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Python CpuSnapshot.assignJobEarliest方法代码示例

本文整理汇总了Python中common.CpuSnapshot.assignJobEarliest方法的典型用法代码示例。如果您正苦于以下问题:Python CpuSnapshot.assignJobEarliest方法的具体用法?Python CpuSnapshot.assignJobEarliest怎么用?Python CpuSnapshot.assignJobEarliest使用的例子?那么, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在common.CpuSnapshot的用法示例。


在下文中一共展示了CpuSnapshot.assignJobEarliest方法的7个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。

示例1: TailDoubleEasyScheduler

# 需要导入模块: from common import CpuSnapshot [as 别名]
# 或者: from common.CpuSnapshot import assignJobEarliest [as 别名]
class  TailDoubleEasyScheduler(EasyBackfillScheduler):
    """ This algorithm implements the algorithm in the paper of Tsafrir, Etzion, Feitelson, june 2007?
    """
    
    def __init__(self, options):
        super(TailDoubleEasyScheduler, self).__init__(options)
        self.cpu_snapshot = CpuSnapshot(self.num_processors, options["stats"])

    
    def _backfill_jobs(self, current_time):
        "Overriding parent method"
        if len(self.unscheduled_jobs) <= 1:
            return []

        result = []  
        first_job = self.unscheduled_jobs[0]        
        tail =  list_copy(self.unscheduled_jobs[1:]) 
        
        self.cpu_snapshot.assignJobEarliest(first_job, current_time)
        
        for job in tail:
            job.predicted_run_time = 2 * job.user_estimated_run_time # doubling is done here 
            if self.cpu_snapshot.canJobStartNow(job, current_time): # if job can be backfilled 
                self.unscheduled_jobs.remove(job)
                self.cpu_snapshot.assignJob(job, current_time)
                result.append(job)
            else:
                job.predicted_run_time = job.user_estimated_run_time # undoubling is done here 
                
        self.cpu_snapshot.delJobFromCpuSlices(first_job)

        return result
开发者ID:dinesh121991,项目名称:predictsim,代码行数:34,代码来源:tail_double_easy_scheduler.py

示例2: ReverseEasyScheduler

# 需要导入模块: from common import CpuSnapshot [as 别名]
# 或者: from common.CpuSnapshot import assignJobEarliest [as 别名]
class  ReverseEasyScheduler(EasyBackfillScheduler):
    
    def __init__(self, options):
        super(ReverseEasyScheduler, self).__init__(options)
        self.cpu_snapshot = CpuSnapshot(self.num_processors, options["stats"])

    
    def _backfill_jobs(self, current_time):
        "Overriding parent method"
        if len(self.unscheduled_jobs) <= 1:
            return []

        result = []  
        first_job = self.unscheduled_jobs[0]        
        tail =  list_copy(self.unscheduled_jobs[1:])
        tail_of_jobs_by_reverse_order = sorted(tail, key=latest_sort_key)
        
        self.cpu_snapshot.assignJobEarliest(first_job, current_time)
        
        for job in tail_of_jobs_by_reverse_order:
            if self.cpu_snapshot.canJobStartNow(job, current_time): 
                self.unscheduled_jobs.remove(job)
                self.cpu_snapshot.assignJob(job, current_time)
                result.append(job)
                
        self.cpu_snapshot.delJobFromCpuSlices(first_job)

        return result
开发者ID:dinesh121991,项目名称:predictsim,代码行数:30,代码来源:reverse_easy_scheduler.py

示例3: ConservativeScheduler

# 需要导入模块: from common import CpuSnapshot [as 别名]
# 或者: from common.CpuSnapshot import assignJobEarliest [as 别名]
class ConservativeScheduler(Scheduler):

    def __init__(self, options):
        super(ConservativeScheduler, self).__init__(options)
        self.cpu_snapshot = CpuSnapshot(self.num_processors, options["stats"])
        self.unfinished_jobs_by_submit_time = []

    def new_events_on_job_submission(self, job, current_time):
        self.cpu_snapshot.archive_old_slices(current_time)
        self.unfinished_jobs_by_submit_time.append(job)
        self.cpu_snapshot.assignJobEarliest(job, current_time)
        return [ JobStartEvent(job.start_to_run_at_time, job) ]

