Пример #1
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def main():
    # TODO: use  the experiment module to prepare and run later the simulation
    # define a directory to store the results
    experiment = Experiment(root_dir_path='~/home/user/L2L/results')
    # TODO when using the template: use keywords to prepare the experiment and
    #  create a dictionary for jube parameters
    # prepare_experiment returns the trajectory and all jube parameters
    jube_params = {"nodes": "2",
                   "walltime": "10:00:00",
                   "ppn": "1",
                   "cpu_pp": "1"}
    traj, all_jube_params = experiment.prepare_experiment(name='L2L',
                                                          log_stdout=True,
                                                          **jube_params)

    ## Innerloop simulator
    # TODO when using the template: Change the optimizee to the appropriate
    #  Optimizee class
    optimizee = Optimizee(traj)
    # TODO Create optimizee parameters
    optimizee_parameters = OptimizeeParameters()

    ## Outerloop optimizer initialization
    # TODO when using the template: Change the optimizer to the appropriate
    #  Optimizer class and use the right value for optimizee_fitness_weights.
    #  Length is the number of dimensions of fitness, and negative value
    #  implies minimization and vice versa
    optimizer_parameters = OptimizerParameters()
    optimizer = Optimizer(traj, optimizee.create_individual, (1.0,),
                          optimizer_parameters)

    experiment.run_experiment(optimizee=optimizee,
                              optimizee_parameters=optimizee_parameters,
                              optimizer=optimizer,
                              optimizer_parameters=optimizer_parameters)
Пример #2
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    def main():
        from l2l.utils.experiment import Experiment
        experiment = Experiment(root_dir_path='../../Data_Produced/L2L')
        name = 'L2L-TEST-WholeBrain'
        traj, _ = experiment.prepare_experiment(name=name,
                                                log_stdout=True,
                                                multiprocessing=False)

        optimizee = WholeBrainOptimizee(traj, {'we': (0, 10)})
        traj.individual = sdict(optimizee.create_individual())
Пример #3
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    def setUp(self):
        # Test function
        function_id = 14
        bench_functs = BenchmarkedFunctions()
        (benchmark_name, benchmark_function), benchmark_parameters = \
            bench_functs.get_function_by_index(function_id, noise=True)

        self.experiment = Experiment(root_dir_path='../../results')
        jube_params = {}
        self.trajectory, all_jube_params = self.experiment.prepare_experiment(
            name='L2L', log_stdout=True, jube_parameter=jube_params)
        self.optimizee_parameters = namedtuple('OptimizeeParameters', [])
        self.optimizee = FunctionGeneratorOptimizee(self.trajectory,
                                                    benchmark_function,
                                                    seed=1)
Пример #4
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 def setUp(self):
     self.experiment = Experiment(root_dir_path='../../results')
     jube_params = {}
     try:
         self.trajectory, _ = self.experiment.prepare_experiment(
             name='test_trajectory',
             log_stdout=True,
             add_time=True,
             automatic_storing=True,
             jube_parameter=jube_params)
     except FileNotFoundError as fe:
         self.fail(
             "{} \n L2L is not well configured. Missing path file.".format(
                 fe))
     self.paths = self.experiment.paths
Пример #5
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def main():
    name = 'L2L-FUN-GS'
    experiment = Experiment(root_dir_path='../results')
    traj, _ = experiment.prepare_experiment(name=name, log_stdout=True)

    ## Benchmark function
    function_id = 4
    bench_functs = BenchmarkedFunctions()
    (benchmark_name, benchmark_function), benchmark_parameters = \
        bench_functs.get_function_by_index(function_id, noise=True)

    optimizee_seed = 100
    random_state = np.random.RandomState(seed=optimizee_seed)
    function_tools.plot(benchmark_function, random_state)

