Example #1
0
    def test_get_emptiest_package(self):
        t0 = Thread(0)
        t1 = Thread(1)
        t2 = Thread(2)
        t3 = Thread(3)
        t4 = Thread(4)
        t5 = Thread(5)
        t6 = Thread(6)
        t7 = Thread(7)

        p0 = Package(0, [Core(0, [t0, t4]), Core(1, [t1, t5])])
        p1 = Package(1, [Core(0, [t2, t6]), Core(1, [t3, t7])])

        cpu = Cpu([p0, p1])

        # The first package should be the emptiest
        self.assertEqual(p0, cpu.get_emptiest_package())

        # The second package should be the emptiest after we claim a thread on the first
        t5.claim(uuid.uuid4())
        self.assertEqual(p1, cpu.get_emptiest_package())

        # The first package should be the emptiest again, after we release the claimed thread
        t5.clear()
        self.assertEqual(p0, cpu.get_emptiest_package())

        # The first package should be emptiest when we claim a thread on the second
        t3.claim(uuid.uuid4())
        self.assertEqual(p0, cpu.get_emptiest_package())

        # When an equal number of threads are claimed on both packages, the first should be returned
        t4.claim(uuid.uuid4())
        self.assertEqual(p0, cpu.get_emptiest_package())
Example #2
0
def is_core_below_threshold(threshold: float, core: Core,
                            workload_usage: Dict[str, float],
                            workload_map: Dict[str, Workload]):

    workload_ids = []
    for t in core.get_threads():
        workload_ids += t.get_workload_ids()

    static_usage = 0
    static_workload_ids = []
    for w_id in workload_ids:
        workload = workload_map.get(w_id, None)
        if workload is not None and workload.get_type() == STATIC:
            static_usage += \
                workload_usage.get(w_id, workload.get_thread_count()) / workload.get_thread_count()
            static_workload_ids.append(w_id)

    is_free = static_usage <= threshold

    if is_free:
        log.info("Core: {} with usage: {} is UNDER threshold: {}".format(
            core.get_id(), static_usage, threshold))
    else:
        log.info("Core: {} with usage: {} is OVER  threshold: {}".format(
            core.get_id(), static_usage, threshold))

    return is_free
Example #3
0
    def test_construction(self):
        core0 = Core(0, [Thread(0), Thread(2)])
        core1 = Core(1, [Thread(1), Thread(3)])
        cores = [core0, core1]

        package = Package(0, cores)
        self.assertEqual(2, len(package.get_cores()))
        self.assertEqual(cores, package.get_cores())
Example #4
0
    def test_construction(self):
        thread0 = Thread(0)
        thread1 = Thread(1)

        core = Core(42, [thread0, thread1])
        self.assertEqual(42, core.get_id())
        self.assertEqual(2, len(core.get_threads()))
        self.assertEqual(thread0, core.get_threads()[0])
        self.assertEqual(thread1, core.get_threads()[1])
Example #5
0
    def test_construction(self):
        p0 = Package(0, [
            Core(0, [Thread(0), Thread(4)]),
            Core(1, [Thread(1), Thread(5)])])
        p1 = Package(1, [
            Core(0, [Thread(2), Thread(6)]),
            Core(1, [Thread(3), Thread(7)])])

        packages = [p0, p1]
        cpu = Cpu(packages)
        self.assertEqual(packages, cpu.get_packages())
Example #6
0
    def test_get_empty_threads(self):
        t0 = Thread(0)
        t1 = Thread(1)
        t2 = Thread(2)
        t3 = Thread(3)

        c0 = Core(0, [t0, t2])
        c1 = Core(1, [t1, t3])

        p = Package(1, [c0, c1])
        self.assertEqual([t0, t2, t1, t3], p.get_empty_threads())

        t1.claim(uuid.uuid4())
        self.assertEqual([t0, t2, t3], p.get_empty_threads())

        t1.clear()
        self.assertEqual([t0, t2, t1, t3], p.get_empty_threads())
Example #7
0
    def test_equality(self):
        t_0_0 = Thread(0)
        t_0_1 = Thread(1)
        c_x = Core(0, [t_0_0, t_0_1])

        t_1_0 = Thread(0)
        t_1_1 = Thread(1)
        c_y = Core(0, [t_1_0, t_1_1])
        self.assertEqual(c_x, c_y)

        t_0_1.claim("a")
        self.assertNotEqual(c_x, c_y)

        t_1_1.claim("a")
        self.assertEqual(c_x, c_y)

        t_0_0.claim("b")
        t_1_0.claim("b")
        self.assertEqual(c_x, c_y)
Example #8
0
def is_core_below_threshold(threshold: float, core: Core,
                            workload_usage: Dict[str, float],
                            workload_map: Dict[str, Workload]):

    # Get all workload IDs running on this core
    workload_ids = []
    for t in core.get_threads():
        workload_ids += t.get_workload_ids()

    # Measure the usage of all _static_ workloads running on this core in proportion to their requested thread count.
    #
    # e.g.
    # w_id  | usage
    #    a  |    2%
    #    b  |    3%
    #    c  |    1%
    # -------------
    # total |    6%
    usage = 0
    for w_id in workload_ids:
        workload = workload_map.get(w_id, None)
        if workload is not None and workload.get_type() == STATIC:
            usage += workload_usage.get(
                w_id,
                workload.get_thread_count()) / workload.get_thread_count()

