Exemplo n.º 1
0
def timing_triple_cloud():
    execfile('picloud_venture_credentials.py')
    exp_params = experiment.exp_param_defaults({})
    exp_params['intermediate_iter'] = 1
    exp_params['max_initial_run_time'] = 30
    exp_params['max_burn_time'] = 30
    exp_params['max_sample_time'] = 30
    exp_params['n_samples'] = 25
    print experiment.exp_params_to_str(exp_params)
    
    data = scipy.io.loadmat("../data/irm_synth/irm_synth_20.mat", squeeze_me=True)
    observed = list(zip(data['train_i'].flat, data['train_j'].flat, data['train_v'].flat))
    missing  = list(zip(data['test_i'].flat,  data['test_j'].flat,  data['test_v'].flat))
    data = {'observations' : observed, 'missing' : missing}
    
    model = models.product_IRM
    model_params = {'D' : 1, 'alpha' : 1, 'symmetric' : True}
    
    # Timing run
    print 'Timing'
    job_id = cloud.call(experiment.network_cv_timing_run, data, model, exp_params, model_params, _max_runtime=5, _env=cloud_environment)
    time_per_mh_iter = cloud.result(job_id)['time_per_mh_iter']
    
    # Live run
    print 'Live'
    exp_params['intermediate_iter'] = max(1, int(round(0.9 * exp_params['max_sample_time'] / (exp_params['n_samples'] * time_per_mh_iter))))
    job_id = cloud.call(experiment.network_cv_single_run, data, model, exp_params, model_params, _max_runtime=5, _env=cloud_environment)
    cloud.join(job_id)
    print cloud.result(job_id)
Exemplo n.º 2
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    def runcode(self, code):
        """Execute a code object.

        When an exception occurs, self.showtraceback() is called to
        display a traceback.  All exceptions are caught except
        SystemExit, which is reraised.

        A note about KeyboardInterrupt: this exception may occur
        elsewhere in this code, and may not always be caught.  The
        caller should be prepared to deal with it.

        """
        try:
            job = cloud.call(cloud_run, code, self.locals)
            cloud.join(job)
            result = cloud.result(job)
            self.locals.update(result) 
            info = cloud.info(job, ['stderr', 'stdout'])[job]
            sys.stdout.write(info['stdout'])
            sys.stderr.write(info['stderr'])
        except SystemExit:
            raise
        except KeyboardInterrupt:
            raise OperationAborted('Interrupted')
        except cloud.CloudException, e:
            self.showcloudtraceback(e)
Exemplo n.º 3
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def outer_map(y):
    jids = cloud.map(inner_map, range(y))

    cloud.join(jids)

    results = cloud.result(jids)

    return list(results)
Exemplo n.º 4
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def outer_map(y):
    jids=cloud.map(inner_map,range(y))
    
    cloud.join(jids)
    
    results = cloud.result(jids)
    
    return list(results)
Exemplo n.º 5
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def timing_run_cloud():
    execfile('picloud_venture_credentials.py')
    exp_params = experiment.exp_param_defaults({})
    exp_params['intermediate_iter'] = 1
    exp_params['max_initial_run_time'] = 30
    print experiment.exp_params_to_str(exp_params)
    
    data = scipy.io.loadmat("../data/irm_synth/irm_synth_20.mat", squeeze_me=True)
    observed = list(zip(data['train_i'].flat, data['train_j'].flat, data['train_v'].flat))
    missing  = list(zip(data['test_i'].flat,  data['test_j'].flat,  data['test_v'].flat))
    data = {'observations' : observed, 'missing' : missing}
    
    model = models.product_IRM
    model_params = {'D' : 1, 'alpha' : 1, 'symmetric' : True}
    job_id = cloud.call(experiment.network_cv_timing_run, data, model, exp_params, model_params, _max_runtime=5, _env=cloud_environment)
    cloud.join(job_id)
    print cloud.result(job_id)
Exemplo n.º 6
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def url_chunker(url, chunksize=1024):
    """Returns an iterator over contents of a file
        *Params*
        #file - an open FILE object
        #chunksize - how many lines to read at once?
    """
    #url=book[0]
    #bookname=book[1]
    
    user_agent = {'User-agent': 'Mozilla/5.0'}
    result=requests.get(url,headers=user_agent)
    
