Source code for spynnaker.pyNN.external_devices_models.spif_output_device

# Copyright (c) 2022 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
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# See the License for the specific language governing permissions and
# limitations under the License.
from spinn_utilities.overrides import overrides
from spinn_utilities.config_holder import set_config
from pacman.model.graphs.application import (
    ApplicationFPGAVertex, FPGAConnection)
from spinn_front_end_common.abstract_models import (
from spynnaker.pyNN.models.common import PopulationApplicationVertex
from import SpynnakerDataView
from spynnaker.pyNN.spynnaker_external_device_plugin_manager import (
from .spif_devices import (
    set_distiller_key, set_distiller_mask,
    set_distiller_mask_delayed, set_distiller_shift,
    set_xp_key_delayed, set_xp_mask_delayed)

# The maximum number of partitions that can be supported.

class SPIFOutputDevice(
        ApplicationFPGAVertex, PopulationApplicationVertex,
    Output (only) to a SPIF device.  Each SPIF device can accept up to 6
    incoming projections.
    Keys sent from Populations to SPIF will be mapped by removing the
    SpiNNaker key and adding an index so that the source Population can
    be identified.  Source Populations must be split into power-of-two
    sized cores to ensure that keys are contiguous.
    The keys output by SPIF will be of the form:

         (projection_index << output_key_shift) | neuron_id

    By default, the projection index will be in the top 8 bits of the
    packet, but this can be controlled with the output_key_shift parameter.

    __slots__ = ["__incoming_partitions", "__create_database",
                 "__output_key_shift", "__output_key_and_mask"]

    def __init__(self, board_address=None, chip_coords=None, label=None,
                 create_database=True, database_notify_host=None,
                 database_notify_port_num=None, database_ack_port_num=None,
        :param board_address: The board IP address of the SPIF device
        :type board_address: int or None
        :param chip_coords: The chip coordinates of the SPIF device
        :type chip_coords: tuple(int, int) or None
        :param label: The label to give the SPIF device
        :type label: int or None
        :param bool create_database:
            Whether the database will be used to decode keys or not
        :param database_notify_host: The host that will read the database
        :type database_notify_host: str or None
        :param database_notify_port_num:
            The port of the host that will read the database
        :type database_notify_port_num: int or None
        :param database_ack_port_num:
            The port to listen on for responses from the host reading the
        :type database_ack_port_num: int or None
        :param int proj_index_shift:
            The shift to apply to the population indices when added to the key
        super(SPIFOutputDevice, self).__init__(
                SPIF_FPGA_ID, SPIF_OUTPUT_FPGA_LINK, board_address,
        self.__incoming_partitions = list()
        # Force creation of the database, to be used in the read side of things
        if create_database:
            set_config("Database", "create_database", "True")
                database_notify_host, database_notify_port_num,
        self.__create_database = create_database
        self.__output_key_shift = output_key_shift
        self.__output_key_and_mask = dict()

[docs] def set_output_key_and_mask(self, population, key, mask): """ Set the output key to be written into packets when received by SPIF, and the mask to apply before adding the key. The key should be the exact value that will be "or'ed" with the packet after masking. The mask should be the mask to apply to the incoming SpiNNaker key to extract the neuron id bits. The key and mask will not be checked; please make sure you are using values that make sense! :param Population population: The PyNN source Population :param int key: The key to "or" with the incoming key *after* masking :param int mask: The mask to "and" with the incoming SpiNNaker key """ # pylint: disable=protected-access self.__output_key_and_mask[population._vertex] = (key, mask)
def __is_power_of_2(self, v): """ Determine if a value is a power of 2. :param int v: The value to test :rtype: bool """ return (v & (v - 1) == 0) and (v != 0)
[docs] @overrides(ApplicationFPGAVertex.add_incoming_edge) def add_incoming_edge(self, edge, partition): if len(self.__incoming_partitions) >= N_OUTGOING: raise ValueError( f"Only {N_OUTGOING} outgoing connections are supported per" " spif device (existing partitions:" f" {self.__incoming_partitions}") # Ensure the incoming thing is split appropriately, as otherwise keys # won't be correct max_atoms = partition.pre_vertex.get_max_atoms_per_core() if max_atoms < partition.pre_vertex.n_atoms: if not self.__is_power_of_2(max_atoms): raise ValueError( "The incoming vertex will be split into units of" f" {max_atoms}, which means that the keys won't be" " contiguous. Please choose a power-of-two size for the" " maximum atoms per core") self.__incoming_partitions.append(partition) if self.__create_database: SpynnakerDataView.add_live_output_vertex( partition.pre_vertex, partition.identifier)
def _get_set_key_payload(self, index): """ Get the payload for the command to set the router key. :param int index: The index of key to get """ r_infos = SpynnakerDataView.get_routing_infos() return r_infos.get_first_key_from_pre_vertex( self.__incoming_partitions[index].pre_vertex, self.__incoming_partitions[index].identifier) def _get_set_mask_payload(self, index): """ Get the payload for the command to set the router mask. :param int index: The index of the mask to get """ r_infos = SpynnakerDataView.get_routing_infos() return r_infos.get_routing_info_from_pre_vertex( self.__incoming_partitions[index].pre_vertex, self.__incoming_partitions[index].identifier).mask def _get_set_dist_mask_payload(self, index): """ Get the payload for the command to set the distiller mask """ r_infos = SpynnakerDataView.get_routing_infos() return ~r_infos.get_routing_info_from_pre_vertex( self.__incoming_partitions[index].pre_vertex, self.__incoming_partitions[index].identifier).mask & 0xFFFFFFFF @property def start_resume_commands(self): # The commands here are delayed, as at the time of providing them, # we don't know the key or mask of the incoming link... commands = list() for i, part in enumerate(self.__incoming_partitions): commands.append(set_xp_key_delayed(i, self._get_set_key_payload)) commands.append(set_xp_mask_delayed(i, self._get_set_mask_payload)) if part.pre_vertex in self.__output_key_and_mask: key, mask = self.__output_key_and_mask[part.pre_vertex] commands.append(set_distiller_key(i, key)) commands.append(set_distiller_mask(i, mask)) else: commands.append(set_distiller_key( i, i << self.__output_key_shift)) commands.append(set_distiller_mask_delayed( i, self._get_set_dist_mask_payload)) commands.append(set_distiller_shift( i, part.pre_vertex.n_colour_bits)) return commands @property def pause_stop_commands(self): return [] @property def timed_commands(self): return []