    ## Innerloop simulator
    optimizee = FunctionGeneratorOptimizee(traj, benchmark_function, seed=optimizee_seed)

    ## Outerloop optimizer initialization
    n_grid_divs_per_axis = 30
    parameters = GridSearchParameters(param_grid={
        'coords': (optimizee.bound[0], optimizee.bound[1], n_grid_divs_per_axis)
    })
    optimizer = GridSearchOptimizer(traj, optimizee_create_individual=optimizee.create_individual,
                                    optimizee_fitness_weights=(-0.1,),
                                    parameters=parameters)
    # Experiment run
    experiment.run_experiment(optimizee=optimizee, optimizer=optimizer,
                              optimizee_parameters=parameters)
    # End experiment
    experiment.end_experiment(optimizer)
Пример #6
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def main():
    fit, swc, ref = sys.argv[1:]
    name = 'ARBOR-FUN'
    results_folder = '../results'
    trajectory_name = 'ARBOR'
    experiment = Experiment(results_folder)
    traj, _ = experiment.prepare_experiment(trajectory_name=trajectory_name,
                                            name=name,
                                            jube_parameter={})
    # Innerloop simulator
    optimizee = ArbSCOptimizee(traj, fit, swc, ref)
    # Outerloop optimizer initialization
    parameters = GeneticAlgorithmParameters(seed=0,
                                            popsize=50,
                                            CXPB=0.5,
                                            MUTPB=0.3,
                                            NGEN=100,
                                            indpb=0.02,
                                            tournsize=15,
                                            matepar=0.5,
                                            mutpar=1)
    optimizer = GeneticAlgorithmOptimizer(
        traj,
        optimizee_create_individual=optimizee.create_individual,
        optimizee_fitness_weights=(-0.1, ),
        parameters=parameters)
    experiment.run_experiment(optimizee=optimizee,
                              optimizer=optimizer,
                              optimizer_parameters=parameters,
                              optimizee_parameters=None)
    experiment.end_experiment(optimizer)
Пример #7
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def main():
    name = 'L2L-FUN-FACE'
    experiment = Experiment("../results/")
    trajectory_name = name
    traj, all_jube_params, = experiment.prepare_experiment(name=name,
                                                           trajectory_name=trajectory_name,
                                                           log_stdout=True)

    ## Benchmark function
    function_id = 4
    bench_functs = BenchmarkedFunctions()
    (benchmark_name, benchmark_function), benchmark_parameters = \
        bench_functs.get_function_by_index(function_id, noise=True)

    optimizee_seed = 100

    ## Innerloop simulator
    optimizee = FunctionGeneratorOptimizee(traj, benchmark_function, seed=optimizee_seed)

    ## Outerloop optimizer initialization
    parameters = FACEParameters(min_pop_size=20, max_pop_size=50, n_elite=10, smoothing=0.2, temp_decay=0,
                                n_iteration=1,
                                distribution=Gaussian(), n_expand=5, stop_criterion=np.inf, seed=109)
    optimizer = FACEOptimizer(traj, optimizee_create_individual=optimizee.create_individual,
                              optimizee_fitness_weights=(-0.1,),
                              parameters=parameters,
                              optimizee_bounding_func=optimizee.bounding_func)

    experiment.run_experiment(optimizer=optimizer, optimizee=optimizee,
                              optimizer_parameters=parameters,
                              optimizee_parameters=None)
    experiment.end_experiment(optimizer)
Пример #8
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    def test_juberunner_setup(self):
        self.experiment = Experiment(root_dir_path='../../results')
        self.trajectory, _ = self.experiment.prepare_experiment(
            name='test_trajectory',
            trajectory='test_trajectory',
            filename=".",
            file_title='{} data'.format('test_trajectory'),
            comment='{} data'.format('test_trajectory'),
            add_time=True,
            automatic_storing=True,
            log_stdout=False,
            jube_parameter={})
        self.trajectory.f_add_parameter_group("JUBE_params",
                                              "Contains JUBE parameters")
        self.trajectory.f_add_parameter_to_group(
            "JUBE_params", "exec", "python " + os.path.join(
                self.paths.simulation_path, "run_files/run_optimizee.py"))
        self.trajectory.f_add_parameter_to_group("JUBE_params", "paths",
                                                 self.paths)

