NuSVC - b-cl - prob -#

Fitted on a problem type b-cl (see find_suitable_problem), method predict_proba matches output .

NuSVC(probability=True, random_state=0)

index

0

skl_nop

1

onx_size

2043

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

1.11.1

onx_ai.onnx.ml

1

onx_

9

onx_op_Cast

2

onx_op_ZipMap

1

onx_size_optim

2043

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
%0 X X float((0, 4)) SVMc SVMClassifier (SVMc) classlabels_ints=[0 1] coefficients=[ 0.08307358  0.08... kernel_params=[0.06311981 0.   ... kernel_type=b'RBF' post_transform=b'NONE' prob_a=[-4.612284] prob_b=[0.51482415] rho=[-0.04041706] support_vectors=[ 5.1691985e+00... vectors_per_class=[28 28] X->SVMc output_label output_label int64((0,)) output_probability output_probability [{int64, {'kind': 'tensor', 'elem': 'float', 'shape': }}] label label Cast1 Cast (Cast1) to=7 label->Cast1 SVM02 SVM02 Cast Cast (Cast) to=1 SVM02->Cast SVMc->label SVMc->SVM02 Cast1->output_label probabilities probabilities ZipMap ZipMap (ZipMap) classlabels_int64s=[0 1] probabilities->ZipMap Cast->probabilities ZipMap->output_probability

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