svm_regressor.predict
fn predict(ref self: SVMRegressor<T>, X: Tensor<T>) -> Tensor<T>;Support Vector Machine regression prediction and one-class SVM anomaly detection.
Args
self: SVMRegressor - A SVMRegressor object.X: Input 2D tensor.
Returns
Tensor containing the Support Vector Machine regression prediction and one-class SVM anomaly detection of the input X.
Type Constraints
SVMRegressor and X must be fixed points
Examples
use orion::numbers::FP16x16;
use orion::operators::tensor::{Tensor, TensorTrait, FP16x16Tensor, U32Tensor};
use orion::operators::tensor::FP16x16TensorPartialEq;
use orion::operators::ml::svm::svm_regressor::{SVMRegressorTrait, POST_TRANSFORM, SVMRegressor};
use orion::operators::ml::svm::core::{KERNEL_TYPE};
fn example_svm_regressor_linear() -> Tensor<FP16x16> {
let coefficients: Span<FP16x16> = array![
FP16x16 { mag: 65536, sign: false },
FP16x16 { mag: 65536, sign: true },
FP16x16 { mag: 54959, sign: false },
FP16x16 { mag: 54959, sign: true },
FP16x16 { mag: 29299, sign: false },
FP16x16 { mag: 65536, sign: true },
FP16x16 { mag: 36236, sign: false }
]
.span();
let n_supports: usize = 7;
let one_class: usize = 0;
let rho: Span<FP16x16> = array![FP16x16 { mag: 35788, sign: false }].span();
let support_vectors: Span<FP16x16> = array![
FP16x16 { mag: 8421, sign: true },
FP16x16 { mag: 5842, sign: false },
FP16x16 { mag: 4510, sign: false },
FP16x16 { mag: 5202, sign: true },
FP16x16 { mag: 14783, sign: true },
FP16x16 { mag: 17380, sign: true },
FP16x16 { mag: 60595, sign: false },
FP16x16 { mag: 1674, sign: true },
FP16x16 { mag: 38669, sign: true },
FP16x16 { mag: 63803, sign: false },
FP16x16 { mag: 87720, sign: true },
FP16x16 { mag: 22236, sign: false },
FP16x16 { mag: 61816, sign: false },
FP16x16 { mag: 34267, sign: true },
FP16x16 { mag: 36418, sign: false },
FP16x16 { mag: 27471, sign: false },
FP16x16 { mag: 28421, sign: false },
FP16x16 { mag: 69270, sign: true },
FP16x16 { mag: 152819, sign: false },
FP16x16 { mag: 4065, sign: false },
FP16x16 { mag: 62274, sign: true }
]
.span();
let post_transform = POST_TRANSFORM::NONE;
let kernel_params: Span<FP16x16> = array![
FP16x16 { mag: 27812, sign: false },
FP16x16 { mag: 0, sign: false },
FP16x16 { mag: 196608, sign: false }
]
.span();
let kernel_type = KERNEL_TYPE::LINEAR;
let mut regressor: SVMRegressor<FP16x16> = SVMRegressor {
coefficients,
kernel_params,
kernel_type,
n_supports,
one_class,
post_transform,
rho,
support_vectors,
};
let mut X: Tensor<FP16x16> = TensorTrait::new(
array![3, 3].span(),
array![
FP16x16 { mag: 32768, sign: true },
FP16x16 { mag: 26214, sign: true },
FP16x16 { mag: 19660, sign: true },
FP16x16 { mag: 13107, sign: true },
FP16x16 { mag: 6553, sign: true },
FP16x16 { mag: 0, sign: false },
FP16x16 { mag: 6553, sign: false },
FP16x16 { mag: 13107, sign: false },
FP16x16 { mag: 19660, sign: false },
]
.span()
);
return SVMRegressorTrait::predict(ref regressor, X);
}
>>> [[-0.468206], [0.227487], [0.92318]]Last updated