Esempio n. 1
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 def create_system_from_xml(input_file):
     """
     Reads system configuration from param:`xml_system`
     and returns cls:`System` instances.
     """
     from lxml import objectify
     root = objectify.fromstring(input_file.read())
     for s in root.iterfind('system'):
         system = System(**dict(s.items()))
         for c in s.iterfind('component'):
             component = Component(**dict(c.items()))
             for t in c.iterfind('task'):
                 task = Task(**dict(t.items()))
                 component.addTask(task)
             system.addComponent(component)
             if args.path:
                 system.path = args.path
         yield system
         if args.communication_server:
             yield add_server(
                 system,
                 component_period=args.communication_server_period,
                 component_priority=args.communication_server_priority,
                 component_budget=args.communication_server_budget,
                 tasks=tasks)
Esempio n. 2
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    def create_system_from_xml(xml_system, output=True):
        """
        Reads system configuration from param:`xml_system`
        and returns cls:`System` instance.
        """
        system = System(scheduler=xml_system.global_sched,
                        resolution=xml_system.resolution)

        for c in xml_system.iterfind('component'):
            component = Component(c.cname, c.cperiod, c.cpriority,
                                  float(str(c.budget).replace(',', '.')),
                                  c.localsched, cargs.payback)
            system.addComponent(component)
            if output:
                print 'Component:'
                print 'name', 'period', 'budget', 'priority'
                print c.cname, c.cperiod, c.budget, c.cpriority
                print 'Tasks:'
                print 'name', 'period', 'priority', 'execution time'
            for t in c.iterfind('task'):
                if output:
                    print t.tname, t.tperiod, t.tpriority, t.texetime
                component.addTask(Task(t.tname,
                                       float(str(t.tperiod).replace(',', '.')),
                                       int(t.tpriority),
                                       float(str(t.texetime).\
                                            replace(',', '.'))))
            if output:
                print '------------------------------------'

        system.path = cargs.path if len(cargs.path) > 0 \
                                 else range(len(system.tasks))
        return system
Esempio n. 3
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def rand_system(minTasks=1,
                maxTasks=1,
                minTaskPeriod=0.04,
                maxTaskPeriod=0.12,
                resources=0,
                resolution=1000,
                minComps=1,
                maxComps=1,
                minCompPeriod=0.01,
                maxCompPeriod=0.02,
                utilization=0.2,
                globalsched='FPS',
                localsched='EDF',
                payback=False,
                verbose=False,
                **kargs):
    ## FIXME: improve balance of Component and Task utilizations

    def rand_comp(component, utils):
        tasks = random.randint(minTasks, maxTasks)
        xutils = [random.uniform(0.2, 0.8) for i in range(tasks)]
        sutils = sum(xutils)
        periods = [random.uniform(minTaskPeriod, maxTaskPeriod) for i in range(tasks)]
        freq = map(lambda x: 1.0 / x, periods)
        priorities = list(range(tasks))
        random.shuffle(priorities, random.random)

        rutils = [random.uniform(0.2, 0.8) for i in range(tasks)]
        srutils = sum(rutils)
        utilizations = [(rutils[i] / srutils) * utils for i in range(tasks)]
        sutils = sum(utilizations)
        utilizations = map(lambda x: utils * x / sutils, utilizations)
        exectimes = map(lambda (a, b): a / b, zip(utilizations, freq))

        if verbose:
            print 'Component'
            print '================'
            print 'periods', periods
            print 'freq', freq
            print 'utils', utilizations
            print 'exec', exectimes
            print 'utilization', sum(map(lambda c: exectimes[c] * freq[c],
                                         range(tasks)))
            print '----------------'

        return [Task(
                'comp%d:task%d' % (component, t),
                resolution * periods[t],
                priorities[t],
                resolution * exectimes[t]) for t in range(tasks)]

    components = random.randint(minComps, maxComps)
    cperiods = [random.uniform(minCompPeriod, maxCompPeriod)
                for i in range(components)]
    freq = map(lambda x: 1.0 / x, cperiods)
    cpriorities = list(range(components))
    random.shuffle(cpriorities, random.random)
    utils = utilization
    rutils = [random.uniform(0.2, 0.8) for i in range(components)]
    srutils = sum(rutils)
    utilizations = [(rutils[i] / srutils) * utils for i in range(components)]
    sutils = sum(utilizations)
    # sum(map(freq*budget)) = utilization
    utilizations = map(lambda x: utils * x / sutils, utilizations)
    budget = map(lambda (a, b): a / b, zip(utilizations, freq))

    if verbose:
        print 'System'
        print '================'
        print 'periods:', cperiods
        print 'freq:', freq
        print 'utils:', utilizations
        print 'budget:', budget
        print 'utilization:', sum(map(lambda c: budget[c] * freq[c],
                                      range(components)))
        print '----------------'

    system = System(
        scheduler=globalsched,
        resolution=resolution)
    for c in range(components):
        component = Component(
            "comp%d" % (c,),
            resolution * cperiods[c],
            cpriorities[c],
            resolution * budget[c],
            localsched,
            payback)
        for t in rand_comp(c, utils * utilizations[c]):
            component.addTask(t)
        system.addComponent(component)

    return system