aihwkit.nn.modules.conv module¶

Convolution layers.

class aihwkit.nn.modules.conv.AnalogConv1d(in_channels, out_channels, kernel_size, stride=1, padding=0, dilation=1, groups=1, bias=True, padding_mode='zeros', rpu_config=None, realistic_read_write=False, weight_scaling_omega=0.0)[source]¶

Bases: aihwkit.nn.modules.conv._AnalogConvNd

1D convolution layer that uses an analog tile.

Applies a 1D convolution over an input signal composed of several input planes, using an analog tile for its forward, backward and update passes.

Note

The tensor parameters of this layer (.weight and .bias) are not guaranteed to contain the same values as the internal weights and biases stored in the analog tile. Please use set_weights and get_weights when attempting to read or modify the weight/bias. This read/write process can simulate the (noisy and inexact) analog writing and reading of the resistive elements.

Parameters

in_channels – number of channels in the input image.
out_channels – number of channels produced by the convolution.
kernel_size – size of the convolving kernel.
stride – stride of the convolution.
padding – zero-padding added to both sides of the input.
dilation – spacing between kernel elements.
groups – number of blocked connections from input channels to output channels.
bias – whether to use a bias row on the analog tile or not.
padding_mode – padding strategy. Only 'zeros' is supported.
rpu_config – resistive processing unit configuration.
realistic_read_write – whether to enable realistic read/write for setting initial weights and during reading of the weights.
weight_scaling_omega – the weight value that the current max weight value will be scaled to. If zero, no weight scaling will be performed.

analog_bias¶

digital_bias¶

digital_bias_view()[source]¶

Return the correct view to the digital bias

Return type: torch.Tensor

dilation¶

fold_indices¶

classmethod from_digital(module, rpu_config=None, realistic_read_write=False, weight_scaling_omega=0.0)[source]¶

Return an AnalogConv1d layer from a torch Conv1d layer.

Parameters

module (torch.nn.modules.conv.Conv1d) – The torch module to convert. All layers that are defined in the conversion_map.
rpu_config (Optional[Union[aihwkit.simulator.configs.configs.FloatingPointRPUConfig, aihwkit.simulator.configs.configs.SingleRPUConfig, aihwkit.simulator.configs.configs.UnitCellRPUConfig, aihwkit.simulator.configs.configs.InferenceRPUConfig, aihwkit.simulator.configs.configs.DigitalRankUpdateRPUConfig]]) – RPU config to apply to all converted tiles. Applied to all converted tiles.
realistic_read_write (bool) – Whether to use closed-loop programming when setting the weights. Applied to all converted tiles.
weight_scaling_omega (float) –
If non-zero, the analog weights will be scaled by weight_scaling_omega divided by the absolute maximum value of the original weight matrix.

Note

Make sure that the weight max and min settings of the device support the desired analog weight range.

Returns

an AnalogConv1d layer based on the digital Conv1d module.

Return type

aihwkit.nn.modules.conv.AnalogConv1d

get_tile_size(in_channels, groups, kernel_size)[source]¶

Calculate the tile size.

Parameters

in_channels (int) –
groups (int) –
kernel_size (Tuple[int, ..]) –

Return type

int

groups¶

in_channels¶

in_features¶

input_size¶

kernel_size¶

out_channels¶

out_features¶

output_padding¶

padding¶

padding_mode¶

realistic_read_write¶

stride¶

transposed¶

use_bias¶

weight_scaling_omega¶

class aihwkit.nn.modules.conv.AnalogConv2d(in_channels, out_channels, kernel_size, stride=1, padding=0, dilation=1, groups=1, bias=True, padding_mode='zeros', rpu_config=None, realistic_read_write=False, weight_scaling_omega=0.0)[source]¶

Bases: aihwkit.nn.modules.conv._AnalogConvNd

2D convolution layer that uses an analog tile.

Applies a 2D convolution over an input signal composed of several input planes, using an analog tile for its forward, backward and update passes.

Note

The tensor parameters of this layer (.weight and .bias) are not guaranteed to contain the same values as the internal weights and biases stored in the analog tile. Please use set_weights and get_weights when attempting to read or modify the weight/bias. This read/write process can simulate the (noisy and inexact) analog writing and reading of the resistive elements.

Parameters

in_channels – number of channels in the input image.
out_channels – number of channels produced by the convolution.
kernel_size – size of the convolving kernel.
stride – stride of the convolution.
padding – zero-padding added to both sides of the input.
dilation – spacing between kernel elements.
groups – number of blocked connections from input channels to output channels.
bias – whether to use a bias row on the analog tile or not.
padding_mode – padding strategy. Only 'zeros' is supported.
rpu_config – resistive processing unit configuration.
realistic_read_write – whether to enable realistic read/write for setting initial weights and read out of weights.
weight_scaling_omega – the weight value where the max weight will be scaled to. If zero, no weight scaling will be performed.

analog_bias¶

digital_bias¶

digital_bias_view()[source]¶

Return the correct view to the digital bias

Return type: torch.Tensor

dilation¶

fold_indices¶

classmethod from_digital(module, rpu_config=None, realistic_read_write=False, weight_scaling_omega=0.0)[source]¶

Return an AnalogConv2d layer from a torch Conv2d layer.

