Example #1
0
static inline void _print_synaptic_row(synaptic_row_t synaptic_row) {
#if LOG_LEVEL >= LOG_DEBUG
    log_debug("Synaptic row, at address %08x Num plastic words:%u\n",
              (uint32_t )synaptic_row, synapse_row_plastic_size(synaptic_row));
    if (synaptic_row == NULL) {
        return;
    }
    log_debug("----------------------------------------\n");

    // Get details of fixed region
    address_t fixed_region_address = synapse_row_fixed_region(synaptic_row);
    address_t fixed_synapses = synapse_row_fixed_weight_controls(
        fixed_region_address);
    size_t n_fixed_synapses = synapse_row_num_fixed_synapses(
        fixed_region_address);
    log_debug("Fixed region %u fixed synapses (%u plastic control words):\n",
              n_fixed_synapses,
              synapse_row_num_plastic_controls(fixed_region_address));

    for (uint32_t i = 0; i < n_fixed_synapses; i++) {
        uint32_t synapse = fixed_synapses[i];
        uint32_t synapse_type = synapse_row_sparse_type(synapse);

        log_debug("%08x [%3d: (w: %5u (=", synapse, i,
                  synapse_row_sparse_weight(synapse));
        synapses_print_weight(synapse_row_sparse_weight(synapse),
                              ring_buffer_to_input_left_shifts[synapse_type]);
        log_debug(
            "nA) d: %2u, %s, n = %3u)] - {%08x %08x}\n",
            synapse_row_sparse_delay(synapse),
            synapse_types_get_type_char(synapse_row_sparse_type(synapse)),
            synapse_row_sparse_index(synapse),
            SYNAPSE_DELAY_MASK, SYNAPSE_TYPE_INDEX_BITS);
    }

    // If there's a plastic region
    if (synapse_row_plastic_size(synaptic_row) > 0) {
        log_debug("----------------------------------------\n");
        address_t plastic_region_address =
            synapse_row_plastic_region(synaptic_row);
        synapse_dynamics_print_plastic_synapses(
            plastic_region_address, fixed_region_address,
            ring_buffer_to_input_left_shifts);
    }

    log_debug("----------------------------------------\n");
#else
    use(synaptic_row);
#endif // LOG_LEVEL >= LOG_DEBUG
}
void synapse_dynamics_print_plastic_synapses(
        address_t plastic_region_address, address_t fixed_region_address,
        uint32_t *ring_buffer_to_input_buffer_left_shifts) {
    use(plastic_region_address);
    use(fixed_region_address);
    use(ring_buffer_to_input_buffer_left_shifts);
#if LOG_LEVEL >= LOG_DEBUG

    // Extract seperate arrays of weights (from plastic region),
    // Control words (from fixed region) and number of plastic synapses
    weight_t *plastic_words = _plastic_synapses(plastic_region_address);
    const control_t *control_words = synapse_row_plastic_controls(
        fixed_region_address);
    size_t plastic_synapse = synapse_row_num_plastic_controls(
        fixed_region_address);
    const pre_event_history_t *event_history = _plastic_event_history(
        plastic_region_address);

    log_debug(
        "Plastic region %u synapses pre-synaptic event buffer count:%u:\n",
        plastic_synapse, event_history->count_minus_one + 1);

    // Loop through plastic synapses
    for (uint32_t i = 0; i < plastic_synapse; i++) {

        // Get next weight and control word (autoincrementing control word)
        uint32_t weight = *plastic_words++;
        uint32_t control_word = *control_words++;
        uint32_t synapse_type = synapse_row_sparse_type(control_word);

        log_debug("%08x [%3d: (w: %5u (=", control_word, i, weight);
        synapses_print_weight(
            weight, ring_buffer_to_input_buffer_left_shifts[synapse_type]);
        log_debug("nA) d: %2u, %s, n = %3u)] - {%08x %08x}\n",
                  synapse_row_sparse_delay(control_word),
                  synapse_types_get_type_char(synapse_row_sparse_type(
                                             control_word)),
                  synapse_row_sparse_index(control_word), SYNAPSE_DELAY_MASK,
                  SYNAPSE_TYPE_INDEX_BITS);
    }
#endif // LOG_LEVEL >= LOG_DEBUG
}
bool synapse_dynamics_process_plastic_synapses(
        address_t plastic_region_address, address_t fixed_region_address,
        weight_t *ring_buffers, uint32_t time) {

    // Extract seperate arrays of plastic synapses (from plastic region),
    // Control words (from fixed region) and number of plastic synapses
    plastic_synapse_t *plastic_words = _plastic_synapses(
        plastic_region_address);
    const control_t *control_words = synapse_row_plastic_controls(
        fixed_region_address);
    size_t plastic_synapse = synapse_row_num_plastic_controls(
        fixed_region_address);

#ifdef SYNAPSE_BENCHMARK
    num_plastic_pre_synaptic_events += plastic_synapse;
#endif  // SYNAPSE_BENCHMARK

    // Get event history from synaptic row
    pre_event_history_t *event_history = _plastic_event_history(
        plastic_region_address);

    // Get last pre-synaptic event from event history
    // **NOTE** at this level we don't care about individual synaptic delays
    const uint32_t last_pre_time =
            event_history->times[event_history->count_minus_one];

    // Loop through plastic synapses
    for (; plastic_synapse > 0; plastic_synapse--) {

        // Get next control word (autoincrementing)
        uint32_t control_word = *control_words++;

        // Extract control-word components
        // **NOTE** cunningly, control word is just the same as lower
        // 16-bits of 32-bit fixed synapse so same functions can be used
        uint32_t delay = synapse_row_sparse_delay(control_word);
        uint32_t type = synapse_row_sparse_type(control_word);
        uint32_t index = synapse_row_sparse_index(control_word);
        uint32_t type_index = synapse_row_sparse_type_index(control_word);

        // Create update state from the plastic synaptic word
        update_state_t current_state = synapse_structure_get_update_state(
            *plastic_words, type);

        // Update the synapse state
        final_state_t final_state = _plasticity_update_synapse(
            time, last_pre_time, delay, current_state, event_history,
            &post_event_history[index]);

        // Convert into ring buffer offset
        uint32_t ring_buffer_index = synapses_get_ring_buffer_index_combined(
            delay + time, type_index);

        // Add weight to ring-buffer entry
        // **NOTE** Dave suspects that this could be a potential location
        // for overflow
        ring_buffers[ring_buffer_index] += synapse_structure_get_final_weight(
            final_state);

        // Write back updated synaptic word to plastic region
        *plastic_words++ = synapse_structure_get_final_synaptic_word(
            final_state);
    }

    log_debug("Adding pre-synaptic event to trace at time:%u", time);

    // Add pre-event
    const pre_trace_t last_pre_trace =
        event_history->traces[event_history->count_minus_one];
    pre_events_add(time, event_history, timing_add_pre_spike(
        time, last_pre_time, last_pre_trace));

    return true;
}