        ## Benchmark function
        function_id = 14
        bench_functs = BenchmarkedFunctions()
        (benchmark_name, benchmark_function), benchmark_parameters = \
            bench_functs.get_function_by_index(function_id, noise=True)

        optimizee_seed = 1
        optimizee = FunctionGeneratorOptimizee(self.trajectory,
                                               benchmark_function,
                                               seed=optimizee_seed)

        jube.prepare_optimizee(optimizee, self.paths.root_dir_path)

        fname = os.path.join(self.paths.root_dir_path, "optimizee.bin")

        try:
            f = open(fname, "r")
            f.close()
        except Exception:
            self.fail()
Пример #9
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def run_experiment():
    experiment = Experiment("../results/")
    name = 'L2L-FUN-ES'
    trajectory_name = 'mirroring-and-fitness-shaping'
    traj, all_jube_params = experiment.prepare_experiment(
        name=name, trajectory_name=trajectory_name, log_stdout=True)

    ## Benchmark function
    function_id = 14
    bench_functs = BenchmarkedFunctions()
    (benchmark_name, benchmark_function), benchmark_parameters = \
        bench_functs.get_function_by_index(function_id, noise=True)

    optimizee_seed = 200

    ## Innerloop simulator
    optimizee = FunctionGeneratorOptimizee(traj,
                                           benchmark_function,
                                           seed=optimizee_seed)

    ## Outerloop optimizer initialization
    optimizer_seed = 1234
    parameters = EvolutionStrategiesParameters(learning_rate=0.1,
                                               noise_std=1.0,
                                               mirrored_sampling_enabled=True,
                                               fitness_shaping_enabled=True,
                                               pop_size=20,
                                               n_iteration=1000,
                                               stop_criterion=np.Inf,
                                               seed=optimizer_seed)

    optimizer = EvolutionStrategiesOptimizer(
        traj,
        optimizee_create_individual=optimizee.create_individual,
        optimizee_fitness_weights=(-1., ),
        parameters=parameters,
        optimizee_bounding_func=optimizee.bounding_func)

    # Run experiment
    experiment.run_experiment(optimizer=optimizer,
                              optimizee=optimizee,
                              optimizer_parameters=parameters)
    # End experiment
    experiment.end_experiment(optimizer)
Пример #10
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def main():
    name = 'L2L-FunctionGenerator-SA'
    experiment = Experiment("../results/")
    traj, all_jube_params = experiment.prepare_experiment(name=name,
                                                          log_stdout=True)

    ## Benchmark function
    function_id = 14
    bench_functs = BenchmarkedFunctions()
    (benchmark_name, benchmark_function), benchmark_parameters = \
        bench_functs.get_function_by_index(function_id, noise=True)

    optimizee_seed = 100
    random_state = np.random.RandomState(seed=optimizee_seed)
    function_tools.plot(benchmark_function, random_state)

    ## Innerloop simulator
    optimizee = FunctionGeneratorOptimizee(traj,
                                           benchmark_function,
                                           seed=optimizee_seed)

    ## Outerloop optimizer initialization
    parameters = SimulatedAnnealingParameters(
        n_parallel_runs=50,
        noisy_step=.03,
        temp_decay=.99,
        n_iteration=100,
        stop_criterion=np.Inf,
        seed=np.random.randint(1e5),
        cooling_schedule=AvailableCoolingSchedules.QUADRATIC_ADDAPTIVE)

    optimizer = SimulatedAnnealingOptimizer(
        traj,
        optimizee_create_individual=optimizee.create_individual,
        optimizee_fitness_weights=(-1, ),
        parameters=parameters,
        optimizee_bounding_func=optimizee.bounding_func)
    # Run experiment
    experiment.run_experiment(optimizer=optimizer,
                              optimizee=optimizee,
                              optimizer_parameters=parameters)
    # End experiment
    experiment.end_experiment(optimizer)
Пример #11
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def run_experiment():
    name = 'L2L-MNIST-CE'
    experiment = Experiment("../results/")
    traj, all_jube_params = experiment.prepare_experiment(name=name,
                                                          trajectory_name=name,
                                                          log_stdout=True)
    optimizee_seed = 200

    optimizee_parameters = MNISTOptimizeeParameters(n_hidden=10,
                                                    seed=optimizee_seed,
                                                    use_small_mnist=True)
    ## Innerloop simulator
    optimizee = MNISTOptimizee(traj, optimizee_parameters)

