def computeMSDictHEFT(root_dir): res_heft = {} if path.exists(root_dir): os.chdir(root_dir) file_names = [name for name in os.listdir(".") if os.path.isdir(name)] for fn in file_names: params = fn.split("_") rc = params[1] gh = params[2] ccr = params[3] hf = params[4] unq_tag = gh + "_" + ccr + "_" + hf cm_path = fn + "/task_exe_time.csv" comp_matrix = heft.readCsvToNumpyMatrix(cm_path) cmm_path = fn + "/resource_BW.csv" comm_matrix = heft.readCsvToNumpyMatrix(cmm_path) dag_path = fn + "/task_connectivity.csv" dag = heft.readDagMatrix(dag_path) sched, _,_,_ = heft.schedule_dag(dag,communication_matrix=comm_matrix, computation_matrix=comp_matrix) if unq_tag not in res_heft: res_heft[unq_tag] = [0,0,0,0] if int(rc) > 2: (res_heft[unq_tag])[int(math.log2(int(rc)))-2] = sched return res_heft else: print("PATH DOESNT EXIST")
def test_graph_with_PE_restrictions(): expected_proc_sched = { 0: [heft.ScheduleEvent(task=1, start=27.0, end=40.0, proc=0), heft.ScheduleEvent(task=7, start=57.0, end=62.0, proc=0)], 1: [heft.ScheduleEvent(task=3, start=18.0, end=26.0, proc=1), heft.ScheduleEvent(task=5, start=26.0, end=42.0, proc=1), heft.ScheduleEvent(task=8, start=56.0, end=68.0, proc=1), heft.ScheduleEvent(task=9, start=73.0, end=80.0, proc=1)], 2: [heft.ScheduleEvent(task=0, start=0, end=9.0, proc=2), heft.ScheduleEvent(task=2, start=9.0, end=28.0, proc=2), heft.ScheduleEvent(task=4, start=28.0, end=38.0, proc=2), heft.ScheduleEvent(task=6, start=38.0, end=49.0, proc=2)], 3: [] } expected_task_sched = { 0: heft.ScheduleEvent(task=0, start=0, end=9.0, proc=2), 1: heft.ScheduleEvent(task=1, start=27.0, end=40.0, proc=0), 2: heft.ScheduleEvent(task=2, start=9.0, end=28.0, proc=2), 3: heft.ScheduleEvent(task=3, start=18.0, end=26.0, proc=1), 4: heft.ScheduleEvent(task=4, start=28.0, end=38.0, proc=2), 5: heft.ScheduleEvent(task=5, start=26.0, end=42.0, proc=1), 6: heft.ScheduleEvent(task=6, start=38.0, end=49.0, proc=2), 7: heft.ScheduleEvent(task=7, start=57.0, end=62.0, proc=0), 8: heft.ScheduleEvent(task=8, start=56.0, end=68.0, proc=1), 9: heft.ScheduleEvent(task=9, start=73.0, end=80.0, proc=1) } expected_dict_sched = { 0: (2, 0, []), 1: (0, 0, []), 2: (2, 1, [expected_task_sched[0].task]), 3: (1, 0, []), 4: (2, 2, [expected_task_sched[2].task]), 5: (1, 1, [expected_task_sched[3].task]), 6: (2, 3, [expected_task_sched[4].task]), 7: (0, 1, [expected_task_sched[1].task]), 8: (1, 2, [expected_task_sched[5].task]), 9: (1, 3, [expected_task_sched[8].task]) } dag = heft.readDagMatrix('test/canonicalgraph_task_connectivity.csv') comm = heft.readCsvToNumpyMatrix('test/canonicalgraph_resource_BW.csv') comp = heft.readCsvToNumpyMatrix('test/canonicalgraph_task_exe_time.csv') inf_comp = np.concatenate((comp, np.inf * np.ones((10, 1))), axis=1) inf_comm = np.concatenate((comm, [[1], [1], [1]]), axis=1) inf_comm = np.concatenate((inf_comm, [[1, 1, 1, 0]]), axis=0) proc_sched, task_sched, dict_sched = heft.schedule_dag(dag, communication_matrix=inf_comm, computation_matrix=inf_comp, proc_schedules=None, time_offset=0, relabel_nodes=True) assert proc_sched == expected_proc_sched assert task_sched == expected_task_sched assert dict_sched == expected_dict_sched
def schedule_dag(): payload = request.get_json() write_files(payload) comp_matrix_1 = heft.readCsvToNumpyMatrix('./execTimes.csv') comm_matrix_1 = heft.readCsvToNumpyMatrix('./resources.csv') dag1 = heft.readDagMatrix('./dag.csv') startup_vector_1 = np.array([0 for _ in range(comm_matrix_1.shape[0])]) sched, _, _ = heft.schedule_dag(dag1, communication_matrix=comm_matrix_1, computation_matrix=comp_matrix_1, communication_startup=startup_vector_1) return { "sched": sched, }
