.. _l-GaussianProcessRegressor-~b-reg-NF-std-64-dotproduct--o17: GaussianProcessRegressor - ~b-reg-NF-std-64 - dotproduct - =========================================================== Fitted on a problem type *~b-reg-NF-std-64* (see :func:`find_suitable_problem `), method `predict` matches output . :: GaussianProcessRegressor(alpha=100.0, kernel=DotProduct(sigma_0=1), random_state=42) +----------------------+----------+ | index | 0 | +======================+==========+ | skl_nop | 1 | +----------------------+----------+ | onx_size | 649 | +----------------------+----------+ | onx_nnodes | 7 | +----------------------+----------+ | onx_ninits | 2 | +----------------------+----------+ | onx_doc_string | | +----------------------+----------+ | onx_ir_version | 8 | +----------------------+----------+ | onx_domain | ai.onnx | +----------------------+----------+ | onx_model_version | 0 | +----------------------+----------+ | onx_producer_name | skl2onnx | +----------------------+----------+ | onx_producer_version | 1.13.1 | +----------------------+----------+ | onx_ | 17 | +----------------------+----------+ | onx_size_optim | 649 | +----------------------+----------+ | onx_nnodes_optim | 7 | +----------------------+----------+ | onx_ninits_optim | 2 | +----------------------+----------+ .. gdot:: digraph{ size=7; ranksep=0.25; nodesep=0.05; orientation=portrait; X [shape=box color=red label="X\ndouble((0, 4))" fontsize=10]; GPmean [shape=box color=green label="GPmean\ndouble((0, 1))" fontsize=10]; GPcovstd [shape=box color=green label="GPcovstd\ndouble(('?',))" fontsize=10]; Re_ReduceSumcst [shape=box label="Re_ReduceSumcst\nint64((1,))\n[1]" fontsize=10]; Ad_Addcst [shape=box label="Ad_Addcst\nfloat64((1,))\n[1.]" fontsize=10]; Sh_shape0 [shape=box label="Sh_shape0" fontsize=10]; Sh_Shape [shape=box style="filled,rounded" color=orange label="Shape\n(Sh_Shape)" fontsize=10]; X -> Sh_Shape; Sh_Shape -> Sh_shape0; Re_reduced0 [shape=box label="Re_reduced0" fontsize=10]; Re_ReduceSumSquare [shape=box style="filled,rounded" color=orange label="ReduceSumSquare\n(Re_ReduceSumSquare)\naxes=[1]\nkeepdims=1" fontsize=10]; X -> Re_ReduceSumSquare; Re_ReduceSumSquare -> Re_reduced0; Co_output0 [shape=box label="Co_output0" fontsize=10]; Co_ConstantOfShape [shape=box style="filled,rounded" color=orange label="ConstantOfShape\n(Co_ConstantOfShape)\nvalue=[0.]" fontsize=10]; Sh_shape0 -> Co_ConstantOfShape; Co_ConstantOfShape -> Co_output0; Ad_C0 [shape=box label="Ad_C0" fontsize=10]; Ad_Add [shape=box style="filled,rounded" color=orange label="Add\n(Ad_Add)" fontsize=10]; Re_reduced0 -> Ad_Add; Ad_Addcst -> Ad_Add; Ad_Add -> Ad_C0; Re_ReduceSum [shape=box style="filled,rounded" color=orange label="ReduceSum\n(Re_ReduceSum)\nkeepdims=1" fontsize=10]; Co_output0 -> Re_ReduceSum; Re_ReduceSumcst -> Re_ReduceSum; Re_ReduceSum -> GPmean; Sq_squeezed0 [shape=box label="Sq_squeezed0" fontsize=10]; Sq_Squeeze [shape=box style="filled,rounded" color=orange label="Squeeze\n(Sq_Squeeze)" fontsize=10]; Ad_C0 -> Sq_Squeeze; Re_ReduceSumcst -> Sq_Squeeze; Sq_Squeeze -> Sq_squeezed0; Sq_Sqrt [shape=box style="filled,rounded" color=orange label="Sqrt\n(Sq_Sqrt)" fontsize=10]; Sq_squeezed0 -> Sq_Sqrt; Sq_Sqrt -> GPcovstd; }