    def new_events_on_job_termination(self, job, current_time):
        """ Here we delete the tail of job if it was ended before the duration declaration.
        It then reschedules the remaining jobs and returns a collection of new termination events
        (using the dictionary data structure) """
        self.cpu_snapshot.archive_old_slices(current_time)
        self.unfinished_jobs_by_submit_time.remove(job)
        self.cpu_snapshot.delTailofJobFromCpuSlices(job)
        return self._reschedule_jobs(current_time)

    def _reschedule_jobs(self, current_time):
        newEvents = []
        for job in self.unfinished_jobs_by_submit_time:
            if job.start_to_run_at_time <= current_time:
                continue # job started to run before, so it cannot be rescheduled (preemptions are not allowed)
            prev_start_to_run_at_time = job.start_to_run_at_time
            self.cpu_snapshot.delJobFromCpuSlices(job)
            self.cpu_snapshot.assignJobEarliest(job, current_time)
            assert prev_start_to_run_at_time >= job.start_to_run_at_time
            if prev_start_to_run_at_time != job.start_to_run_at_time:
                newEvents.append( JobStartEvent(job.start_to_run_at_time, job) )
        return newEvents
开发者ID:jad-darrous,项目名称:predictsim,代码行数:36,代码来源:conservative_scheduler.py

示例4: EasySJBFScheduler

# 需要导入模块: from common import CpuSnapshot [as 别名]
# 或者: from common.CpuSnapshot import assignJobEarliest [as 别名]
class EasySJBFScheduler(EasyBackfillScheduler):
    """ This algorithm implements the algorithm in the paper of Tsafrir, Etzion, Feitelson, june 2007?
    """

    def __init__(self, num_processors):
        super(EasySJBFScheduler, self).__init__(num_processors)
        self.cpu_snapshot = CpuSnapshot(num_processors)

    def _backfill_jobs(self, current_time):
        "Overriding parent method"
        if len(self.unscheduled_jobs) <= 1:
            return []

        result = []
        first_job = self.unscheduled_jobs[0]
        tail = list_copy(self.unscheduled_jobs[1:])
        tail_of_jobs_by_sjf_order = sorted(tail, key=sjf_sort_key)

        self.cpu_snapshot.assignJobEarliest(first_job, current_time)

        for job in tail_of_jobs_by_sjf_order:
            if self.cpu_snapshot.canJobStartNow(job, current_time):
                self.unscheduled_jobs.remove(job)
                self.cpu_snapshot.assignJob(job, current_time)
                result.append(job)

        self.cpu_snapshot.delJobFromCpuSlices(first_job)

        return result
开发者ID:tekinbicer,项目名称:pyss,代码行数:31,代码来源:easy_sjbf_scheduler.py

示例5: EasyBackfillScheduler

# 需要导入模块: from common import CpuSnapshot [as 别名]
# 或者: from common.CpuSnapshot import assignJobEarliest [as 别名]
class EasyBackfillScheduler(Scheduler):

    def __init__(self, options):
        super(EasyBackfillScheduler, self).__init__(options)
        self.cpu_snapshot = CpuSnapshot(self.num_processors, options["stats"])
        self.unscheduled_jobs = []

    def new_events_on_job_submission(self, just_submitted_job, current_time):
        """ Here we first add the new job to the waiting list. We then try to schedule
        the jobs in the waiting list, returning a collection of new termination events """
        # TODO: a probable performance bottleneck because we reschedule all the
        # jobs. Knowing that only one new job is added allows more efficient
        # scheduling here.
        self.cpu_snapshot.archive_old_slices(current_time)
        self.unscheduled_jobs.append(just_submitted_job)
        
        retl = []
        
        if (self.cpu_snapshot.free_processors_available_at(current_time) >= just_submitted_job.num_required_processors):
		for job in self._schedule_jobs(current_time):
			retl.append(JobStartEvent(current_time, job))
        
        return retl

    def new_events_on_job_termination(self, job, current_time):
        """ Here we first delete the tail of the just terminated job (in case it's
        done before user estimation time). We then try to schedule the jobs in the waiting list,
        returning a collection of new termination events """
        self.cpu_snapshot.archive_old_slices(current_time)
        self.cpu_snapshot.delTailofJobFromCpuSlices(job)
        return [
            JobStartEvent(current_time, job)
            for job in self._schedule_jobs(current_time)
        ]

    def _schedule_jobs(self, current_time):
        "Schedules jobs that can run right now, and returns them"
        jobs = self._schedule_head_of_list(current_time)
        jobs += self._backfill_jobs(current_time)
        return jobs