    ## Outerloop optimizer initialization
    optimizer_seed = 1234
    optimizer_parameters = CrossEntropyParameters(pop_size=40,
                                                  rho=0.9,
                                                  smoothing=0.0,
                                                  temp_decay=0,
                                                  n_iteration=5000,
                                                  distribution=NoisyGaussian(
                                                      noise_magnitude=1.,
                                                      noise_decay=0.99),
                                                  stop_criterion=np.inf,
                                                  seed=optimizer_seed)

    optimizer = CrossEntropyOptimizer(
        traj,
        optimizee_create_individual=optimizee.create_individual,
        optimizee_fitness_weights=(1., ),
        parameters=optimizer_parameters,
        optimizee_bounding_func=optimizee.bounding_func)

    # Run experiment
    experiment.run_experiment(optimizer=optimizer,
                              optimizee=optimizee,
                              optimizer_parameters=optimizer_parameters,
                              optimizee_parameters=optimizee_parameters)
    # End experiment
    experiment.end_experiment(optimizer)
Пример #12
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def main():
    name = 'L2L-FUN-GD'
    experiment = Experiment("../results")
    traj, all_jube_params = experiment.prepare_experiment(name=name,
                                                          trajectory_name=name)

    ## Benchmark function
    function_id = 4
    bench_functs = BenchmarkedFunctions()
    (benchmark_name, benchmark_function), benchmark_parameters = \
        bench_functs.get_function_by_index(function_id, noise=True)

    optimizee_seed = 100
    random_state = np.random.RandomState(seed=optimizee_seed)

    ## Innerloop simulator
    optimizee = FunctionGeneratorOptimizee(traj, benchmark_function,
                                           seed=optimizee_seed)

    ## Outerloop optimizer initialization
    # parameters = ClassicGDParameters(learning_rate=0.01, exploration_step_size=0.01,
    #                                  n_random_steps=5, n_iteration=100,
    #                                  stop_criterion=np.Inf)
    # parameters = AdamParameters(learning_rate=0.01, exploration_step_size=0.01, n_random_steps=5, first_order_decay=0.8,
    #                             second_order_decay=0.8, n_iteration=100, stop_criterion=np.Inf)
    # parameters = StochasticGDParameters(learning_rate=0.01, stochastic_deviation=1, stochastic_decay=0.99,
    #                                     exploration_step_size=0.01, n_random_steps=5, n_iteration=100,
    #                                     stop_criterion=np.Inf)
    parameters = RMSPropParameters(learning_rate=0.01, exploration_step_size=0.01,
                                   n_random_steps=5, momentum_decay=0.5,
                                   n_iteration=100, stop_criterion=np.Inf, seed=99)

    optimizer = GradientDescentOptimizer(traj, optimizee_create_individual=optimizee.create_individual,
                                         optimizee_fitness_weights=(0.1,),
                                         parameters=parameters,
                                         optimizee_bounding_func=optimizee.bounding_func)

    experiment.run_experiment(optimizer=optimizer, optimizee=optimizee,
                              optimizer_parameters=parameters)

    experiment.end_experiment(optimizer)
Пример #13
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def main():
    experiment = Experiment(root_dir_path='../results')
    name = 'L2L-FUN-GA'
    traj, _ = experiment.prepare_experiment(name=name, log_stdout=True)

    ## Benchmark function
    function_id = 4
    bench_functs = BenchmarkedFunctions()
    (benchmark_name, benchmark_function), benchmark_parameters = \
        bench_functs.get_function_by_index(function_id, noise=True)

    optimizee_seed = 100
    random_state = np.random.RandomState(seed=optimizee_seed)
    function_tools.plot(benchmark_function, random_state)

    ## Innerloop simulator
    optimizee = FunctionGeneratorOptimizee(traj,
                                           benchmark_function,
                                           seed=optimizee_seed)

