Exemplo n.º 1
0
    def generate_communicating_task_by_axe(self, min_rate, offset, src, dest):
        while True:

            ######## time.sleep(1)

            size = random.randint(structure.PACKET_DEFAULT_SIZE,
                                  structure.PACKET_DEFAULT_SIZE * 10)
            period = self.period_array[random.randint(
                0,
                len(self.period_array) - 1)]
            lower_bound = int(0.7 * period)
            deadline = random.randint(0,
                                      (period - lower_bound + 1) + lower_bound)

            message = Message(self.counter, period, size, offset, deadline,
                              src, dest)

            # calculate message Lu
            lu = message.get_link_utilization()

            ######## print("%s -> %s ||| min rate : %d === LU : %f" % (src, dest, min_rate, lu))

            if lu > (min_rate / 100):
                continue
            else:
                break

        return message
Exemplo n.º 2
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    def generate_communicating_task_by_axe(self, min_rate, offset, src, dest):
        while True:

            size = random.randint(structure.PACKET_DEFAULT_SIZE,
                                  structure.PACKET_DEFAULT_SIZE * 10)
            period = self.period_array[random.randint(
                0,
                len(self.period_array) - 1)]
            lower_bound = int(0.7 * period)
            # deadline = random.randint(0, (period - lower_bound + 1) + lower_bound)
            deadline = period  # TODO : temporary Harmonic Taskset

            priority = random.randint(0, self._nbvc - 1)
            message = Message(self.counter, period, size, offset, deadline,
                              src, dest, priority)

            # calculate message Lu
            lu = message.get_link_utilization()

            if lu > (min_rate / 100):
                continue
            else:
                break

        return message
Exemplo n.º 3
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    def scenario(self, link):
        with open(link, 'r') as stream:
            try:
                data = yaml.safe_load(stream)

                # Messages
                if 'scenario' in data:
                    messages = data['scenario']

                    for m in messages:
                        src = m['src']
                        dest = m['dest']
                        size = m['size']
                        offset = m['offset']
                        deadline = m['deadline']
                        period = m['period']
                        priority = -1

                        # set random priority (optional)
                        if self._arbitration == 'PRIORITY_PREEMPT' or self._arbitration == 'PRIORITY_NON_PREEMPT':
                            priority = random.randint(0, self._nbvc - 1)

                        # Temporary :: Compute the deadline for our task
                        lower_bound = int(0.7 * period)
                        deadline = random.randint(
                            0, (period - lower_bound + 1) + lower_bound)

                        # Message Creation
                        message = Message(self.counter,
                                          period,
                                          size,
                                          offset,
                                          deadline,
                                          Coordinate(src['i'], src['j']),
                                          Coordinate(dest['i'], dest['j']),
                                          priority=priority)

                        self.messages.append(message)
                        self.counter += 1

                        # Generate task conflict
                        self.conflict_task_by_axe(message, 60, 50, 0)

                # Automatic generation
                elif 'task' in data:
                    nb_task = data['task']
                    method = data['method']
                    load = data['load']

                    if method == 'UuniFast':
                        self.messages = self.uunifast_generate(nb_task, load)

                    # Generate task conflict
                    # for message in self.messages:
                    #     self.conflict_task_by_axe(message, 70, 40, 0)

                return self.messages

            except yaml.YAMLError as exc:
                print(exc)
Exemplo n.º 4
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    def setUp(self):
        self.noc = NoC("Network-On-Chip", 4, 4, 12, [1, 1, 1, 1])

        self.src = Coordinate(0, 0)
        self.dest = Coordinate(2, 2)
        self.message = Message(1, 12, 256, 0, 0, self.src, self.dest)
        self.packet = Packet(1, self.dest, self.message)

        self.flit = self.packet.flits[0]

        self.proc_engine = self.noc.router_matrix[0][0].proc_engine
        self.router = self.noc.router_matrix[0][0]

        self.generation = Generation()
        self.generation.set_noc(self.noc)
        self.generation.set_square_size(4)

        self.noc.link_array_filling()
Exemplo n.º 5
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    def uunifast_generate(self, nb_task, load):
        self._utilization_array = self.get_utilization_factors(nb_task)

        self.counter = 0
        # Loop
        while len(self._utilization_array) > 0:
            # generate parameters
            utilization_factor = self._utilization_array.pop(
                random.randrange(len(self._utilization_array)))
            period = self.period_array[random.randint(
                0,
                len(self.period_array) - 1)]
            offset = self.offset_array[random.randint(
                0,
                len(self.offset_array) - 1)]
            size = int(math.ceil(period * utilization_factor))
            lower_bound = int(load * period)
            deadline = random.randint(0,
                                      (period - lower_bound + 1) + lower_bound)

