コード例 #1
0
def main(simulated_time,experimento,file,study,it):

    random.seed(it)
    np.random.seed(it)

    """
    TOPOLOGY from a json
    """
    t = Topology()


    dataNetwork = json.load(open(experimento+file+'-network.json'))
    t.load(dataNetwork)

    attNodes = {}
    for k in t.G.nodes():
        attNodes[k] = {"IPT": 1}
    nx.set_node_attributes(t.G, values=attNodes)

    # t.write("network.gexf")

    """
    APPLICATION
    """
    studyApp = study
    if study=="FstrRep":
        studyApp="Replica"
    elif study == "Cloud":
        studyApp="Single"

    dataApp = json.load(open(experimento+file+'-app%s.json'%studyApp))
    apps = create_applications_from_json(dataApp)
    #for app in apps:
    #  print apps[app]

    """
    PLACEMENT algorithm
    """
    placementJson = json.load(open(experimento+file+'-alloc%s.json'%study))
    placement = JSONPlacement(name="Placement",json=placementJson)

    ### Placement histogram

    # listDevices =[]
    # for item in placementJson["initialAllocation"]:
    #     listDevices.append(item["id_resource"])
    # import matplotlib.pyplot as plt
    # print listDevices
    # print np.histogram(listDevices,bins=range(101))
    # plt.hist(listDevices, bins=100)  # arguments are passed to np.histogram
    # plt.title("Placement Histogram")
    # plt.show()
    ## exit()
    """
    POPULATION algorithm
    """

    studyUser = study
    if study == "FstrRep":
        studyUser = "******"
    elif study == "Cloud":
        studyUser = "******"


    dataPopulation = json.load(open(experimento+file+'-users%s.json'%studyUser))
    pop = JSONPopulation(name="Statical",json=dataPopulation,it=it)


    """
    SELECTOR algorithm
    """
    selectorPath = DeviceSpeedAwareRouting()

    """
    SIMULATION ENGINE
    """

    stop_time = simulated_time
    s = Sim(t, default_results_path=experimento + "Results_%i_%s_%s_%i" % (it,file,study,stop_time))


    """
    Failure process
    """
    # time_shift = 10000
    # distribution = deterministicDistributionStartPoint(name="Deterministic", time=time_shift,start=10000)
    # failurefilelog = open(experimento+"Failure_%s_%i.csv" % (ilpPath,stop_time),"w")
    # failurefilelog.write("node, module, time\n")
    # idCloud = t.find_IDs({"type": "CLOUD"})[0] #[0] -> In this study there is only one CLOUD DEVICE
    # centrality = np.load(pathExperimento+"centrality.npy")
    # randomValues = np.load(pathExperimento+"random.npy")
    # # s.deploy_monitor("Failure Generation", failureControl, distribution,sim=s,filelog=failurefilelog,ids=centrality)
    # s.deploy_monitor("Failure Generation", failureControl, distribution,sim=s,filelog=failurefilelog,ids=randomValues)

    #For each deployment the user - population have to contain only its specific sources
    for aName in apps.keys():
        #print "Deploying app: ",aName
        pop_app = JSONPopulation(name="Statical_%s"%aName,json={},it=it)
        data = []
        for element in pop.data["sources"]:
            if element['app'] == aName:
                data.append(element)
        pop_app.data["sources"]=data

        s.deploy_app(apps[aName], placement, pop_app, selectorPath)


    s.run(stop_time, test_initial_deploy=False, show_progress_monitor=False) #TEST to TRUE
コード例 #2
0
ファイル: main.py プロジェクト: yangdz161/YAFS
def main(simulated_time,experimento,ilpPath):
    random.seed(RANDOM_SEED)
    np.random.seed(RANDOM_SEED)

    """
    TOPOLOGY from a json
    """
    t = Topology()
    dataNetwork = json.load(open(experimento+'networkDefinition.json'))
    t.load(dataNetwork)
    t.write("network.gexf")

    """
    APPLICATION
    """
    dataApp = json.load(open(experimento+'appDefinition.json'))
    apps = create_applications_from_json(dataApp)
    #for app in apps:
    #  print apps[app]

    """
    PLACEMENT algorithm
    """
    placementJson = json.load(open(experimento+'allocDefinition%s.json'%ilpPath))
    placement = JSONPlacement(name="Placement",json=placementJson)

    ### Placement histogram

    # listDevices =[]
    # for item in placementJson["initialAllocation"]:
    #     listDevices.append(item["id_resource"])
    # import matplotlib.pyplot as plt
    # print listDevices
    # print np.histogram(listDevices,bins=range(101))
    # plt.hist(listDevices, bins=100)  # arguments are passed to np.histogram
    # plt.title("Placement Histogram")
    # plt.show()
    ## exit()
    """
    POPULATION algorithm
    """
    dataPopulation = json.load(open(experimento+'usersDefinition.json'))
    pop = JSONPopulation(name="Statical",json=dataPopulation)


    """
    SELECTOR algorithm
    """
    selectorPath = DeviceSpeedAwareRouting()

    """
    SIMULATION ENGINE
    """

    stop_time = simulated_time
    s = Sim(t, default_results_path=experimento + "Results_%s_%i" % (ilpPath, stop_time))


    #For each deployment the user - population have to contain only its specific sources
    for aName in apps.keys():
        print "Deploying app: ",aName
        pop_app = JSONPopulation(name="Statical_%s"%aName,json={})
        data = []
        for element in pop.data["sources"]:
            if element['app'] == aName:
                data.append(element)
        pop_app.data["sources"]=data

        s.deploy_app(apps[aName], placement, pop_app, selectorPath)


    s.run(stop_time, test_initial_deploy=False, show_progress_monitor=False) #TEST to TRUE