    ## Outerloop optimizer initialization
    parameters = GeneticAlgorithmParameters(seed=0,
                                            popsize=50,
                                            CXPB=0.5,
                                            MUTPB=0.3,
                                            NGEN=100,
                                            indpb=0.02,
                                            tournsize=15,
                                            matepar=0.5,
                                            mutpar=1)

    optimizer = GeneticAlgorithmOptimizer(
        traj,
        optimizee_create_individual=optimizee.create_individual,
        optimizee_fitness_weights=(-0.1, ),
        parameters=parameters)
    experiment.run_experiment(optimizer=optimizer,
                              optimizee=optimizee,
                              optimizee_parameters=parameters)
    experiment.end_experiment(optimizer)
Пример #14
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def run_experiment():
    name = 'L2L-MNIST-ES'
    trajectory_name = 'mirroring-and-fitness-shaping'
    experiment = Experiment("../results/")
    traj, all_jube_params = experiment.prepare_experiment(name=name,
                                                          trajectory_name=trajectory_name,
                                                          log_stdout=True)

    optimizee_seed = 200
    optimizee_parameters = MNISTOptimizeeParameters(n_hidden=10, seed=optimizee_seed, use_small_mnist=True)
    ## Innerloop simulator
    optimizee = MNISTOptimizee(traj, optimizee_parameters)

    ## Outerloop optimizer initialization
    optimizer_seed = 1234
    optimizer_parameters = EvolutionStrategiesParameters(
        learning_rate=0.1,
        noise_std=0.1,
        mirrored_sampling_enabled=True,
        fitness_shaping_enabled=True,
        pop_size=20,
        n_iteration=2000,
        stop_criterion=np.Inf,
        seed=optimizer_seed)

    optimizer = EvolutionStrategiesOptimizer(
        traj,
        optimizee_create_individual=optimizee.create_individual,
        optimizee_fitness_weights=(1.,),
        parameters=optimizer_parameters,
        optimizee_bounding_func=optimizee.bounding_func)

    # Run experiment
    experiment.run_experiment(optimizer=optimizer, optimizee=optimizee,
                              optimizer_parameters=optimizer_parameters,
                              optimizee_parameters=optimizee_parameters)
    # End experiment
    experiment.end_experiment(optimizer)
Пример #15
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def Fitting():
    baseOutPath = 'Data_Produced/DecoEtAl2020'

    # %%%%%%%%%%%%%%% Set General Model Parameters
    we = 2.1  # Global Coupling parameter, found in the DecoEtAl2018_Prepro_* file...
    J_fileName = baseOutPath+"/J_Balance_we2.1.mat"  # "Data_Produced/SC90/J_test_we{}.mat"
    balancedG = BalanceFIC.Balance_J9(we, C, False, J_fileName)
    balancedG['J'] = balancedG['J'].flatten()
    balancedG['we'] = balancedG['we']
    neuronalModel.setParms(balancedG)

    # distanceSettings = {'FC': (FC, False), 'swFCD': (swFCD, True), 'GBC': (GBC, False)}  #   'phFCD': (phFCD, True)
    distanceSettings = {'swFCD': (swFCD, True)}
    swFCD.windowSize = 80
    swFCD.windowStep = 18

    # J_fileNames = baseOutPath+"/J_Balance_we{}.mat"

    # step = 0.05
    # Alphas = np.arange(-0.6, 0+step, step)  # Range used in the original code for B
    # Betas = np.arange(0, 2+step, step)    # Range used in the original code for Z
    Alphas = np.arange(-0.6, 0+0.1, 0.1)  # reduced range for DEBUG only!!!
    Betas = np.arange(0, 2+0.2, 0.2)  # reduced range for DEBUG only!!!

    # grid = np.meshgrid(Alphas, Betas)
    # grid = np.round(grid[0],3), np.round(grid[1],3)
    # gridParms = [{'alpha': a, 'beta': b} for a,b in np.nditer(grid)]

    # Model Simulations
    # ------------------------------------------
    # Now, optimize all alpha (B), beta (Z) values: determine optimal (B,Z) to work with
    print("\n\n###################################################################")
    print("# Fitting (B,Z)")
    print("###################################################################\n")
    experiment = Experiment(root_dir_path='Data_Produced/L2L')
    name = 'L2L-DecoEtAl2020-Prepro'
    traj, _ = experiment.prepare_experiment(name=name, log_stdout=True, multiprocessing=False)