            # Generate messages
            coord = self.generate_random_coordinate()
            src = coord[0]
            dest = coord[1]
            message = Message(self.counter, period, size, offset, deadline,
                              src, dest)

            # set random priority (optional)
            if self._arbitration == 'Priority':
                priority = random.randint(0, self._nbvc - 1)
                message.set_priority(priority)

            # add generated message to messages list
            self.messages.append(message)

            # Generate task conflict
            self.conflict_task_by_axe(message, 70, 40, 0)

            # TODO : Cleaning LU --> not yet
            # self.noc.link_array_clean()

        return self.messages
Exemplo n.º 6
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    def setUp(self):
        self.noc = NoC("Network-On-Chip", 4, 4, 12, [1, 1, 1, 1])

        self.src = Coordinate(0, 0)
        self.dest = Coordinate(2, 2)
        self.message = Message(1, 23, 256, 0, 0, self.src, self.dest)
        self.packet = Packet(1, self.dest, self.message)

        self.flit = self.packet.flits[0]

        self.proc_engine = self.noc.router_matrix[0][0].proc_engine
        self.router = self.noc.router_matrix[0][0]
Exemplo n.º 7
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    def setUp(self):
        self.noc = NoC("Network-On-Chip", 4, 4, 12, [1, 1, 1, 1])
        self.noc.link_array_filling()

        self.message1 = Message(1, 150, 896, 0, 100, Coordinate(0, 3),
                                Coordinate(0, 1))
        self.message2 = Message(2, 150, 256, 0, 100, Coordinate(2, 0),
                                Coordinate(3, 0))
        self.message3 = Message(3, 400, 256, 0, 300, Coordinate(0, 2),
                                Coordinate(3, 0))
        self.message4 = Message(4, 600, 256, 0, 550, Coordinate(2, 0),
                                Coordinate(3, 0))
        self.message5 = Message(5, 300, 3072, 0, 250, Coordinate(0, 1),
                                Coordinate(2, 0))

        self.messages = [
            self.message1, self.message2, self.message3, self.message4,
            self.message5
        ]

        self.qinModel = QinModel(self.noc, self.messages)

        self.tdma = TDMA(self.noc, self.noc.vc_quantum)
Exemplo n.º 8
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    def test_is_links_equal(self):
        message1 = Message(1, 12, 256, 0, 0, Coordinate(0, 2),
                           Coordinate(2, 2))
        message2 = Message(1, 12, 256, 0, 0, Coordinate(0, 3),
                           Coordinate(3, 3))
        p1 = self.message.get_xy_path_coordinate(self.noc)
        p2 = message1.get_xy_path_coordinate(self.noc)
        p3 = message2.get_xy_path_coordinate(self.noc)

        self.assertEqual(self.generation.task_overlap(p1, p2), True)
        self.assertEqual(self.generation.task_overlap(p1, p3), False)
Exemplo n.º 9
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    def scenario(self, link):
        with open(link, 'r') as stream:
            try:
                data = yaml.load(stream)

                # Messages
                if 'scenario' in data:
                    messages = data['scenario']
                    count = 0
                    for m in messages:
                        src = m['src']
                        dest = m['dest']
                        size = m['size']
                        offset = m['offset']
                        deadline = m['deadline']
                        period = m['period']

                        self.messages.append(
                            Message(
                                count,
                                period,
                                size,
                                offset,
                                deadline,
                                Coordinate(src['i'], src['j']),
                                Coordinate(dest['i'], dest['j']),
                            ))
                        count += 1

                # Automatic generation
                elif 'task' in data:
                    nb_task = data['task']
                    method = data['method']
                    load = data['load']

                    if method == 'UuniFast':
                        self.messages = self.uunifast_generate(nb_task, load)

                return self.messages

            except yaml.YAMLError as exc:
                print(exc)
Exemplo n.º 10
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class TestAnalysisTool(unittest.TestCase):
    def setUp(self):
        self.noc = NoC("Network-On-Chip", 4, 4, 12, [1, 1, 1, 1])

        self.src = Coordinate(0, 0)
        self.dest = Coordinate(2, 2)
        self.message = Message(1, 12, 256, 0, 0, self.src, self.dest)
        self.packet = Packet(1, self.dest, self.message)

        self.flit = self.packet.flits[0]

        self.proc_engine = self.noc.router_matrix[0][0].proc_engine
        self.router = self.noc.router_matrix[0][0]

        self.generation = Generation()
        self.generation.set_noc(self.noc)
        self.generation.set_square_size(4)