    def _schedule_head_of_list(self, current_time):     
        result = []
        while True:
            if len(self.unscheduled_jobs) == 0:
                break
            # Try to schedule the first job
            if self.cpu_snapshot.free_processors_available_at(current_time) >= self.unscheduled_jobs[0].num_required_processors:
                job = self.unscheduled_jobs.pop(0)
                self.cpu_snapshot.assignJob(job, current_time)
                result.append(job)
            else:
                # first job can't be scheduled
                break
        return result

    def _backfill_jobs(self, current_time):
        """
        Find jobs that can be backfilled and update the cpu snapshot.
        DEPRECATED FUNCTION !!!!!!
        """
        if len(self.unscheduled_jobs) <= 1:
            return []
        
        result = []


        tail_of_waiting_list = list_copy(self.unscheduled_jobs[1:])
        
        first_job = self.unscheduled_jobs[0]
        self.cpu_snapshot.assignJobEarliest(first_job, current_time)
        
        for job in tail_of_waiting_list:
            if self.cpu_snapshot.canJobStartNow(job, current_time):
                job.is_backfilled = 1
                self.unscheduled_jobs.remove(job)
                self.cpu_snapshot.assignJob(job, current_time)
                result.append(job)
        self.cpu_snapshot.unAssignJob(first_job)

        return result
开发者ID:jad-darrous,项目名称:predictsim,代码行数:83,代码来源:easy_backfill_scheduler.py

示例6: EasyPlusPlusScheduler

# 需要导入模块: from common import CpuSnapshot [as 别名]
# 或者: from common.CpuSnapshot import assignJobEarliest [as 别名]
class  EasyPlusPlusScheduler(Scheduler):
    """ This algorithm implements the algorithm in the paper of Tsafrir, Etzion, Feitelson, june 2007?
    """

    I_NEED_A_PREDICTOR = True

    def __init__(self, options):
        super(EasyPlusPlusScheduler, self).__init__(options)
        self.init_predictor(options)
        self.init_corrector(options)

        self.cpu_snapshot = CpuSnapshot(self.num_processors, options["stats"])
        self.unscheduled_jobs = []


    def new_events_on_job_submission(self, job, current_time):

        self.cpu_snapshot.archive_old_slices(current_time)
        self.predictor.predict(job, current_time, self.running_jobs)
        if not hasattr(job,"initial_prediction"):
            job.initial_prediction=job.predicted_run_time
        self.unscheduled_jobs.append(job)
        return [
            JobStartEvent(current_time, job)
            for job in self._schedule_jobs(current_time)
        ]


    def new_events_on_job_termination(self, job, current_time):
        self.predictor.fit(job, current_time)

        if self.corrector.__name__=="ninetynine":
            self.pestimator.fit(job.actual_run_time/job.user_estimated_run_time)

        self.cpu_snapshot.archive_old_slices(current_time)
        self.cpu_snapshot.delTailofJobFromCpuSlices(job)
        return [
            JobStartEvent(current_time, job)
            for job in self._schedule_jobs(current_time)
        ]


    def new_events_on_job_under_prediction(self, job, current_time):
        pass #assert job.predicted_run_time <= job.user_estimated_run_time

        if not hasattr(job,"num_underpredict"):
            job.num_underpredict = 0
        else:
            job.num_underpredict += 1

        if self.corrector.__name__=="ninetynine":
            new_predicted_run_time = self.corrector(self.pestimator,job,current_time)
        else:
            new_predicted_run_time = self.corrector(job, current_time)

        #set the new predicted runtime
        self.cpu_snapshot.assignTailofJobToTheCpuSlices(job, new_predicted_run_time)
        job.predicted_run_time = new_predicted_run_time

        return [JobStartEvent(current_time, job)]


    def _schedule_jobs(self, current_time):
        "Schedules jobs that can run right now, and returns them"

        jobs  = self._schedule_head_of_list(current_time)
        jobs += self._backfill_jobs(current_time)
        return jobs


    def _schedule_head_of_list(self, current_time):
        result = []
        while True:
            if len(self.unscheduled_jobs) == 0:
                break
            # Try to schedule the first job
            if self.cpu_snapshot.free_processors_available_at(current_time) >= self.unscheduled_jobs[0].num_required_processors:
                job = self.unscheduled_jobs.pop(0)
                self.cpu_snapshot.assignJob(job, current_time)
                result.append(job)
            else:
                # first job can't be scheduled
                break
        return result


    def _backfill_jobs(self, current_time):
        if len(self.unscheduled_jobs) <= 1:
            return []

        result = []
        first_job = self.unscheduled_jobs[0]
        tail =  list_copy(self.unscheduled_jobs[1:])
        tail_of_jobs_by_sjf_order = sorted(tail, key=sjf_sort_key)

        self.cpu_snapshot.assignJobEarliest(first_job, current_time)

        for job in tail_of_jobs_by_sjf_order:
            if self.cpu_snapshot.canJobStartNow(job, current_time):
                job.is_backfilled = 1
#.........这里部分代码省略.........
开发者ID:dinesh121991,项目名称:predictsim,代码行数:103,代码来源:easy_plus_plus_scheduler.py

