// Entry point
void c_main(void) {
// Initialise
uint32_t timer_period = 0;
if (!initialize(&timer_period)) {
log_error("Error in initialisation - exiting!");
rt_error(RTE_SWERR);
}
// Initialise the incoming spike buffer
if (!in_spikes_initialize_spike_buffer(8192)) {
return;
}
// Set timer_callback
spin1_set_timer_tick(timer_period);
// Register callbacks
spin1_callback_on(MC_PACKET_RECEIVED, incoming_spike_callback, MC);
spin1_callback_on(TIMER_TICK, timer_callback, TIMER);
// Start the time at "-1" so that the first tick will be 0
time = UINT32_MAX;
simulation_run(timer_callback, TIMER);
}
// Entry point
void c_main(void) {
// Initialise
uint32_t timer_period = 0;
if (!initialize(&timer_period)) {
log_error("Error in initialisation - exiting!");
rt_error(RTE_SWERR);
}
// Start the time at "-1" so that the first tick will be 0
time = UINT32_MAX;
// Initialize the incoming spike buffer
if (!in_spikes_initialize_spike_buffer(256)) {
rt_error(RTE_SWERR);
}
// Set timer tick (in microseconds)
spin1_set_timer_tick(timer_period);
// Register callbacks
spin1_callback_on(MC_PACKET_RECEIVED, incoming_spike_callback, -1);
spin1_callback_on(USER_EVENT, spike_process, 1);
spin1_callback_on(TIMER_TICK, timer_callback, 2);
log_info("Starting");
simulation_run();
}
