Histogram

class hybrid_learning.concepts.train_eval.kpis.aggregating_kpis.Histogram(n_bins=100, lower_bound=0, upper_bound=1.0, device=None)[source]

Bases: _OnPredictions

Collect a histogram of the model output values.

Public Data Attributes:

Inherited from : py: class:Module

`dump_patches`	This allows better BC support for `load_state_dict()`.
`T_destination`	alias of TypeVar('T_destination', bound=`Mapping`[`str`, `Tensor`])

Public Methods:

`update`(outputs[, _labels])	Update the bin count.
`reset`()	Reset the bin count.
`value`()	Plot the histogram.

Inherited from : py: class:_OnPredictions

`forward`(outputs[, _labels])	Calculate KPI without gradient.
`update`(outputs[, _labels])	Update the bin count.

Inherited from : py: class:AggregatingKpi

`update`(outputs[, _labels])	Update the bin count.
`reset`()	Reset the bin count.
`value`()	Plot the histogram.
`value_and_reset`()	Shorthand for subsequent calls to `value` and to `reset`.
`forward`(outputs[, _labels])	Calculate KPI without gradient.

Inherited from : py: class:Module

`forward`(outputs[, _labels])	Calculate KPI without gradient.
`register_buffer`(name, tensor[, persistent])	Adds a buffer to the module.
`register_parameter`(name, param)	Adds a parameter to the module.
`add_module`(name, module)	Adds a child module to the current module.
`get_submodule`(target)	Returns the submodule given by `target` if it exists, otherwise throws an error.
`get_parameter`(target)	Returns the parameter given by `target` if it exists, otherwise throws an error.
`get_buffer`(target)	Returns the buffer given by `target` if it exists, otherwise throws an error.
`apply`(fn)	Applies `fn` recursively to every submodule (as returned by `.children()`) as well as self.
`cuda`([device])	Moves all model parameters and buffers to the GPU.
`xpu`([device])	Moves all model parameters and buffers to the XPU.
`cpu`()	Moves all model parameters and buffers to the CPU.
`type`(dst_type)	Casts all parameters and buffers to `dst_type`.
`float`()	Casts all floating point parameters and buffers to `float` datatype.
`double`()	Casts all floating point parameters and buffers to `double` datatype.
`half`()	Casts all floating point parameters and buffers to `half` datatype.
`bfloat16`()	Casts all floating point parameters and buffers to `bfloat16` datatype.
`to_empty`(*, device)	Moves the parameters and buffers to the specified device without copying storage.
`to`(args, *kwargs)	Moves and/or casts the parameters and buffers.
`register_backward_hook`(hook)	Registers a backward hook on the module.
`register_full_backward_hook`(hook)	Registers a backward hook on the module.
`register_forward_pre_hook`(hook)	Registers a forward pre-hook on the module.
`register_forward_hook`(hook)	Registers a forward hook on the module.
`state_dict`([destination, prefix, keep_vars])	Returns a dictionary containing a whole state of the module.
`load_state_dict`(state_dict[, strict])	Copies parameters and buffers from `state_dict` into this module and its descendants.
`parameters`([recurse])	Returns an iterator over module parameters.
`named_parameters`([prefix, recurse])	Returns an iterator over module parameters, yielding both the name of the parameter as well as the parameter itself.
`buffers`([recurse])	Returns an iterator over module buffers.
`named_buffers`([prefix, recurse])	Returns an iterator over module buffers, yielding both the name of the buffer as well as the buffer itself.
`children`()	Returns an iterator over immediate children modules.
`named_children`()	Returns an iterator over immediate children modules, yielding both the name of the module as well as the module itself.
`modules`()	Returns an iterator over all modules in the network.
`named_modules`([memo, prefix, remove_duplicate])	Returns an iterator over all modules in the network, yielding both the name of the module as well as the module itself.
`train`([mode])	Sets the module in training mode.
`eval`()	Sets the module in evaluation mode.
`requires_grad_`([requires_grad])	Change if autograd should record operations on parameters in this module.
`zero_grad`([set_to_none])	Sets gradients of all model parameters to zero.
`share_memory`()	See `torch.Tensor.share_memory_()`
`extra_repr`()	Set the extra representation of the module

Special Methods:

__init__([n_bins, lower_bound, upper_bound, ...])

Init.

Inherited from : py: class:AggregatingKpi

__init__([n_bins, lower_bound, upper_bound, ...])

Init.

Inherited from : py: class:Module

`__init__`([n_bins, lower_bound, upper_bound, ...])	Init.
`__call__`(input, *kwargs)	Call self as a function.
`__setstate__`(state)
`__getattr__`(name)
`__setattr__`(name, value)	Implement setattr(self, name, value).
`__delattr__`(name)	Implement delattr(self, name).
`__repr__`()	Return repr(self).
`__dir__`()	Default dir() implementation.

Parameters

n_bins (int) –
lower_bound (float) –
upper_bound (float) –
device (Union[str, device]) –

__init__(n_bins=100, lower_bound=0, upper_bound=1.0, device=None)[source]

Init.

Parameters

n_bins (int) – the number of bins to use
lower_bound (float) – the expected lower bound of the output values
upper_bound (float) – the expected upper bound of the output values
device (Optional[Union[str, device]]) – the device onto which to put the count tensor

reset()[source]: Reset the bin count.

update(outputs, _labels=None)[source]

Update the bin count.

Parameters

outputs (Tensor) –
_labels (Optional[Tensor]) –

value()[source]

Plot the histogram.

Return type: Figure

count: Tensor: Total amount of predictions per bin.

n_bins: int: The number of bins to use.

training: bool