示例7: EasyPlusPlusScheduler

# 需要导入模块: from common import CpuSnapshot [as 别名]
# 或者: from common.CpuSnapshot import assignJobEarliest [as 别名]
class  EasyPlusPlusScheduler(Scheduler):
    """ This algorithm implements the algorithm in the paper of Tsafrir, Etzion, Feitelson, june 2007?
    """
    
    def __init__(self, num_processors):
        super(EasyPlusPlusScheduler, self).__init__(num_processors)
        self.cpu_snapshot = CpuSnapshot(num_processors)
        self.unscheduled_jobs = []
        self.user_run_time_prev = {}
        self.user_run_time_last = {}

    
    def new_events_on_job_submission(self, job, current_time):
        if not self.user_run_time_last.has_key(job.user_id): 
            self.user_run_time_prev[job.user_id] = None 
            self.user_run_time_last[job.user_id] = None

        self.cpu_snapshot.archive_old_slices(current_time)
        self.unscheduled_jobs.append(job)
        return [
            JobStartEvent(current_time, job)
            for job in self._schedule_jobs(current_time)
        ]


    def new_events_on_job_termination(self, job, current_time):
        assert self.user_run_time_last.has_key(job.user_id) == True
        assert self.user_run_time_prev.has_key(job.user_id) == True

        self.user_run_time_prev[job.user_id] = self.user_run_time_last[job.user_id]
        self.user_run_time_last[job.user_id] = job.actual_run_time
        self.cpu_snapshot.archive_old_slices(current_time)
        self.cpu_snapshot.delTailofJobFromCpuSlices(job)
        return [
            JobStartEvent(current_time, job)
            for job in self._schedule_jobs(current_time)
        ]


    def new_events_on_job_under_prediction(self, job, current_time):
        assert job.predicted_run_time <= job.user_estimated_run_time

        self.cpu_snapshot.assignTailofJobToTheCpuSlices(job)
        job.predicted_run_time = job.user_estimated_run_time
        return []


    def _schedule_jobs(self, current_time):
        "Schedules jobs that can run right now, and returns them"
   
        for job in self.unscheduled_jobs:
            if self.user_run_time_prev[job.user_id] != None: 
                average =  int((self.user_run_time_last[job.user_id] + self.user_run_time_prev[job.user_id])/ 2)
                job.predicted_run_time = min (job.user_estimated_run_time, average)

        jobs  = self._schedule_head_of_list(current_time)
        jobs += self._backfill_jobs(current_time)
        return jobs


    def _schedule_head_of_list(self, current_time):     
        result = []
        while True:
            if len(self.unscheduled_jobs) == 0:
                break
            # Try to schedule the first job
            if self.cpu_snapshot.free_processors_available_at(current_time) >= self.unscheduled_jobs[0].num_required_processors:
                job = self.unscheduled_jobs.pop(0)
                self.cpu_snapshot.assignJob(job, current_time)
                result.append(job)
            else:
                # first job can't be scheduled
                break
        return result
    

    def _backfill_jobs(self, current_time):
        if len(self.unscheduled_jobs) <= 1:
            return []

        result = []  
        first_job = self.unscheduled_jobs[0]        
        tail =  list_copy(self.unscheduled_jobs[1:])
        tail_of_jobs_by_sjf_order = sorted(tail, key=sjf_sort_key)
        
        self.cpu_snapshot.assignJobEarliest(first_job, current_time)
        
        for job in tail_of_jobs_by_sjf_order:
            if self.cpu_snapshot.canJobStartNow(job, current_time): 
                self.unscheduled_jobs.remove(job)
                self.cpu_snapshot.assignJob(job, current_time)
                result.append(job)
                
        self.cpu_snapshot.delJobFromCpuSlices(first_job)

        return result
开发者ID:jgera,项目名称:pyss,代码行数:98,代码来源:easy_plus_plus_scheduler.py


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