Parameters

module (torch.nn.modules.conv.Conv2d) – The torch module to convert. All layers that are defined in the conversion_map.
rpu_config (Optional[Union[aihwkit.simulator.configs.configs.FloatingPointRPUConfig, aihwkit.simulator.configs.configs.SingleRPUConfig, aihwkit.simulator.configs.configs.UnitCellRPUConfig, aihwkit.simulator.configs.configs.InferenceRPUConfig, aihwkit.simulator.configs.configs.DigitalRankUpdateRPUConfig]]) – RPU config to apply to all converted tiles. Applied to all converted tiles.
realistic_read_write (bool) – Whether to use closed-loop programming when setting the weights. Applied to all converted tiles.
weight_scaling_omega (float) –
If non-zero, the analog weights will be scaled by weight_scaling_omega divided by the absolute maximum value of the original weight matrix.

Note

Make sure that the weight max and min settings of the device support the desired analog weight range.

Returns

an AnalogConv2d layer based on the digital Conv2d module.

Return type

aihwkit.nn.modules.conv.AnalogConv2d

get_tile_size(in_channels, groups, kernel_size)[source]¶

Calculate the tile size.

Parameters

in_channels (int) –
groups (int) –
kernel_size (Tuple[int, ..]) –

Return type

int

groups¶

in_channels¶

in_features¶

input_size¶

kernel_size¶

out_channels¶

out_features¶

output_padding¶

padding¶

padding_mode¶

realistic_read_write¶

stride¶

transposed¶

use_bias¶

weight_scaling_omega¶

class aihwkit.nn.modules.conv.AnalogConv3d(in_channels, out_channels, kernel_size, stride=1, padding=0, dilation=1, groups=1, bias=True, padding_mode='zeros', rpu_config=None, realistic_read_write=False, weight_scaling_omega=0.0)[source]¶

Bases: aihwkit.nn.modules.conv._AnalogConvNd

3D convolution layer that uses an analog tile.

Applies a 3D convolution over an input signal composed of several input planes, using an analog tile for its forward, backward and update passes.

Note

The tensor parameters of this layer (.weight and .bias) are not guaranteed to contain the same values as the internal weights and biases stored in the analog tile. Please use set_weights and get_weights when attempting to read or modify the weight/bias. This read/write process can simulate the (noisy and inexact) analog writing and reading of the resistive elements.

Parameters

in_channels – number of channels in the input image.
out_channels – number of channels produced by the convolution.
kernel_size – size of the convolving kernel.
stride – stride of the convolution.
padding – zero-padding added to both sides of the input.
dilation – spacing between kernel elements.
groups – number of blocked connections from input channels to output channels.
bias – whether to use a bias row on the analog tile or not.
padding_mode – padding strategy. Only 'zeros' is supported.
rpu_config – resistive processing unit configuration.
realistic_read_write – whether to enable realistic read/write for setting initial weights and read out of weights.
weight_scaling_omega – the weight value where the max weight will be scaled to. If zero, no weight scaling will be performed.

analog_bias¶

digital_bias¶

digital_bias_view()[source]¶

Return the correct view to the digital bias

Return type: torch.Tensor

dilation¶

fold_indices¶

classmethod from_digital(module, rpu_config=None, realistic_read_write=False, weight_scaling_omega=0.0)[source]¶

Return an AnalogConv3d layer from a torch Conv3d layer.

Parameters

module (torch.nn.modules.conv.Conv3d) – The torch module to convert. All layers that are defined in the conversion_map.
rpu_config (Optional[Union[aihwkit.simulator.configs.configs.FloatingPointRPUConfig, aihwkit.simulator.configs.configs.SingleRPUConfig, aihwkit.simulator.configs.configs.UnitCellRPUConfig, aihwkit.simulator.configs.configs.InferenceRPUConfig, aihwkit.simulator.configs.configs.DigitalRankUpdateRPUConfig]]) – RPU config to apply to all converted tiles. Applied to all converted tiles.
realistic_read_write (bool) – Whether to use closed-loop programming when setting the weights. Applied to all converted tiles.
weight_scaling_omega (float) –
If non-zero, the analog weights will be scaled by weight_scaling_omega divided by the absolute maximum value of the original weight matrix.

Note

Make sure that the weight max and min settings of the device support the desired analog weight range.

Returns

an AnalogConv3d layer based on the digital Conv3d module.

Return type

aihwkit.nn.modules.conv.AnalogConv3d

get_tile_size(in_channels, groups, kernel_size)[source]¶

Calculate the tile size.

Parameters

in_channels (int) –
groups (int) –
kernel_size (Tuple[int, ..]) –

Return type

int

groups¶

in_channels¶

in_features¶

input_size¶

kernel_size¶

out_channels¶

out_features¶

output_padding¶

padding¶

padding_mode¶

realistic_read_write¶

stride¶

transposed¶

use_bias¶

weight_scaling_omega¶