def test_canonical_graph_with_zero_startup(): expected_proc_sched = { 0: [heft.ScheduleEvent(task=1, start=27.0, end=40.0, proc=0), heft.ScheduleEvent(task=7, start=57.0, end=62.0, proc=0)], 1: [heft.ScheduleEvent(task=3, start=18.0, end=26.0, proc=1), heft.ScheduleEvent(task=5, start=26.0, end=42.0, proc=1), heft.ScheduleEvent(task=8, start=56.0, end=68.0, proc=1), heft.ScheduleEvent(task=9, start=73.0, end=80.0, proc=1)], 2: [heft.ScheduleEvent(task=0, start=0, end=9.0, proc=2), heft.ScheduleEvent(task=2, start=9.0, end=28.0, proc=2), heft.ScheduleEvent(task=4, start=28.0, end=38.0, proc=2), heft.ScheduleEvent(task=6, start=38.0, end=49.0, proc=2)] } expected_task_sched = { 0: heft.ScheduleEvent(task=0, start=0, end=9.0, proc=2), 1: heft.ScheduleEvent(task=1, start=27.0, end=40.0, proc=0), 2: heft.ScheduleEvent(task=2, start=9.0, end=28.0, proc=2), 3: heft.ScheduleEvent(task=3, start=18.0, end=26.0, proc=1), 4: heft.ScheduleEvent(task=4, start=28.0, end=38.0, proc=2), 5: heft.ScheduleEvent(task=5, start=26.0, end=42.0, proc=1), 6: heft.ScheduleEvent(task=6, start=38.0, end=49.0, proc=2), 7: heft.ScheduleEvent(task=7, start=57.0, end=62.0, proc=0), 8: heft.ScheduleEvent(task=8, start=56.0, end=68.0, proc=1), 9: heft.ScheduleEvent(task=9, start=73.0, end=80.0, proc=1) } expected_dict_sched = { 0: (2, 0, []), 1: (0, 0, []), 2: (2, 1, [expected_task_sched[0].task]), 3: (1, 0, []), 4: (2, 2, [expected_task_sched[2].task]), 5: (1, 1, [expected_task_sched[3].task]), 6: (2, 3, [expected_task_sched[4].task]), 7: (0, 1, [expected_task_sched[1].task]), 8: (1, 2, [expected_task_sched[5].task]), 9: (1, 3, [expected_task_sched[8].task]) } dag = heft.readDagMatrix('test/canonicalgraph_task_connectivity.csv') comm = heft.readCsvToNumpyMatrix('test/canonicalgraph_resource_BW_startup.csv') comm_startup = comm[-1, :] comm = comm[0:-1, :] comp = heft.readCsvToNumpyMatrix('test/canonicalgraph_task_exe_time.csv') proc_sched, task_sched, dict_sched = heft.schedule_dag(dag, communication_matrix=comm, communication_startup=comm_startup, computation_matrix=comp, proc_schedules=None, time_offset=0, relabel_nodes=True) assert proc_sched == expected_proc_sched assert task_sched == expected_task_sched assert dict_sched == expected_dict_sched
def test_random_graph(): expected_proc_sched = { 0: [heft.ScheduleEvent(task=1, start=approx(65.9566, 0.001), end=approx(95.881, 0.001), proc=0), heft.ScheduleEvent(task=3, start=approx(95.881, 0.001), end=approx(107.4534, 0.001), proc=0), heft.ScheduleEvent(task=7, start=approx(109.8242, 0.001), end=approx(130.6393, 0.001), proc=0)], 1: [heft.ScheduleEvent(task=2, start=approx(61.2566, 0.001), end=approx(103.0477, 0.001), proc=1), heft.ScheduleEvent(task=8, start=approx(107.0242, 0.001), end=approx(124.2442, 0.001), proc=1), heft.ScheduleEvent(task=6, start=approx(124.2442, 0.001), end=approx(136.3771, 0.001), proc=1)], 2: [heft.ScheduleEvent(task=0, start=0, end=approx(56.9566, 0.001), proc=2), heft.ScheduleEvent(task=4, start=approx(56.9566, 0.001), end=approx(105.0242, 0.001), proc=2), heft.ScheduleEvent(task=5, start=approx(105.0242, 0.001), end=approx(168.2705, 0.001), proc=2), heft.ScheduleEvent(task=9, start=approx(168.2705, 