    # Setup the WhileBrain optimizee
    WBOptimizee.neuronalModel = neuronalModel
    WBOptimizee.integrator = integrator
    WBOptimizee.simulateBOLD = simulateBOLD
    distanceSettings = {'swFCD': (swFCD, True)}  # We need to overwrite this, as L2L only works with ONE observable at a time.
    WBOptimizee.measure = distanceSettings['swFCD'][0]  # Measure to use to compute the error
    WBOptimizee.applyFilters = distanceSettings['swFCD'][1]  # Whether to apply filters to the resulting signal or not
    outEmpFileName = baseOutPath + '/fNeuro_emp_L2L.mat'
    WBOptimizee.processedEmp = processEmpiricalSubjects(tc_transf,
                                                        distanceSettings,
                                                        outEmpFileName)['swFCD']  # reference values (e.g., empirical) to compare to.
    WBOptimizee.N = N  # Number of regions in the parcellation
    WBOptimizee.trials = NumTrials  # Number of trials to try
    optimizee_parameters = namedtuple('OptimizeeParameters', [])

    filePattern = baseOutPath + '/fitting_{}_L2L.mat'
    optimizee = WBOptimizee.WholeBrainOptimizee(traj, {'alpha': (-0.6, 0), 'beta': (0., 2.)}, outFilenamePattern=filePattern)  #setupFunc=setupFunc,

    # =================== Test for debug only
    # traj.individual = sdict(optimizee.create_individual())
    # testing_error = optimizee.simulate(traj)
    # print("Testing error is %s", testing_error)
    # =================== end Test

    # Setup the GridSearchOptimizer
    optimizer_parameters = GridSearchParameters(param_grid={
        'alpha': (-0.6, 0., 6),
        'beta': (0., 2., 10)
    })
    optimizer = GridSearchOptimizer(traj,
                                    optimizee_create_individual=optimizee.create_individual,
                                    optimizee_fitness_weights=(-1.,),  # minimize!
                                    parameters=optimizer_parameters)

    experiment.run_experiment(optimizee=optimizee,
                              optimizee_parameters=optimizee_parameters,
                              optimizer=optimizer,
                              optimizer_parameters=optimizer_parameters)
    experiment.end_experiment(optimizer)
    print(f"best: alpha={experiment.optimizer.best_individual['alpha']} & beta={experiment.optimizer.best_individual['beta']}")

    # fitting = optim1D.distanceForAll_Parms(tc_transf, grid, gridParms, NumSimSubjects=NumTrials,
    #                                        distanceSettings=distanceSettings,
    #                                        parmLabel='BZ',
    #                                        outFilePath=baseOutPath)
    #
    # optimal = {sd: distanceSettings[sd][0].findMinMax(fitting[sd]) for sd in distanceSettings}
    # ------------------------------------------
    # ------------------------------------------

    filePath = baseOutPath+'/DecoEtAl2020_fittingBZ.mat'
    # sio.savemat(filePath, #{'JI': JI})
    #             {'Alphas': Alphas,
    #              'Betas': Betas,
    #              'swFCDfitt': fitting['swFCD'],  # swFCDfitt,
    #              'FCfitt': fitting['FC'],  # FCfitt,
    #              'GBCfitt': fitting['GBC'],  # GBCfitt
    #             })
    print(f"DONE!!! (file: {filePath})")
Пример #16
0
import arbor as arb
import numpy as np
from random import randrange as rand
import sys
from os.path import abspath as expand

from l2l.utils.experiment import Experiment
from l2l.optimizers.evolution import GeneticAlgorithmOptimizer, GeneticAlgorithmParameters
from l2l.optimizees.arbor.SC import ArbSCOptimizee

fit, swc, ref = list(map(expand, sys.argv[1:]))
name = 'ARBOR-FUN'
results_folder = '../results'
trajectory_name = 'ARBOR'
experiment = Experiment(results_folder)
traj, _ = experiment.prepare_experiment(
    trajectory_name=trajectory_name,
    name=name,
    jube_parameter={"exec": "srun -n 1 -c 8 --exclusive python"})
# Innerloop simulator
optimizee = ArbSCOptimizee(traj, fit, swc, ref)
# Outerloop optimizer initialization
parameters = GeneticAlgorithmParameters(seed=0,
                                        popsize=100,
                                        CXPB=0.5,
                                        MUTPB=0.3,
                                        NGEN=10,
                                        indpb=0.02,
                                        tournsize=100,
                                        matepar=0.5,
                                        mutpar=1)
Пример #17
0
def prepro():
    # Make the neuronal model to work as the DMF model
    # neuronalModel.alpha = 0.
    # neuronalModel.beta = 0.