    try:
        doc = result.content
    except:
        raise Exception("URL "+url+"not responding")
    
    text_in=StringIO(doc)
    chunks = []
    stop = False
    while not stop:
        text=""
        for x in range(chunksize):
            try:
                text+=text_in.next()
            except StopIteration:
                chunks.append(text)
                stop=True
                break
                
        chunks.append(text)
        
    jobids = cloud.map(wordcount, [(url,c) for c in chunks])
    cloud.join(jobids,deadlock_check=False)
    results = cloud.result(jobids)
    
    index=reduce_results(results)
    
    mongo_insert(index)
    
    return "OK"
Exemplo n.º 7
0
def url_chunker(url, chunksize=1024):
    """Returns an iterator over contents of a file
        *Params*
        #file - an open FILE object
        #chunksize - how many lines to read at once?
    """
    #url=book[0]
    #bookname=book[1]

    user_agent = {'User-agent': 'Mozilla/5.0'}
    result = requests.get(url, headers=user_agent)

    try:
        doc = result.content
    except:
        raise Exception("URL " + url + "not responding")

    text_in = StringIO(doc)
    chunks = []
    stop = False
    while not stop:
        text = ""
        for x in range(chunksize):
            try:
                text += text_in.next()
            except StopIteration:
                chunks.append(text)
                stop = True
                break

        chunks.append(text)

    jobids = cloud.map(wordcount, [(url, c) for c in chunks])
    cloud.join(jobids, deadlock_check=False)
    results = cloud.result(jobids)

    index = reduce_results(results)

    mongo_insert(index)

    return "OK"
Exemplo n.º 8
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 def run(self, **kwargs):
     """
     Runs the experiment. If the experiment is run on the cloud, blocks until all jobs complete.
     """
     if not self.configured:
         raise BaseException("Must configure experiment first")
     logger.debug('Running experiment')
     cloud_job_ids = []
     self.run_params = kwargs.copy()
     run_mode = kwargs.get('run_mode', 'local')
     self.run_mode = run_mode
     self.jobs = []
     for job in self.iter_jobs():
         result = job.run(**kwargs)
         if run_mode == 'cloud':
             cloud_job_ids.append(result)
         self.jobs.append(job)
     if run_mode == 'cloud':
         logger.info("Waiting for cloud jobs to finish")
         cloud.join(cloud_job_ids)
         logger.info("Cloud jobs finished")
Exemplo n.º 9
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 def f():
     if run_mode == 'cloud':
         cloud.join([self.job_id])
         store = storage.CloudStore()
     else:
         store = storage.LocalStore()
     full_history = store[self.params]
     partial_history = History()
     if iters is None:
         partial_history.states = full_history.states
     else:
         if isinstance(iters, int):  #iters interpreted as stride
             iter_set = range(0, len(full_history.states), iters)
         else:
             iter_set = iters
         partial_history.states = [
             state for state in full_history.states
             if state.iter in iter_set
         ]
     partial_history.job = self
     partial_history.summary = full_history.summary
     return partial_history
Exemplo n.º 10
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def test_info_status():
    jid = cloud.call(lambda: 3*3)
    cloud.join(jid)
    result = cloud.info(jid, ['status'] )
    obj = result[jid]
    assert obj['status'] == 'done'
Exemplo n.º 11
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def test_info_stderr():
    jid = cloud.call(lambda: 3*3)
    cloud.join(jid)
    result = cloud.info(jid, ['stderr'] )
    obj = result[jid]
    assert obj['stderr'] == None
Exemplo n.º 12
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def test_info_cpu_percentage():
    jid = cloud.call(lambda: 3*3)
    cloud.join(jid)
    result = cloud.info(jid, ['cpu_percentage'] )
    obj = result[jid]
    assert obj['cpu_percentage.system'] == None
Exemplo n.º 13
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def test_info_all():
    jid = cloud.call(lambda: 3*3)
    cloud.join(jid)
    result = cloud.info(jid, ['status','stdout','stderr','logging','pilog','exception','runtime','created','finished','env','vol','function','label','args','kwargs','func_body','attributes','profile','memory','cputime','cpu_percentage','ports'] )
    obj = result[jid]
    assert obj['status'] == 'done'
Exemplo n.º 14
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def test_exception3():
    '''Raise TypeError since cloud.join called with 1 invalid argument'''
    cloud.join("asdf")
Exemplo n.º 15
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def test_info_cputime():
    jid = cloud.call(lambda: 3*3)
    cloud.join(jid)
    result = cloud.info(jid, ['cputime.user'] )
    obj = result[jid]
    assert obj['cputime.user'] > 0
Exemplo n.º 16
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'''
Created on Jan 26, 2012

