mindspore.train.ConfusionMatrixMetric
- class mindspore.train.ConfusionMatrixMetric(skip_channel=True, metric_name='sensitivity', calculation_method=False, decrease='mean')[source]
Computes metrics related to confusion matrix. The calculation based on full-scale tensor, average values of batch, class channel and iteration are collected. All metrics supported by the interface are listed in comments of metric_name.
If you want to calculate metrics related to confusion matrix, such as ‘PPV’, ‘TPR’, ‘TNR’, use this class. If you only want to calculate confusion matrix, please use
mindspore.train.ConfusionMatrix
.- Parameters
skip_channel (bool) – Whether to skip the measurement calculation on the first channel of the predicted output. Default:
True
.metric_name (str) – Names of supported metrics , users can also set the industry common aliases for them. Choose from: [“sensitivity”, “specificity”, “precision”, “negative predictive value”, “miss rate”, “fall out”, “false discovery rate”, “false omission rate”, “prevalence threshold”, “threat score”, “accuracy”, “balanced accuracy”, “f1 score”, “matthews correlation coefficient”, “fowlkes mallows index”, “informedness”, “markedness”]. Default:
"sensitivity"
.calculation_method (bool) – If true, the measurement for each sample will be calculated first. If not, the confusion matrix of all samples will be accumulated first. As for classification task, ‘calculation_method’ should be False. Default:
False
.decrease (str) – The reduction method on data batch. decrease takes effect only when calculation_method is True. Default:
"mean"
. Choose from: [“none”, “mean”, “sum”, “mean_batch”, “sum_batch”, “mean_channel”, “sum_channel”].
- Supported Platforms:
Ascend
GPU
CPU
Examples
>>> import numpy as np >>> from mindspore import Tensor >>> from mindspore.train import ConfusionMatrixMetric >>> >>> metric = ConfusionMatrixMetric(skip_channel=True, metric_name="tpr", ... calculation_method=False, decrease="mean") >>> metric.clear() >>> x = Tensor(np.array([[[0], [1]], [[1], [0]]])) >>> y = Tensor(np.array([[[0], [1]], [[0], [1]]])) >>> metric.update(x, y) >>> avg_output = metric.eval() >>> print(avg_output) [0.5]
- update(*inputs)[source]
Update state with predictions and targets.
- Parameters
inputs (tuple) –
Input y_pred and y. y_pred and y are a Tensor, list or numpy.ndarray.
y_pred (ndarray): The batch data shape is \((N, C, ...)\) or \((N, ...)\), representing onehot format or category index format respectively. As for classification tasks, y_pred should have the shape [BN] where N is larger than 1. As for segmentation tasks, the shape should be [BNHW] or [BNHWD].
y (ndarray): It must be one-hot format. The batch data shape is \((N, C, ...)\).
- Raises
ValueError – If the number of the inputs is not 2.