    # distanceSettings = {'FC': (FC, False), 'swFCD': (swFCD, True), 'GBC': (GBC, False)}  #   'phFCD': (phFCD, True)
    distanceSettings = {'swFCD': (swFCD, True)}
    swFCD.windowSize = 80
    swFCD.windowStep = 18

    # baseGOptimNames = baseOutPath+"/fitting_we{}.mat"

    # step = 0.001
    # WEs = np.arange(0, 3.+step, step)  # Range used in the original code
    # WEs = np.arange(0, 3.+step, 0.05)  # reduced range for DEBUG only!!!

    # Model Simulations
    # ------------------------------------------
    BalanceFIC.verbose = True
    # balancedParms = BalanceFIC.Balance_AllJ9(C, WEs, baseName=J_fileNames)
    # modelParms = [balancedParms[i] for i in balancedParms]

    # Now, optimize all we (G) values: determine optimal G to work with
    print(
        "\n\n###################################################################"
    )
    print("# Compute optimization with L2L")
    print(
        "###################################################################\n"
    )
    experiment = Experiment(root_dir_path='Data_Produced/L2L')
    name = 'L2L-DecoEtAl2020-Prepro'
    traj, _ = experiment.prepare_experiment(name=name,
                                            log_stdout=True,
                                            multiprocessing=False)

    # Setup the WhileBrain optimizee
    WBOptimizee.neuronalModel = neuronalModel
    WBOptimizee.integrator = integrator
    WBOptimizee.simulateBOLD = simulateBOLD
    WBOptimizee.measure = distanceSettings['swFCD'][
        0]  # Measure to use to compute the error
    WBOptimizee.applyFilters = distanceSettings['swFCD'][
        1]  # Whether to apply filters to the resulting signal or not
    outEmpFileName = baseOutPath + '/fNeuro_emp_L2L.mat'
    WBOptimizee.processedEmp = processEmpiricalSubjects(
        tc_transf, distanceSettings, outEmpFileName)[
            'swFCD']  # reference values (e.g., empirical) to compare to.
    WBOptimizee.N = N  # Number of regions in the parcellation
    WBOptimizee.trials = NumTrials  # Number of trials to try
    optimizee_parameters = namedtuple('OptimizeeParameters', [])

    filePattern = baseOutPath + '/fitting_{}_L2L.mat'
    optimizee = WBOptimizee.WholeBrainOptimizee(traj, {'we': (0., 3.)},
                                                setupFunc=setupFunc,
                                                outFilenamePattern=filePattern)

    # =================== Test for debug only
    # traj.individual = sdict(optimizee.create_individual())
    # testing_error = optimizee.simulate(traj)
    # print("Testing error is %s", testing_error)
    # =================== end Test

    # Setup the GridSearchOptimizer
    n_grid_divs_per_axis = 60  # 0.05
    optimizer_parameters = GridSearchParameters(
        param_grid={'we': (0., 3., n_grid_divs_per_axis)})
    optimizer = GridSearchOptimizer(
        traj,
        optimizee_create_individual=optimizee.create_individual,
        optimizee_fitness_weights=(-1., ),  # minimize!
        parameters=optimizer_parameters)

    experiment.run_experiment(optimizee=optimizee,
                              optimizee_parameters=optimizee_parameters,
                              optimizer=optimizer,
                              optimizer_parameters=optimizer_parameters)
    experiment.end_experiment(optimizer)
    print(f"best: {experiment.optimizer.best_individual['we']}")
    # fitting = parmSweep.distanceForAll_Parms(tc_transf, WEs, modelParms, NumSimSubjects=NumTrials,
    #                                          distanceSettings=distanceSettings,
    #                                          parmLabel='we',
    #                                          outFilePath=baseOutPath)