    # If we set the threshold to 10% and continue the example above
    #
    # e.g.
    # is_free = 6% <= 10%
    # is_free = true
    is_free = usage <= threshold

    if is_free:
        log.debug("Core: {} with usage: {} is UNDER threshold: {}".format(
            core.get_id(), usage, threshold))
    else:
        log.debug("Core: {} with usage: {} is OVER  threshold: {}".format(
            core.get_id(), usage, threshold))

    return is_free
Example #9
0
    def test_equality(self):
        t_0_0 = Thread(0)
        t_0_1 = Thread(1)
        c_x = Core(0, [t_0_0, t_0_1])
        p_x = Package(0, [c_x])
        cpu_x = Cpu([p_x])

        t_1_0 = Thread(0)
        t_1_1 = Thread(1)
        c_y = Core(0, [t_1_0, t_1_1])
        p_y = Package(0, [c_y])
        cpu_y = Cpu([p_y])
        self.assertEqual(cpu_x, cpu_y)

        t_0_1.claim("a")
        self.assertNotEqual(cpu_x, cpu_y)

        t_1_1.claim("a")
        self.assertEqual(cpu_x, cpu_y)

        t_0_0.claim("b")
        t_1_0.claim("b")
        self.assertEqual(cpu_x, cpu_y)
Example #10
0
def parse_cpu(cpu_dict: dict) -> Cpu:
    packages = []
    for p in cpu_dict["packages"]:
        cores = []
        for c in p["cores"]:
            threads = []
            for t in c["threads"]:
                thread = Thread(t["id"])
                for w_id in t["workload_id"]:
                    thread.claim(w_id)
                threads.append(thread)
            cores.append(Core(c["id"], threads))
        packages.append(Package(p["id"], cores))

    return Cpu(packages)
Example #11
0
def get_cpu(package_count=DEFAULT_PACKAGE_COUNT,
            cores_per_package=DEFAULT_CORE_COUNT,
            threads_per_core=DEFAULT_THREAD_COUNT):
    packages = []
    for p_i in range(package_count):

        cores = []
        for c_i in range(cores_per_package):
            cores.append(
                Core(
                    c_i,
                    __get_threads(p_i, c_i, package_count, cores_per_package,
                                  threads_per_core)))

        packages.append(Package(p_i, cores))

    return Cpu(packages)
Example #12
0
def get_cpu(
        package_count=DEFAULT_PACKAGE_COUNT,
        cores_per_package=DEFAULT_CORE_COUNT,
        threads_per_core=DEFAULT_THREAD_COUNT):
    print("package count: " + str(package_count) + " cores_per_package:" + str(cores_per_package) + " threads_per_core:" + str(threads_per_core))
    packages = []
    for p_i in range(package_count):

        cores = []
        for c_i in range(cores_per_package):
            cores.append(
                Core(c_i, __get_threads(p_i, c_i, package_count, cores_per_package, threads_per_core)))

        packages.append(Package(p_i, cores))
    print("-------------")
    print(Cpu(packages))
    print(Cpu(packages).get_threads())
    print(len(Cpu(packages).get_threads()))
    print("-------------")
    return Cpu(packages)
Example #13
0
    def test_get_emptiest_core(self):
        c0 = Core(0, [Thread(0), Thread(2)])
        c1 = Core(1, [Thread(1), Thread(3)])

        # The first core should be the emptiest
        p = Package(0, [c0, c1])
        self.assertEqual(c0, get_emptiest_core(p))

        # The second core should be emptiest after we claim a thread on the first
        c0.get_threads()[0].claim(uuid.uuid4())
        self.assertEqual(c1, get_emptiest_core(p))

        # The first core should be the emptiest again, after we release the claimed thread
        c0.get_threads()[0].clear()
        self.assertEqual(c0, get_emptiest_core(p))

        # The first core should be emptiest when we claim a thread on the second
        c1.get_threads()[1].claim(uuid.uuid4())
        self.assertEqual(c0, get_emptiest_core(p))

        # When an equal number of threads are claimed on both cores, the first should be returned
        c0.get_threads()[1].claim(uuid.uuid4())
        self.assertEqual(c0, get_emptiest_core(p))
Example #14
0
    def test_get_empty_threads(self):
        c = Core(1, [Thread(0), Thread(1)])
        self.assertEqual(c.get_threads(), c.get_empty_threads())

        t0 = c.get_threads()[0]
        t1 = c.get_threads()[1]

        c.get_threads()[0].claim(uuid.uuid4())
        self.assertEqual([t1], c.get_empty_threads())

        t0.clear()
        self.assertEqual(c.get_threads(), c.get_empty_threads())

        t1.claim(uuid.uuid4())
        self.assertEqual([t0], c.get_empty_threads())

        t0.claim(uuid.uuid4())
        self.assertEqual([], c.get_empty_threads())
Example #15
0
 def test_invalid_core(self):
     with self.assertRaises(ValueError):
         Core(0, [])