/dports/math/qposases/qpOASES-3.2.1/src/ |
H A D | SQProblem.cpp | 219 real_t* H_new = new real_t[nV*nV]; in hotstart() local 222 if ( readFromFile( H_new, nV,nV, H_file ) != SUCCESSFUL_RETURN ) in hotstart() 225 delete[] H_new; in hotstart() 232 delete[] H_new; in hotstart() 258 delete[] H_new; in hotstart() 279 delete[] H_new; in hotstart() 390 if ( H_new != 0 ) in setupNewAuxiliaryQP() 392 setH( H_new ); in setupNewAuxiliaryQP() 536 if ( H_new != 0 ) in setupNewAuxiliaryQP() 537 sH = new SymDenseMat(nV, nV, nV, (real_t*) H_new); in setupNewAuxiliaryQP() [all …]
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/dports/math/casadi/casadi-3.5.5/external_packages/qpOASES/src/ |
H A D | SQProblem.cpp | 218 real_t* H_new = new real_t[nV*nV]; in hotstart() local 221 if ( readFromFile( H_new, nV,nV, H_file ) != SUCCESSFUL_RETURN ) in hotstart() 224 delete[] H_new; in hotstart() 231 delete[] H_new; in hotstart() 257 delete[] H_new; in hotstart() 278 delete[] H_new; in hotstart() 389 if ( H_new != 0 ) in setupNewAuxiliaryQP() 391 setH( H_new ); in setupNewAuxiliaryQP() 535 if ( H_new != 0 ) in setupNewAuxiliaryQP() 536 sH = new SymDenseMat(nV, nV, nV, (real_t*) H_new); in setupNewAuxiliaryQP() [all …]
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/dports/math/qposases/qpOASES-3.2.1/include/qpOASES/ |
H A D | SQProblem.hpp | 108 …returnValue hotstart( SymmetricMatrix *H_new, /**< Hessian matrix of neighbouring QP to be s… 145 …returnValue hotstart( const real_t* const H_new, /**< Hessian matrix of neighbouring QP to be… 305 virtual returnValue setupNewAuxiliaryQP( SymmetricMatrix *H_new, /**< New Hessian matrix. \n 327 virtual returnValue setupNewAuxiliaryQP( const real_t* const H_new, /**< New Hessian matrix. \n
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H A D | QProblemB.ipp | 239 inline returnValue QProblemB::setH( SymmetricMatrix* H_new ) 247 H = H_new; 257 inline returnValue QProblemB::setH( const real_t* const H_new ) 264 if ( H_new == 0 ) 282 H = dH = new SymDenseMat( nV, nV, nV, (real_t*) H_new );
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H A D | QProblemB.hpp | 634 …inline returnValue setH( SymmetricMatrix* H_new /**< New Hessian matrix (a shallow copy is made). … 642 …inline returnValue setH( const real_t* const H_new /**< New dense Hessian matrix (with correct dim…
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H A D | SQProblemSchur.hpp | 142 virtual returnValue setupAuxiliaryQP( SymmetricMatrix *H_new, /**< New Hessian matrix. \n
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/dports/math/casadi/casadi-3.5.5/external_packages/qpOASES/include/qpOASES/ |
H A D | SQProblem.hpp | 107 …returnValue hotstart( SymmetricMatrix *H_new, /**< Hessian matrix of nei… 144 …returnValue hotstart( const real_t* const H_new, /**< Hessian matrix of nei… 304 …virtual returnValue setupNewAuxiliaryQP( SymmetricMatrix *H_new, /**< New Hessian matrix. \n 326 …virtual returnValue setupNewAuxiliaryQP( const real_t* const H_new, /**< New Hessian matrix. \n
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H A D | QProblemB.ipp | 239 inline returnValue QProblemB::setH( SymmetricMatrix* H_new ) 247 H = H_new; 257 inline returnValue QProblemB::setH( const real_t* const H_new ) 264 if ( H_new == 0 ) 282 H = dH = new SymDenseMat( nV, nV, nV, (real_t*) H_new );
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H A D | QProblemB.hpp | 633 …inline returnValue setH( SymmetricMatrix* H_new /**< New Hessian matrix (a shallow copy is mad… 641 …inline returnValue setH( const real_t* const H_new /**< New dense Hessian matrix (with correc…
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/dports/science/py-GPy/GPy-1.10.0/GPy/inference/mcmc/ |
H A D | hmc.py | 49 H_new = self._computeH() 51 if H_old>H_new: 54 k = np.exp(H_old-H_new) 94 H_new = self._computeH() 96 if H_old>H_new: 99 k = np.exp(H_old-H_new)
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/dports/math/libflame/libflame-5.2.0/src/base/flamec/hierarchy/check/main/ |
H A D | FLASH_Obj_create_conf_to_check.c | 13 FLA_Error FLASH_Obj_create_conf_to_check( FLA_Trans trans, FLA_Obj H_cur, FLA_Obj* H_new ) in FLASH_Obj_create_conf_to_check() argument 20 e_val = FLA_Check_null_pointer( H_new ); in FLASH_Obj_create_conf_to_check()
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/dports/math/qposases/qpOASES-3.2.1/examples/ |
