sPyNNaker/c/input__type_8h_source.html

/*

 * Copyright (c) 2015 The University of Manchester

 *

 * Licensed under the Apache License, Version 2.0 (the "License");

 * you may not use this file except in compliance with the License.

 * You may obtain a copy of the License at

 *

 *     https://www.apache.org/licenses/LICENSE-2.0

 *

 * Unless required by applicable law or agreed to in writing, software

 * distributed under the License is distributed on an "AS IS" BASIS,

 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

 * See the License for the specific language governing permissions and

 * limitations under the License.

 */


#ifndef _INPUT_TYPE_H_

#define _INPUT_TYPE_H_


#ifndef NUM_EXCITATORY_RECEPTORS

#define NUM_EXCITATORY_RECEPTORS 1

#error NUM_EXCITATORY_RECEPTORS was undefined.  It should be defined by a synapse\

    shaping include

#endif


#ifndef NUM_INHIBITORY_RECEPTORS

#define NUM_INHIBITORY_RECEPTORS 1

#error NUM_INHIBITORY_RECEPTORS was undefined.  It should be defined by a synapse\

    shaping include

#endif


#include <common/neuron-typedefs.h>


// Forward declaration of the input type parameters

struct input_type_params_t;

typedef struct input_type_params_t input_type_params_t;


// Forward declaration of the input type structure

struct input_type_t;

typedef struct input_type_t input_type_t;


static void input_type_initialise(input_type_t *state, input_type_params_t *params,

        uint32_t n_steps_per_timestep);


static void input_type_save_state(input_type_t *state, input_type_params_t *params);


static input_t *input_type_get_input_value(

        input_t *restrict value, input_type_t *input_type,

        uint16_t num_receptors);


static void input_type_convert_excitatory_input_to_current(

        input_t *restrict exc_input, const input_type_t *input_type,

        state_t membrane_voltage);


static void input_type_convert_inhibitory_input_to_current(

        input_t *restrict inh_input, const input_type_t *input_type,

        state_t membrane_voltage);


#endif // _INPUT_TYPE_H_

input_type_convert_inhibitory_input_to_current
static void input_type_convert_inhibitory_input_to_current(input_t *restrict inh_input, const input_type_t *input_type, state_t membrane_voltage)
Converts an inhibitory input into an inhibitory current.

input_type_initialise
static void input_type_initialise(input_type_t *state, input_type_params_t *params, uint32_t n_steps_per_timestep)
initialise the structure from the parameters

input_type_get_input_value
static input_t * input_type_get_input_value(input_t *restrict value, input_type_t *input_type, uint16_t num_receptors)
Gets the actual input value. This allows any scaling to take place.

input_type_save_state
static void input_type_save_state(input_type_t *state, input_type_params_t *params)
save parameters and state back to SDRAM for reading by host and recovery on restart

input_type_convert_excitatory_input_to_current
static void input_type_convert_excitatory_input_to_current(input_t *restrict exc_input, const input_type_t *input_type, state_t membrane_voltage)
Converts an excitatory input into an excitatory current.

input_type_params_t
Conductance input parameters.
Definition input_type_conductance.h:25

input_type_t
Conductance state.
Definition input_type_conductance.h:33

neuron-typedefs.h
Data type definitions for SpiNNaker Neuron-modelling.

state_t
REAL state_t
The type of a state variable.
Definition neuron-typedefs.h:124

input_t
REAL input_t
The type of an input.
Definition neuron-typedefs.h:121

n_steps_per_timestep
static uint n_steps_per_timestep
The number of steps to run per timestep.
Definition neuron_impl_external_devices.h:101

params
static stdp_params params
Configuration parameters.
Definition synapse_dynamics_stdp_common.h:95