FullProjAlignPreSDMg

class brainpy.dyn.FullProjAlignPreSDMg(pre, syn, delay, comm, out, post, out_label=None, name=None, mode=None)

Full-chain synaptic projection with the align-pre reduction and synapse+delay updating and merging.

The full-chain means that the model needs to provide all information needed for a projection, including pre -> syn -> delay -> comm -> out -> post.

The align-pre means that the synaptic variables have the same dimension as the pre-synaptic neuron group.

The synapse+delay updating means that the projection first computes the synapse states, then delivers the synapse states to the delay model, and finally computes the synaptic current.

The merging means that the same delay model is shared by all synapses, and the synapse model with same parameters (such like time constants) will also share the same synaptic variables.

Neither FullProjAlignPreSDMg nor FullProjAlignPreDSMg facilitates the event-driven computation. This is because the comm is computed after the synapse state, which is a floating-point number, rather than the spiking. To facilitate the event-driven computation, please use align post projections.

To simulate an E/I balanced network model:

class EINet(bp.DynSysGroup):
  def __init__(self):
    super().__init__()
    ne, ni = 3200, 800
    self.E = bp.dyn.LifRef(ne, V_rest=-60., V_th=-50., V_reset=-60., tau=20., tau_ref=5.,
                           V_initializer=bp.init.Normal(-55., 2.))
    self.I = bp.dyn.LifRef(ni, V_rest=-60., V_th=-50., V_reset=-60., tau=20., tau_ref=5.,
                           V_initializer=bp.init.Normal(-55., 2.))
    self.E2E = bp.dyn.FullProjAlignPreSDMg(pre=self.E,
                                          syn=bp.dyn.Expon.desc(size=ne, tau=5.),
                                          delay=0.1,
                                          comm=bp.dnn.JitFPHomoLinear(ne, ne, prob=0.02, weight=0.6),
                                          out=bp.dyn.COBA(E=0.),
                                          post=self.E)
    self.E2I = bp.dyn.FullProjAlignPreSDMg(pre=self.E,
                                          syn=bp.dyn.Expon.desc(size=ne, tau=5.),
                                          delay=0.1,
                                          comm=bp.dnn.JitFPHomoLinear(ne, ni, prob=0.02, weight=0.6),
                                          out=bp.dyn.COBA(E=0.),
                                          post=self.I)
    self.I2E = bp.dyn.FullProjAlignPreSDMg(pre=self.I,
                                          syn=bp.dyn.Expon.desc(size=ni, tau=10.),
                                          delay=0.1,
                                          comm=bp.dnn.JitFPHomoLinear(ni, ne, prob=0.02, weight=6.7),
                                          out=bp.dyn.COBA(E=-80.),
                                          post=self.E)
    self.I2I = bp.dyn.FullProjAlignPreSDMg(pre=self.I,
                                          syn=bp.dyn.Expon.desc(size=ni, tau=10.),
                                          delay=0.1,
                                          comm=bp.dnn.JitFPHomoLinear(ni, ni, prob=0.02, weight=6.7),
                                          out=bp.dyn.COBA(E=-80.),
                                          post=self.I)

  def update(self, inp):
    self.E2E()
    self.E2I()
    self.I2E()
    self.I2I()
    self.E(inp)
    self.I(inp)
    return self.E.spike

model = EINet()
indices = bm.arange(1000)
spks = bm.for_loop(lambda i: model.step_run(i, 20.), indices)
bp.visualize.raster_plot(indices, spks, show=True)

Parameters:

• pre (DynamicalSystem) – The pre-synaptic neuron group.

• syn (ParamDescriber) – The synaptic dynamics.

• delay (Union[None, int, float]) – The synaptic delay.

• comm (DynamicalSystem) – The synaptic communication.

• out (JointType[DynamicalSystem, BindCondData]) – The synaptic output.

• post (DynamicalSystem) – The post-synaptic neuron group.

• name (Optional[str]) – str. The projection name.

• mode (Optional[Mode]) – Mode. The computing mode.

update(x=None)

The function to specify the updating rule.