.. _l-NuSVC-~b-cl-64-prob--o17: NuSVC - ~b-cl-64 - prob - ========================== Fitted on a problem type *~b-cl-64* (see :func:`find_suitable_problem `), method `predict_proba` matches output . :: NuSVC(probability=True, random_state=0) +----------------------------+----------+ | index | 0 | +============================+==========+ | skl_nop | 1 | +----------------------------+----------+ | onx_size | 3041 | +----------------------------+----------+ | onx_nnodes | 4 | +----------------------------+----------+ | onx_ninits | 0 | +----------------------------+----------+ | 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_ | 9 | +----------------------------+----------+ | onx_mlprodict | 1 | +----------------------------+----------+ | onx_ai.onnx.ml | 1 | +----------------------------+----------+ | onx_op_Cast | 2 | +----------------------------+----------+ | onx_op_ZipMap | 1 | +----------------------------+----------+ | onx_size_optim | 3041 | +----------------------------+----------+ | onx_nnodes_optim | 4 | +----------------------------+----------+ | onx_ninits_optim | 0 | +----------------------------+----------+ | fit_class_weight_.shape | 2 | +----------------------------+----------+ | fit_classes_.shape | 2 | +----------------------------+----------+ | fit_support_.shape | 56 | +----------------------------+----------+ | fit_support_vectors_.shape | (56, 4) | +----------------------------+----------+ | fit_dual_coef_.shape | (1, 56) | +----------------------------+----------+ | fit_intercept_.shape | 1 | +----------------------------+----------+ | fit_n_iter_.shape | 1 | +----------------------------+----------+ .. gdot:: digraph{ size=7; ranksep=0.25; nodesep=0.05; orientation=portrait; X [shape=box color=red label="X\ndouble((0, 4))" fontsize=10]; output_label [shape=box color=green label="output_label\nint64((0,))" fontsize=10]; output_probability [shape=box color=green label="output_probability\n[{int64, {'kind': 'tensor', 'elem': 'double', 'shape': }}]" fontsize=10]; label [shape=box label="label" fontsize=10]; SVM02 [shape=box label="SVM02" fontsize=10]; SVMc [shape=box style="filled,rounded" color=orange label="SVMClassifierDouble\n(SVMc)\nclasslabels_ints=[0 1]\ncoefficients=[ 0.08307357 0.08...\nkernel_params=[0.06311981 0. ...\nkernel_type=b'RBF'\npost_transform=b'NONE'\nprob_a=[-4.61228421]\nprob_b=[0.51482421]\nrho=[-0.04041704]\nsupport_vectors=[ 5.16919873e+0...\nvectors_per_class=[28 28]" fontsize=10]; X -> SVMc; SVMc -> label; SVMc -> SVM02; Cast1 [shape=box style="filled,rounded" color=orange label="Cast\n(Cast1)\nto=7" fontsize=10]; label -> Cast1; Cast1 -> output_label; probabilities [shape=box label="probabilities" fontsize=10]; Cast [shape=box style="filled,rounded" color=orange label="Cast\n(Cast)\nto=11" fontsize=10]; SVM02 -> Cast; Cast -> probabilities; ZipMap [shape=box style="filled,rounded" color=orange label="ZipMap\n(ZipMap)\nclasslabels_int64s=[0 1]" fontsize=10]; probabilities -> ZipMap; ZipMap -> output_probability; }