open3d.ml.tf.models.SparseConvUnet¶

class open3d.ml.tf.models.SparseConvUnet(*args, **kwargs)¶

Semantic Segmentation model.

Uses UNet architecture replacing convolutions with Sparse Convolutions.

name¶: Name of model. Default to “SparseConvUnet”.

device¶: Which device to use (cpu or cuda).

voxel_size¶: Voxel length for subsampling.

multiplier¶: min length of feature length in each layer.

conv_block_reps¶: repetition of Unet Blocks.

residual_blocks¶: Whether to use Residual Blocks.

in_channels¶: Number of features(default 3 for color).

num_classes¶: Number of classes.

__init__(name='SparseConvUnet', device='cuda', multiplier=16, voxel_size=0.05, conv_block_reps=1, residual_blocks=False, in_channels=3, num_classes=20, grid_size=4096, augment=None, **kwargs)¶: Initialize self. See help(type(self)) for accurate signature.

call(inputs, training=False)¶

Calls the model on new inputs and returns the outputs as tensors.

In this case call() just reapplies all ops in the graph to the new inputs (e.g. build a new computational graph from the provided inputs).

Note: This method should not be called directly. It is only meant to be overridden when subclassing tf.keras.Model. To call a model on an input, always use the __call__() method, i.e. model(inputs), which relies on the underlying call() method.

Parameters

inputs – Input tensor, or dict/list/tuple of input tensors.
training – Boolean or boolean scalar tensor, indicating whether to run the Network in training mode or inference mode.
mask –
A mask or list of masks. A mask can be either a boolean tensor or None (no mask). For more details, check the guide

[here](https://www.tensorflow.org/guide/keras/masking_and_padding).

Returns

A tensor if there is a single output, or a list of tensors if there are more than one outputs.

get_batch_gen(dataset, steps_per_epoch=None, batch_size=1)¶

get_loss(Loss, results, inputs)¶

Calculate the loss on output of the model.

Loss¶: Object of type SemSegLoss.

results¶: Output of the model.

inputs¶: Input of the model.

device¶: device(cpu or cuda).

Returns: Returns loss, labels and scores.

get_optimizer(cfg_pipeline)¶

Returns an optimizer object for the model.

Parameters: cfg_pipeline – A Config object with the configuration of the pipeline.
Returns: Returns a new optimizer object.

inference_begin(data)¶

Function called right before running inference.

Parameters: data – A data from the dataset.

inference_end(results)¶

This function is called after the inference.

This function can be implemented to apply post-processing on the network outputs.

Parameters: results – The model outputs as returned by the call() function. Post-processing is applied on this object.
Returns: Returns True if the inference is complete and otherwise False. Returning False can be used to implement inference for large point clouds which require multiple passes.

inference_preprocess()¶

This function prepares the inputs for the model.

Returns: The inputs to be consumed by the call() function of the model.

preprocess(data, attr)¶

Data preprocessing function.

This function is called before training to preprocess the data from a dataset.

Parameters

data – A sample from the dataset.
attr – The corresponding attributes.

Returns

Returns the preprocessed data

transform(point, feat, label, lengths)¶

Transform function for the point cloud and features.

Parameters: args – A list of tf Tensors.