@author: Mudassar
'''

import os
import json
import cloud
from etl.config.drivers.picloud import config


def sum():
    return 10 + 10


if __name__ == '__main__':
    
    cloud.setkey(config['keyid'], config['key'])
    
    print cloud.realtime.request('c1', 10)

    jobid = cloud.call(sum, _type="c1", _label="TEST")
    
    cloud.join(jobid)
    
    print cloud.result(jobid)
    
Exemplo n.º 17
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def test_info_finished():
    jid = cloud.call(lambda: 3*3)
    cloud.join(jid)
    result = cloud.info(jid, ['finished'] )
    obj = result[jid]
    assert obj['finished'] is not None
Exemplo n.º 18
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from pyevolve_rastrigin import *
import cloud

# Please change these
cloud.setkey('4027', 'xxxx')

# List of Random seeds and run-Ids
# assuming 10 runs
seed_list=[100*(i+1) for i in range(10)]
runid_list=[i+1 for i in range(10)]

jids = cloud.map(run_ga,seed_list,runid_list)
cloud.join(jids)

for i in range(10):
    cloud.files.get('stats_' + str(i+1) + '.csv','stats_' + str(i+1)+'.csv')

Exemplo n.º 19
0
import cloud
jid = cloud.call(lambda: 3*3)
cloud.join(jid)
answer = cloud.result(jid)
print answer
Exemplo n.º 20
0
import cloud
import os
import time

### don't forget to set your own API key and secret in cloud_config.py
from cloud_config import *
cloud.setkey(key, secret)


def cloud_status(jids):
    s = Counter(cloud.status(jids))
    return s


def inner_map(x):
    return x * x


def outer_map(y):
    jids = cloud.map(inner_map, range(y))

    cloud.join(jids)

    results = cloud.result(jids)

    return list(results)


jids = cloud.map(outer_map, range(5))
cloud.join(jids)
results = cloud.result(jids)
Exemplo n.º 21
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 def sendtocloud(*args, **kwargs):
     import cloud
     jid = cloud.call(func,*args,**kwargs)
     cloud.join(jid)
     print 'Result:: ', cloud.result(jid)
Exemplo n.º 22
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def test_multiply():
    jid = cloud.call(lambda: 3*3)
    cloud.join(jid)
    answer = cloud.result(jid)
    assert answer == 9
Exemplo n.º 23
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def test_info_exception():
    jid = cloud.call(lambda: 3*3)
    cloud.join(jid)
    result = cloud.info(jid, ['exception'] )
    obj = result[jid]
    assert obj['exception'] == None
Exemplo n.º 24
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def test_info_args():
    jid = cloud.call(lambda: 3*3)
    cloud.join(jid)
    result = cloud.info(jid, ['args'] )
    obj = result[jid]
    assert obj['args'] is not None
Exemplo n.º 25
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def test_infoi_runtime():
    jid = cloud.call(lambda: 3*3)
    cloud.join(jid)
    result = cloud.info(jid, ['runtime'] )
    obj = result[jid]
    assert obj['runtime'] > 0
Exemplo n.º 26
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def test_info_memory():
    jid = cloud.call(lambda: 3*3)
    cloud.join(jid)
    result = cloud.info(jid, ['memory.max_usage'] )
    obj = result[jid]
    assert obj['memory.max_usage'] > 0
Exemplo n.º 27
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def test_info_env():
    jid = cloud.call(lambda: 3*3)
    cloud.join(jid)
    result = cloud.info(jid, ['env'] )
    obj = result[jid]
    assert obj['env'] == ''
Exemplo n.º 28
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def test_exception2():
    '''Raise TypeError since cloud.join called without arguments'''
    cloud.join()
Exemplo n.º 29
0
    Output is a new object in bucket with 'thumb_' prepended."""

    thumbnail_filename = 'thumb_' + key_name

    # download object to filesystem
    cloud.bucket.get(key_name)

    img = Image.open(key_name)
    img.thumbnail((100,100), Image.ANTIALIAS)

