diff --git a/org/qmckl_sherman_morrison_woodbury.org b/org/qmckl_sherman_morrison_woodbury.org index 96f9e94..ef95078 100644 --- a/org/qmckl_sherman_morrison_woodbury.org +++ b/org/qmckl_sherman_morrison_woodbury.org @@ -71,7 +71,7 @@ int main() { | uint64_t | Updates_index[N_updates] | in | Array containing the rank-1 updates | | double | breakdown | in | Break-down parameter on which to fail or not | | double | Slater_inv[Dim*Dim] | inout | Array containing the inverse of a Slater-matrix | - | double* | determinant | inout | Determinant of the Slater-matrix | + | double* | determinant | inout | Determinant of the Slater-matrix | *** Requirements @@ -728,6 +728,9 @@ assert(rc == QMCKL_SUCCESS); case the Slater-matrix that would have resulted from applying the updates is singular and therefore the kernel exits with an exit code. + If the determinant of the Slater-matrix is passed, it will be updated to the determinant resulting + from applying the updates to the original matrix. + #+NAME: qmckl_sherman_morrison_splitting_args | qmckl_context | context | in | Global state | | uint64_t | Dim | in | Leading dimension of Slater_inv | @@ -736,6 +739,10 @@ assert(rc == QMCKL_SUCCESS); | uint64_t | Updates_index[N_updates] | in | Array containing the rank-1 updates | | double | breakdown | in | Break-down parameter on which to fail or not | | double | Slater_inv[Dim*Dim] | inout | Array containing the inverse of a Slater-matrix | + | double* | determinant | inout | Determinant of the Slater-matrix | + If the determinant of the Slater-matrix is passed, it will be updated to the determinant resulting + from applying the updates to the original matrix. + *** Requirements @@ -760,7 +767,8 @@ assert(rc == QMCKL_SUCCESS); const double* Updates, const uint64_t* Updates_index, const double breakdown, - double* Slater_inv); + double* Slater_inv, + double* determinant); #+end_src *** C source @@ -775,7 +783,8 @@ qmckl_exit_code qmckl_sherman_morrison_splitting(const qmckl_context context, const double* Updates, const uint64_t* Updates_index, const double breakdown, - double* Slater_inv) { + double* Slater_inv, + double* determinant) { if (qmckl_context_check(context) == QMCKL_NULL_CONTEXT) { return QMCKL_NULL_CONTEXT; @@ -786,11 +795,11 @@ qmckl_exit_code qmckl_sherman_morrison_splitting(const qmckl_context context, uint64_t later = 0; (void) qmckl_slagel_splitting(Dim, N_updates, Updates, Updates_index, - breakdown, Slater_inv, later_updates, later_index, &later); + breakdown, Slater_inv, later_updates, later_index, &later, determinant); if (later > 0) { (void) qmckl_sherman_morrison_splitting(context, Dim, later, - later_updates, later_index, breakdown, Slater_inv); + later_updates, later_index, breakdown, Slater_inv, determinant); } return QMCKL_SUCCESS; @@ -815,7 +824,7 @@ qmckl_exit_code qmckl_sherman_morrison_splitting(const qmckl_context context, #+begin_src f90 :tangle (eval fh_func) :comments org :exports none interface integer(c_int32_t) function qmckl_sherman_morrison_splitting & - (context, Dim, N_updates, Updates, Updates_index, breakdown, Slater_inv) & + (context, Dim, N_updates, Updates, Updates_index, breakdown, Slater_inv, determinant) & bind(C) use, intrinsic :: iso_c_binding import @@ -828,6 +837,7 @@ qmckl_exit_code qmckl_sherman_morrison_splitting(const qmckl_context context, integer (c_int64_t) , intent(in) :: Updates_index(N_updates) real (c_double ) , intent(in) , value :: breakdown real (c_double ) , intent(inout) :: Slater_inv(Dim*Dim) + real (c_double ) , intent(inout) :: determinant end function qmckl_sherman_morrison_splitting end interface @@ -839,7 +849,9 @@ qmckl_exit_code qmckl_sherman_morrison_splitting(const qmckl_context context, assert(Updates3 != NULL); assert(Updates_index3 != NULL); assert(Slater_inv3_2 != NULL); -rc = qmckl_sherman_morrison_splitting(context, Dim, N_updates3, Updates3, Updates_index3, breakdown, Slater_inv3_2); +det = -1.23743195512859e-09; +rc = qmckl_sherman_morrison_splitting(context, Dim, N_updates3, Updates3, Updates_index3, breakdown, Slater_inv3_2, &det); +assert(fabs(det - 1.602708950725074e-10) < 1e-15); for (unsigned int i = 0; i < Dim; i++) { for (unsigned int j = 0; j < Dim; j++) { res[i * Dim + j] = 0; @@ -877,6 +889,9 @@ assert(rc == QMCKL_SUCCESS); with Woodbury 2x2 instead of sending them all to Sherman-Morrison with update splitting. For example, in the case of 5 updates the updates are applied in 1 block of 3 updates end 1 block of 2 updates. + If the determinant of the Slater-matrix is passed, it will be updated to the determinant resulting + from applying the updates to the original matrix. + #+NAME: qmckl_sherman_morrison_smw32s_args | qmckl_context | context | in | Global state | | uint64_t | Dim | in | Leading dimension of Slater_inv | @@ -885,6 +900,8 @@ assert(rc == QMCKL_SUCCESS); | uint64_t | Updates_index[N_updates] | in | Array containing the rank-1 updates | | double | breakdown | in | Break-down parameter on which to fail or not | | double | Slater_inv[Dim*Dim] | inout | Array containing the inverse of a Slater-matrix | + | double* | determinant | inout | Determinant of the Slater-matrix | + *** Requirements @@ -909,7 +926,8 @@ assert(rc == QMCKL_SUCCESS); const double* Updates, const uint64_t* Updates_index, const double breakdown, - double* Slater_inv); + double* Slater_inv, + double* determinant); #+end_src *** C source @@ -924,7 +942,8 @@ qmckl_exit_code qmckl_sherman_morrison_smw32s(const qmckl_context context, const double* Updates, const uint64_t* Updates_index, const double breakdown, - double* Slater_inv) { + double* Slater_inv, + double* determinant) { if (qmckl_context_check(context) == QMCKL_NULL_CONTEXT) { return QMCKL_NULL_CONTEXT; @@ -945,11 +964,11 @@ qmckl_exit_code qmckl_sherman_morrison_smw32s(const qmckl_context context, for (uint64_t i = 0; i < n_of_3blocks; i++) { const double *Updates_3block = &Updates[i * length_3block]; const uint64_t *Updates_index_3block = &Updates_index[i * 3]; - rc = qmckl_woodbury_3(context, Dim, Updates_3block, Updates_index_3block, breakdown, Slater_inv, NULL); + rc = qmckl_woodbury_3(context, Dim, Updates_3block, Updates_index_3block, breakdown, Slater_inv, determinant); if (rc != 0) { // Send the entire block to slagel_splitting uint64_t l = 0; rc = qmckl_slagel_splitting(Dim, 3, Updates_3block, Updates_index_3block, - breakdown, Slater_inv, later_updates + (Dim * later), later_index + later, &l); + breakdown, Slater_inv, later_updates + (Dim * later), later_index + later, &l, determinant); later = later + l; } } @@ -959,11 +978,11 @@ qmckl_exit_code qmckl_sherman_morrison_smw32s(const qmckl_context context, if (remainder == 2) { const double *Updates_2block = &Updates[n_of_3blocks * length_3block]; const uint64_t *Updates_index_2block = &Updates_index[3 * n_of_3blocks]; - rc = qmckl_woodbury_2(context, Dim, Updates_2block, Updates_index_2block, breakdown, Slater_inv, NULL); + rc = qmckl_woodbury_2(context, Dim, Updates_2block, Updates_index_2block, breakdown, Slater_inv, determinant); if (rc != 0) { // Send the entire block to slagel_splitting uint64_t l = 0; (void) qmckl_slagel_splitting(Dim, 2, Updates_2block, Updates_index_2block, - breakdown, Slater_inv, later_updates + (Dim * later), later_index + later, &l); + breakdown, Slater_inv, later_updates + (Dim * later), later_index + later, &l, determinant); later = later + l; } } @@ -973,12 +992,12 @@ qmckl_exit_code qmckl_sherman_morrison_smw32s(const qmckl_context context, const uint64_t *Updates_index_1block = &Updates_index[3 * n_of_3blocks]; uint64_t l = 0; (void) qmckl_slagel_splitting(Dim, 1, Updates_1block, Updates_index_1block, - breakdown, Slater_inv, later_updates + (Dim * later), later_index + later, &l); + breakdown, Slater_inv, later_updates + (Dim * later), later_index + later, &l, determinant); later = later + l; } if (later > 0) { - (void) qmckl_sherman_morrison_splitting(context, Dim, later, later_updates, later_index, breakdown, Slater_inv); + (void) qmckl_sherman_morrison_splitting(context, Dim, later, later_updates, later_index, breakdown, Slater_inv, determinant); } return QMCKL_SUCCESS; } @@ -1026,7 +1045,10 @@ qmckl_exit_code qmckl_sherman_morrison_smw32s(const qmckl_context context, assert(Updates5 != NULL); assert(Updates_index5 != NULL); assert(Slater_inv5 != NULL); -rc = qmckl_sherman_morrison_smw32s(context, Dim, N_updates5, Updates5, Updates_index5, breakdown, Slater_inv5); +det = -3.186005284713128e-10; +rc = qmckl_sherman_morrison_smw32s(context, Dim, N_updates5, Updates5, Updates_index5, breakdown, Slater_inv5, &det); +assert(fabs(det + 5.260200118412903e-10) < 1e-15); + for (unsigned int i = 0; i < Dim; i++) { for (unsigned int j = 0; j < Dim; j++) { res[i * Dim + j] = 0; @@ -1070,6 +1092,9 @@ These functions can only be used internally by the kernels in this module. as $\frac{1}{2}u_j$. One half is applied immediately, the other half will be applied at the end of the algorithm, using vectors $u_{j'}=\frac{1}{2}u_j$ and $v_{j'}^T=v_{j}^T$, which are stored in the array \texttt{later_updates}. + If the determinant of the Slater-matrix is passed, it will be updated to the determinant resulting + from applying the updates to the original matrix. + #+NAME: qmckl_slagel_splitting_args | uint64_t | Dim | in | Leading dimension of Slater_inv | | uint64_t | N_updates | in | Number of rank-1 updates to be applied to Slater_inv | @@ -1080,6 +1105,7 @@ These functions can only be used internally by the kernels in this module. | double | later_updates[Dim * N_updates] | inout | Array containing the split updates for later | | uint64_t | later_index[N_updates] | inout | Array containing the positions of the split updates for later | | uint64_t | later | inout | Number of split updates for later | + | double* | determinant | inout | Determinant of the Slater-matrix | *** Requirements @@ -1109,7 +1135,8 @@ These functions can only be used internally by the kernels in this module. double* Slater_inv, double* later_updates, uint64_t* later_index, - uint64_t* later ); + uint64_t* later, + double* determinant ); #+end_src *** C source @@ -1127,7 +1154,8 @@ qmckl_exit_code qmckl_slagel_splitting(uint64_t Dim, double *Slater_inv, double *later_updates, uint64_t *later_index, - uint64_t *later) { + uint64_t *later, + double *determinant) { // #ifdef DEBUG // Leave commented out since debugging information is not yet implemented in QMCkl. // std::cerr << "Called slagel_splitting with " << N_updates << " updates" << std::endl; // #endif @@ -1162,6 +1190,9 @@ qmckl_exit_code qmckl_slagel_splitting(uint64_t Dim, } // From here onwards we continue with applying the first havel of the update to Slater_inv double iden = 1 / den; + if (determinant != NULL) + *determinant *= den; + // D = v^T x S^{-1} for (uint64_t j = 0; j < Dim; j++) { D[j] = Slater_inv[(Updates_index[l] - 1) * Dim + j];