H A D | example1a.cpp | 54 real_t H_new[2*2] = { 1.0, 0.5, 0.5, 0.5 }; in main() local 72 example.hotstart( H_new,g_new,A_new,lb_new,ub_new,lbA_new,ubA_new, nWSR,0 ); in main()
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H A D | example2.cpp | 55 real_t H_new[2*2] = { 1.0, 0.5, 0.5, 0.5 }; in main() local 78 example.hotstart( H_new,g_new,A_new,lb_new,ub_new,lbA_new,ubA_new, nWSR,0 ); in main()
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/dports/math/qposases/qpOASES-3.2.1/testing/c/ |
H A D | test_c_example1a.c | 52 real_t H_new[2*2] = { 1.0, 0.5, 0.5, 0.5 }; in main() local 87 SQProblem_hotstart( H_new,g_new,A_new,lb_new,ub_new,lbA_new,ubA_new, in main()
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/dports/math/qposases/qpOASES-3.2.1/interfaces/c/ |
H A D | c_example1a.c | 52 real_t H_new[2*2] = { 1.0, 0.5, 0.5, 0.5 }; in main() local 87 SQProblem_hotstart( H_new,g_new,A_new,lb_new,ub_new,lbA_new,ubA_new, in main()
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/dports/devel/py-qutip/qutip-4.6.2/qutip/ |
H A D | rhs_generate.py | 407 H_new = [] 412 H_new = H 421 H_new.append([H_op, H_td_str]) 424 H_new.append(Hk) 449 return H_new, c_ops_new, args_new
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/dports/math/qposases/qpOASES-3.2.1/testing/cpp/ |
H A D | test_example1a.cpp | 55 real_t H_new[2*2] = { 1.0, 0.5, 0.5, 0.5 }; 90 example.hotstart( H_new,g_new,A_new,lb_new,ub_new,lbA_new,ubA_new, nWSR,0 );
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H A D | test_example2.cpp | 56 real_t H_new[2*2] = { 1.0, 0.5, 0.5, 0.5 }; in main() local 82 example.hotstart( H_new,g_new,A_new,lb_new,ub_new,lbA_new,ubA_new, nWSR,0 ); in main()
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/dports/math/qposases/qpOASES-3.2.1/interfaces/python/examples/ |
H A D | example2.py | 41 H_new = np.array([ 1.0, 0.5, 0.5, 0.5 ]).reshape((2,2)) variable 67 example.hotstart(H_new, g_new, A_new, lb_new, ub_new,
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/dports/math/libflame/libflame-5.2.0/src/base/flamec/hierarchy/main/ |
H A D | FLASH_Obj.c | 406 FLA_Error FLASH_Obj_create_conf_to( FLA_Trans trans, FLA_Obj H, FLA_Obj* H_new ) in FLASH_Obj_create_conf_to() argument 417 FLASH_Obj_create_conf_to_check( trans, H, H_new ); in FLASH_Obj_create_conf_to() 445 FLASH_Obj_create_ext( datatype, m_base, n_base, depth, b_m, b_n, H_new ); in FLASH_Obj_create_conf_to() 449 FLASH_Obj_adjust_views( FALSE, offm_scalar, offn_scalar, m_view, n_view, H, H_new ); in FLASH_Obj_create_conf_to() 561 FLA_Error FLASH_Obj_create_copy_of( FLA_Trans trans, FLA_Obj H_cur, FLA_Obj* H_new ) in FLASH_Obj_create_copy_of() argument 564 FLASH_Obj_create_conf_to( trans, H_cur, H_new ); in FLASH_Obj_create_copy_of() 570 FLASH_Copy( H_cur, *H_new ); in FLASH_Obj_create_copy_of() 582 FLASH_Obj_hierarchify( F_trans, *H_new ); in FLASH_Obj_create_copy_of()
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/dports/misc/py-onnx/onnx-1.10.2/onnx/defs/training/ |
H A D | defs.cc | 221 the new accumulated squared gradient (called "H_new"). Those outputs are computed 520 - the new exponentially-averaged historical squared gradient (denoted by "H_new").
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/dports/math/libflame/libflame-5.2.0/src/base/flamec/hierarchy/include/ |
H A D | FLASH_main_prototypes.h | 18 FLA_Error FLASH_Obj_create_conf_to_check( FLA_Trans trans, FLA_Obj H_cur, FLA_Obj* H_new ); 101 FLA_Error FLASH_Obj_create_conf_to( FLA_Trans trans, FLA_Obj H_cur, FLA_Obj* H_new ); 105 FLA_Error FLASH_Obj_create_copy_of( FLA_Trans trans, FLA_Obj H_cur, FLA_Obj* H_new );
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/dports/science/py-scipy/scipy-1.7.1/scipy/optimize/_shgo_lib/ |
H A D | triangulation.py | 206 H_new = [] # list storing all the new cubes split from C_i 209 H_new.append( 225 return H_new
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/dports/math/qposases/qpOASES-3.2.1/interfaces/python/tests/ |
H A D | test_examples.py | 217 H_new = np.array([ 1.0, 0.5, 0.5, 0.5 ]).reshape((2,2)) 268 H_new, g_new, A_new,
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/dports/science/siesta/siesta-4.1.5/Src/ |
H A D | m_handle_sparse.F90 | 1287 real(dp), pointer :: H_orig(:,:), H_new(:,:), S_orig(:) local 1312 H_new => val(tmp) 1314 H_new(:,1) = H_orig(:,ispin) - Ef * S_orig(:) 1316 H_new(:,1) = H_orig(:,ispin)
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