        self.noc.link_array_filling()

    def test_is_links_equal(self):
        message1 = Message(1, 12, 256, 0, 0, Coordinate(0, 2),
                           Coordinate(2, 2))
        message2 = Message(1, 12, 256, 0, 0, Coordinate(0, 3),
                           Coordinate(3, 3))
        p1 = self.message.get_xy_path_coordinate(self.noc)
        p2 = message1.get_xy_path_coordinate(self.noc)
        p3 = message2.get_xy_path_coordinate(self.noc)

        self.assertEqual(self.generation.task_overlap(p1, p2), True)
        self.assertEqual(self.generation.task_overlap(p1, p3), False)

    def test_direction_intersection(self):
        self.assertEqual(
            len(self.generation.direction_intersection(self.message)), 0)
        self.generation.conflict_task_by_axe(self.message, 70, 40, 0)
        self.assertGreater(
            len(self.generation.direction_intersection(self.message)), 0)
Exemplo n.º 11
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 def setUp(self):
     self.src = Coordinate(1, 1)
     self.dest = Coordinate(2, 2)
     self.message = Message(1, 23, 256, 0, 0, self.src, self.dest)
     self.packet = Packet(1, self.dest, self.message)
Exemplo n.º 12
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class TestConflictByAxe(unittest.TestCase):
    def setUp(self):
        self.noc = NoC("Network-On-Chip", 4, 4, 12, [1, 1, 1, 1])

        self.src = Coordinate(0, 0)
        self.dest = Coordinate(2, 2)
        self.message = Message(1, 12, 256, 0, 0, self.src, self.dest)
        self.packet = Packet(1, self.dest, self.message)

        self.flit = self.packet.flits[0]

        self.proc_engine = self.noc.router_matrix[0][0].proc_engine
        self.router = self.noc.router_matrix[0][0]

        self.generation = Generation()
        self.generation.set_noc(self.noc)
        self.generation.set_square_size(4)

        self.noc.link_array_filling()

    def test_xy_path_coordinate(self):
        link_array = self.message.get_xy_path_coordinate(self.noc)
        self.assertEqual(len(link_array), 4)
        self.assertEqual(link_array[0][0], 1)
        self.assertEqual(link_array[0][1], 2)
        self.assertEqual(link_array[3][0], 7)
        self.assertEqual(link_array[3][1], 11)

    def test_find_links_outside_interval(self):
        link_array = self.message.get_xy_path_coordinate(self.noc)

        outside_link = self.generation.find_links_outside_interval(
            link_array, 70, 30, 0)
        self.assertEqual(len(outside_link), 4)

        self.generation.add_utilization_rate_to_link(outside_link[0], 50)
        new_outside_link = self.generation.find_links_outside_interval(
            link_array, 70, 30, 0)
        self.assertEqual(len(new_outside_link), 4)

    def test_get_link_direction(self):
        link_array = self.message.get_xy_path_coordinate(self.noc)
        link = link_array.pop()

        self.assertEqual(self.generation.get_link_direction(link), 0)

    def test_task_communication_axe(self):
        link_array = self.message.get_xy_path_coordinate(self.noc)

        router_src = self.noc.get_router_coordinate_by_id(link_array[0][0])
        router_dest = self.noc.get_router_coordinate_by_id(link_array[0][1])

        router_src_1 = self.noc.get_router_coordinate_by_id(link_array[3][0])
        router_dest_1 = self.noc.get_router_coordinate_by_id(link_array[3][1])

        axe = (0 if router_src.i == router_dest.i else 1)
        self.assertEqual(axe, 0)
        axe = (0 if router_src_1.i == router_dest_1.i else 1)
        self.assertEqual(axe, 1)

    def test_generate_conflict_task_by_axe(self):
        link_array = self.message.get_xy_path_coordinate(self.noc)
        link = link_array.pop()

        router_src = self.noc.get_router_coordinate_by_id(link[0])
        router_dest = self.noc.get_router_coordinate_by_id(link[1])

        axe = (0 if router_src.i == router_dest.i else 1)

        conflict_task = self.generation.generate_conflict_task_by_axe(
            [router_src, router_dest], link, axe, 50, 0)
        # conflict task generated by the above function has the following characteristics
        # from -> to : (0,0) -> (0,1) -> (0,2) -> (0,3) : 3 links
        # has a link utilization < 30
        self.assertEqual(len(conflict_task.get_xy_path_coordinate(self.noc)),
                         3)
        self.assertLessEqual(conflict_task.get_link_utilization(), 0.3)

    def test_conflict_task_by_axe(self):
        self.generation.conflict_task_by_axe(self.message, 70, 40, 0)