    # save the image to the filesystem
    img.save(thumbnail_filename, 'JPEG')

    # store the image file in your bucket
    cloud.bucket.put(thumbnail_filename)


if __name__ == '__main__':

    # put face.jpg into your bucket
    cloud.bucket.put('face.jpg')

    # run thumbnail() on the cloud
    jid = cloud.call(thumbnail, 'face.jpg')

    # wait for job to finish
    cloud.join(jid)

    # download image
    cloud.bucket.get('thumb_face.jpg')
Exemplo n.º 30
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def test_info_function():
    jid = cloud.call(lambda: 3*3)
    cloud.join(jid)
    result = cloud.info(jid, ['function'] )
    obj = result[jid]
    assert obj['function'] is not None
Exemplo n.º 31
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    def step_fitness(self):
        """
        Run fitness tests for the current generation, and evolve the next generation.
        """

        # Firstly, render code for all the genomes in the current population. Each genome owns its own
        # simulation object, because we want to interleave the simulations, running D_ROUNDS of simulation
        # rounds for all genomes, and killing off the weakest until BROOD_SIZE genomes remain.

        if self.next_population:
            self.population = copy.deepcopy(self.next_population)
            self.next_population = None

        for genome in self.population:
            code = genome.render(debug = self.DEBUG)
            genome.code_hash = md5.md5(code).hexdigest()
            genome.agent_name = 'agent_' + genome.code_hash
            genome.agent_path = 'agents/rendered/' + genome.agent_name + '.py'
            f = open(genome.agent_path, 'w')
            f.write(code)
            f.close()
            genome.agent_module = __import__('agents.rendered.'+genome.agent_name, fromlist=['*'])
            genome.simulation = simulate.Simulate(**self.sim_parameters)
            genome.simulation.agent_move = genome.agent_module.move
            genome.simulation.agent_observe_who = genome.agent_module.observe_who

        jobs = {}

        def job_callback(job):
            jobs[job].simulation = cloud.result(job)
            logger.debug('Job %d completed with fitness %.2f.' % (job, 1.0*jobs[job].simulation.total_payoff / jobs[job].simulation.round))
        
        def job_error(job):
            logger.debug('Job %d terminated with an error.' % job)
       
        while len(self.population) > self.BROOD_SIZE:

            if self.single_thread:
                for genome in self.population:
                    try:
                        genome.simulation.run(N_rounds = self.D_ROUNDS, return_self = True)
                    except:
                        e = sys.exc_info()
                        logger.debug('----------------------------------------------------------------------')
                        logger.debug(traceback.format_exc())
                        logger.debug("State graph:")
                        logger.debug(pprint.pformat(genome.state))                
            else:
                for genome in self.population:

                    jobs[cloud.call(genome.simulation.run, N_rounds = self.D_ROUNDS, return_self = True, 
                        _callback = [job_callback], _callback_on_error = [job_error], _fast_serialization = 0,
                        _type='c1')] = genome
                
                done = False
                while not done:
                    done = True
                    try:
                        cloud.join(jobs.keys())
                    except cloud.CloudException:
                        done = False
                        e = sys.exc_info()
                        logger.debug("More information on Job %d's unexpected termination:" % e[1].jid)
                        logger.debug("State graph:")
                        logger.debug(pprint.pformat(jobs[e[1].jid].state))
                        jobs.pop(e[1].jid)
            
            self.population.sort(reverse=True, key=lambda genome: 1.0 * genome.simulation.total_payoff)

            self.population = [genome for genome in self.population 
                               if genome.simulation.total_payoff >= self.PERFORMANCE_THRESHOLD]

            logger.debug([1.0 * genome.simulation.total_payoff / genome.simulation.round for genome in self.population])

            new_N = int(round(len(self.population) * (1. - self.DECIMATION_PERCENT)))
            if new_N < self.BROOD_SIZE:
                new_N = self.BROOD_SIZE
            
            # Let the fittest survive
            self.population = self.population[0:new_N]
Exemplo n.º 32
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import cloud

def add(x, y):
    return x + y
jid = cloud.call(add, 1, 2) 
cloud.join(jid,timeout=20,ignore_errors=True,deadlock_check=False)
answer = cloud.result(jid)
print answer