0.001), end=approx(184.1923, 0.001), proc=2)] } expected_task_sched = { 0: heft.ScheduleEvent(task=0, start=0, end=approx(56.9566, 0.001), proc=2), 1: heft.ScheduleEvent(task=1, start=approx(65.9566, 0.001), end=approx(95.881, 0.001), proc=0), 2: heft.ScheduleEvent(task=2, start=approx(61.2566, 0.001), end=approx(103.0477, 0.001), proc=1), 3: heft.ScheduleEvent(task=3, start=approx(95.881, 0.001), end=approx(107.4534, 0.001), proc=0), 4: heft.ScheduleEvent(task=4, start=approx(56.9566, 0.001), end=approx(105.0242, 0.001), proc=2), 5: heft.ScheduleEvent(task=5, start=approx(105.0242, 0.001), end=approx(168.2705, 0.001), proc=2), 6: heft.ScheduleEvent(task=6, start=approx(124.2442, 0.001), end=approx(136.3771, 0.001), proc=1), 7: heft.ScheduleEvent(task=7, start=approx(109.8242, 0.001), end=approx(130.6393, 0.001), proc=0), 8: heft.ScheduleEvent(task=8, start=approx(107.0242, 0.001), end=approx(124.2442, 0.001), proc=1), 9: heft.ScheduleEvent(task=9, start=approx(168.2705, 0.001), end=approx(184.1923, 0.001), proc=2) } expected_dict_sched = { 0: (2, 0, []), 1: (0, 0, []), 2: (1, 0, []), 3: (0, 1, [expected_task_sched[1].task]), 4: (2, 1, [expected_task_sched[0].task]), 5: (2, 2, [expected_task_sched[4].task]), 6: (1, 2, [expected_task_sched[8].task]), 7: (0, 2, [expected_task_sched[3].task]), 8: (1, 1, [expected_task_sched[2].task]), 9: (2, 3, [expected_task_sched[5].task]) } dag = heft.readDagMatrix('test/randomgraph_task_connectivity.csv') comm = heft.readCsvToNumpyMatrix('test/randomgraph_resource_BW.csv') comp = heft.readCsvToNumpyMatrix('test/randomgraph_task_exe_time.csv') proc_sched, task_sched, dict_sched = heft.schedule_dag(dag, communication_matrix=comm, computation_matrix=comp, proc_schedules=None, time_offset=0, relabel_nodes=True) assert proc_sched == expected_proc_sched assert task_sched == expected_task_sched assert dict_sched == expected_dict_sched
def test_canonical_graph_twice(): expected_proc_sched = { 0: [heft.ScheduleEvent(task=10, start=10.0, end=24.0, proc=0), heft.ScheduleEvent(task=1, start=27.0, end=40.0, proc=0), heft.ScheduleEvent(task=12, start=40.0, end=51.0, proc=0), heft.ScheduleEvent(task=7, start=57.0, end=62.0, proc=0), heft.ScheduleEvent(task=14, start=62.0, end=74.0, proc=0), heft.ScheduleEvent(task=16, start=74.0, end=81.0, proc=0)], 1: [heft.ScheduleEvent(task=3, start=18.0, end=26.0, proc=1), heft.ScheduleEvent(task=5, start=26.0, end=42.0, proc=1), heft.ScheduleEvent(task=13, start=42.0, end=50.0, proc=1), heft.ScheduleEvent(task=8, start=56.0, end=68.0, proc=1), heft.ScheduleEvent(task=9, start=73.0, end=80.0, proc=1), heft.ScheduleEvent(task=18, start=87.0, end=99.0, proc=1), heft.ScheduleEvent(task=19, start=102.0, end=109.0, proc=1)], 2: [heft.ScheduleEvent(task=0, start=0, end=9.0, proc=2), heft.ScheduleEvent(task=2, start=9.0, end=28.0, proc=2), heft.ScheduleEvent(task=4, start=28.0, end=38.0, proc=2), heft.ScheduleEvent(task=6, start=38.0, end=49.0, proc=2), heft.ScheduleEvent(task=11, start=49.0, end=67.0, proc=2), heft.ScheduleEvent(task=15, start=67.0, end=76.0, proc=2), heft.ScheduleEvent(task=17, start=77.0, end=91.0, proc=2)] } expected_task_sched = { 0: heft.ScheduleEvent(task=0, start=0, end=9.0, proc=2), 1: heft.ScheduleEvent(task=1, start=27.0, end=40.0,proc=0), 2: heft.ScheduleEvent(task=2, start=9.0, end=28.0, proc=2), 3: heft.ScheduleEvent(task=3, start=18.0, end=26.0, proc=1), 4: heft.ScheduleEvent(task=4, start=28.0, end=38.0, proc=2), 