class sinabs.layers.ExpLeak(tau_mem: Union[float, torch.Tensor], shape: Optional[torch.Size] = None, train_alphas: bool = False, min_v_mem: Optional[float] = None, norm_input: bool = False, record_states: bool = False)[source]#

Leaky Integrator layer.

Neuron dynamics in discrete time:

\[V_{mem}(t+1) = \alpha V_{mem}(t) + (1-\alpha)\sum z(t)\]

where \(\alpha = e^{-1/tau_{mem}}\) and \(\sum z(t)\) represents the sum of all input currents at time \(t\).

  • tau_mem (float) – Membrane potential time constant.

  • min_v_mem (float or None) – Lower bound for membrane potential v_mem, clipped at every time step.

  • train_alphas (bool) – When True, the discrete decay factor exp(-1/tau) is used for training rather than tau itself.

  • shape (torch.Size) – Optionally initialise the layer state with given shape. If None, will be inferred from input_size.

  • norm_input (bool) – When True, normalise input current by tau. This helps when training time constants.

  • record_states (bool) – When True, will record all internal states such as v_mem or i_syn in a dictionary attribute recordings. Default is False.

forward(input_data: torch.Tensor)#

Forward pass with given data.


input_current – torch.Tensor Data to be processed. Expected shape: (batch, time, …)



Output data. Same shape as input_data.