision,external     :: trace_matrix
-  double precision,allocatable  :: error(:,:),error_diis(:,:),F_diis(:,:)
-  double precision,allocatable  :: J(:,:),K(:,:),cp(:,:),F(:,:),Fp(:,:)
+  double precision,allocatable  :: error(:,:)
+  double precision,allocatable  :: error_diis(:,:)
+  double precision,allocatable  :: F_diis(:,:)
+  double precision,allocatable  :: J(:,:)
+  double precision,allocatable  :: K(:,:)
+  double precision,allocatable  :: cp(:,:)
+  double precision,allocatable  :: F(:,:)
+  double precision,allocatable  :: Fp(:,:)
+  double precision,allocatable  :: ON(:)
+
+  integer                       :: i
 
 ! Output variables
 
@@ -44,8 +57,8 @@ subroutine RHF(maxSCF,thresh,max_diis,guess_type,nBas,nO,S,T,V,Hc,ERI,X,ENuc,ERH
 
 ! Memory allocation
 
-  allocate(J(nBas,nBas),K(nBas,nBas),error(nBas,nBas), &
-           cp(nBas,nBas),Fp(nBas,nBas),F(nBas,nBas), &
+  allocate(J(nBas,nBas),K(nBas,nBas),error(nBas,nBas),        &
+           cp(nBas,nBas),Fp(nBas,nBas),F(nBas,nBas),ON(nBas), &
            error_diis(nBasSq,max_diis),F_diis(nBasSq,max_diis))
 
 ! Guess coefficients and eigenvalues
@@ -65,6 +78,13 @@ subroutine RHF(maxSCF,thresh,max_diis,guess_type,nBas,nO,S,T,V,Hc,ERI,X,ENuc,ERH
 
   P(:,:) = 2d0*matmul(c(:,1:nO),transpose(c(:,1:nO)))
 
+! ON(:) = 0d0
+! do i=1,nO
+!    ON(i) = 1d0
+!    ON(i) = dble(2*i-1)
+! end do
+
+! call density_matrix(nBas,ON,c,P)
   
 ! Initialization
 
@@ -123,6 +143,8 @@ subroutine RHF(maxSCF,thresh,max_diis,guess_type,nBas,nO,S,T,V,Hc,ERI,X,ENuc,ERH
 
     P(:,:) = 2d0*matmul(c(:,1:nO),transpose(c(:,1:nO)))
 
+!   call density_matrix(nBas,ON,c,P)
+  
 !   Compute HF energy
 
     ERHF = trace_matrix(nBas,matmul(P,Hc)) &

src/utils/read_integrals.f90

@@ -1,8 +1,9 @@
-subroutine read_integrals(nBas,S,T,V,Hc,G)
+subroutine read_integrals(nEl,nBas,S,T,V,Hc,G)
 
 ! Read one- and two-electron integrals from files
 
   implicit none
+  include 'parameters.h'
 
 ! Input variables
 
@@ -11,9 +12,10 @@ subroutine read_integrals(nBas,S,T,V,Hc,G)
 ! Local variables
 
   logical                       :: debug
+  integer                       :: nEl(nspin)
   integer                       :: mu,nu,la,si
   double precision              :: Ov,Kin,Nuc,ERI
-  double precision              :: scale
+  double precision              :: rs
 
 ! Output variables
 
@@ -23,7 +25,13 @@ subroutine read_integrals(nBas,S,T,V,Hc,G)
 
   debug = .false.
 
-  scale = 1d0
+  open(unit=1,file='input/sph')
+  read(1,*)
+  read(1,*) rs
+
+  rs = sqrt(dble(sum(nEl(:))))/2d0*rs
+
+  print*, 'Scaling integrals by ',rs
 
   open(unit=8 ,file='int/Ov.dat')
   open(unit=9 ,file='int/Kin.dat')
@@ -44,7 +52,7 @@ subroutine read_integrals(nBas,S,T,V,Hc,G)
   T = 0d0
   do 
     read(9,*,end=9) mu,nu,Kin
-    T(mu,nu) = Kin/scale**2
+    T(mu,nu) = Kin/rs**2
   enddo
   9 close(unit=9)
 
@@ -67,7 +75,7 @@ subroutine read_integrals(nBas,S,T,V,Hc,G)
   do 
     read(11,*,end=11) mu,nu,la,si,ERI
 
-    ERI = ERI/scale
+    ERI = ERI/rs
 !   <12|34>
     G(mu,nu,la,si) = ERI
 !   <32|14>