5: heft.ScheduleEvent(task=5, start=26.0, end=42.0, proc=1), 6: heft.ScheduleEvent(task=6, start=38.0, end=49.0, proc=2), 7: heft.ScheduleEvent(task=7, start=57.0, end=62.0, proc=0), 8: heft.ScheduleEvent(task=8, start=56.0, end=68.0, proc=1), 9: heft.ScheduleEvent(task=9, start=73.0, end=80.0, proc=1), 10: heft.ScheduleEvent(task=10, start=10.0, end=24.0, proc=0), 11: heft.ScheduleEvent(task=11, start=49.0, end=67.0, proc=2), 12: heft.ScheduleEvent(task=12, start=40.0, end=51.0, proc=0), 13: heft.ScheduleEvent(task=13, start=42.0, end=50.0, proc=1), 14: heft.ScheduleEvent(task=14, start=62.0, end=74.0, proc=0), 15: heft.ScheduleEvent(task=15, start=67.0, end=76.0, proc=2), 16: heft.ScheduleEvent(task=16, start=74.0, end=81.0, proc=0), 17: heft.ScheduleEvent(task=17, start=77.0, end=91.0, proc=2), 18: heft.ScheduleEvent(task=18, start=87.0, end=99.0, proc=1), 19: heft.ScheduleEvent(task=19, start=102.0, end=109.0, proc=1) } expected_dict_sched = { 0: (2, 0, []), 1: (0, 1, [expected_task_sched[10].task]), 2: (2, 1, [expected_task_sched[0].task]), 3: (1, 0, []), 4: (2, 2, [expected_task_sched[2].task]), 5: (1, 1, [expected_task_sched[3].task]), 6: (2, 3, [expected_task_sched[4].task]), 7: (0, 3, [expected_task_sched[12].task]), 8: (1, 3, [expected_task_sched[13].task]), 9: (1, 4, [expected_task_sched[8].task]), 10: (0, 0, []), 11: (2, 4, [expected_task_sched[6].task]), 12: (0, 2, [expected_task_sched[1].task]), 13: (1, 2, [expected_task_sched[5].task]), 14: (0, 4, [expected_task_sched[7].task]), 15: (2, 5, [expected_task_sched[11].task]), 16: (0, 5, [expected_task_sched[14].task]), 17: (2, 6, [expected_task_sched[15].task]), 18: (1, 5, [expected_task_sched[9].task]), 19: (1, 6, [expected_task_sched[18].task]) } dag = heft.readDagMatrix('test/canonicalgraph_task_connectivity.csv') comm = heft.readCsvToNumpyMatrix('test/canonicalgraph_resource_BW.csv') comp = heft.readCsvToNumpyMatrix('test/canonicalgraph_task_exe_time.csv') proc_sched, task_sched, dict_sched = heft.schedule_dag(dag, communication_matrix=comm, computation_matrix=comp, proc_schedules=None, time_offset=0, relabel_nodes=True) proc_sched, task_sched, dict_sched = heft.schedule_dag(dag, communication_matrix=comm, computation_matrix=comp, proc_schedules=proc_sched, time_offset=10, relabel_nodes=True) assert proc_sched == expected_proc_sched assert task_sched == expected_task_sched assert dict_sched == expected_dict_sched
{Start: 0.000000/End: 9.000000/TaskProc: 2/TaskID: 0}, {Start: 9.000000/End: 27.000000/TaskProc: 2/TaskID: 1}, {Start: 27.000000/End: 36.000000/TaskProc: 2/TaskID: 5}, ''' if len(sys.argv) == 1: print("Please provide a data path to compute schedule lengths") sys.exit() data_path = sys.argv[1] # get the data path if path.exists(data_path): os.chdir(data_path) file_names = [name for name in os.listdir(".") if os.path.isdir(name)] for fn in file_names: cm_path = fn + "/task_exe_time.csv" #print(cm_path) comp_matrix = heft.readCsvToNumpyMatrix(cm_path) #print(comp_matrix) cmm_path = fn + "/resource_BW.csv" comm_matrix = heft.readCsvToNumpyMatrix(cmm_path) dag_path = fn + "/task_connectivity.csv" dag = heft.readDagMatrix(dag_path) sched, _,_,_ = heft.schedule_dag(dag,communication_matrix=comm_matrix, computation_matrix=comp_matrix) print("Finish time for " + fn + ": " + str(sched)) print("Finished computing FTs for the experiments") else: print("Please try again with a valid path...")