    # optimal = {sd: distanceSettings[sd][0].findMinMax(fitting[sd]) for sd in distanceSettings}
    # ------------------------------------------
    # ------------------------------------------

    filePath = baseOutPath + '/DecoEtAl2020_fneuro-L2L.mat'
    # sio.savemat(filePath, #{'JI': JI})
    #             {'we': WEs,
    #              'swFCDfitt': fitting['swFCD'],  # swFCDfitt,
    #              'FCfitt': fitting['FC'],  # FCfitt,
    #              'GBCfitt': fitting['GBC'],  # GBCfitt
    #             })
    # print(f"DONE!!! (file: {filePath})")
    plotTrajectory1D(optimizer.param_list['we'],
                     [v for (i, v) in traj.current_results])
    print("DONE!!!")
Пример #18
0
def main():
    experiment = Experiment(root_dir_path='Data_Produced/L2L')
    # name = 'L2L-FUN-GA'
    name = 'L2L-FUN-GS'
    traj, _ = experiment.prepare_experiment(name=name,
                                            log_stdout=True,
                                            multiprocessing=False)

    # ---------------------------------------------------------------------------------------------------------
    # Benchmark function
    """
    Ackley function has a large hole in at the centre surrounded by small hill like regions. Algorithms can get
    trapped in one of its many local minima.
    reference: https://www.sfu.ca/~ssurjano/ackley.html
    :param dims: dimensionality of the function
    Note: uses the recommended variable values, which are: a = 20, b = 0.2 and c = 2π.
    """
    function_id = 4  # Select Ackley2d
    bench_functs = BenchmarkedFunctions()
    (benchmark_name, benchmark_function), benchmark_parameters = \
        bench_functs.get_function_by_index(function_id, noise=True)
    # ---------------------------------------------------------------------------------------------------------

    optimizee_seed = 100
    random_state = np.random.RandomState(seed=optimizee_seed)
    # function_tools.plot(benchmark_function, random_state)

    ## Innerloop simulator
    optimizee = FunctionGeneratorOptimizee(traj,
                                           benchmark_function,
                                           seed=optimizee_seed)

    ## Outerloop optimizer initialization
    # parameters = GeneticAlgorithmParameters(seed=0, pop_size=50, cx_prob=0.5,
    #                                         mut_prob=0.3, n_iteration=100,
    #                                         ind_prob=0.02,
    #                                         tourn_size=15, mate_par=0.5,
    #                                         mut_par=1
    #                                         )
    #
    # optimizer = GeneticAlgorithmOptimizer(traj, optimizee_create_individual=optimizee.create_individual,
    #                                       optimizee_fitness_weights=(-0.1,),
    #                                       parameters=parameters)

    # Setup the GridSearchOptimizer
    n_grid_divs_per_axis = 30
    parameters = GridSearchParameters(param_grid={
        'coords': (optimizee.bound[0], optimizee.bound[1],
                   n_grid_divs_per_axis)
    })
    optimizer = GridSearchOptimizer(
        traj,
        optimizee_create_individual=optimizee.create_individual,
        optimizee_fitness_weights=(-0.1, ),  # minimize!
        parameters=parameters)

    ## Optimization!!!
    experiment.run_experiment(optimizer=optimizer,
                              optimizee=optimizee,
                              optimizee_parameters=parameters)
    experiment.end_experiment(optimizer)
    print(f"best: {experiment.optimizer.best_individual['coords']}")
Пример #19
0
class SetupTestCase(unittest.TestCase):
    def setUp(self):
        self.experiment = Experiment(root_dir_path='../../results')
        jube_params = {}
        try:
            self.trajectory, _ = self.experiment.prepare_experiment(
                name='test_trajectory',
                log_stdout=True,
                add_time=True,
                automatic_storing=True,
                jube_parameter=jube_params)
        except FileNotFoundError as fe:
            self.fail(
                "{} \n L2L is not well configured. Missing path file.".format(
                    fe))
        self.paths = self.experiment.paths

    def test_paths(self):
        self.assertIsNotNone(self.paths)
        self.assertIsNotNone(Paths.simulation_path)

    def test_environment_trajectory_setup(self):
        self.assertIsNotNone(self.trajectory.individual)

    def test_trajectory_parms_setup(self):
        self.trajectory.f_add_parameter_group("Test_params",
                                              "Contains Test parameters")
        self.trajectory.f_add_parameter_to_group("Test_params", "param1",
                                                 "value1")
        self.assertEqual("value1",
                         self.trajectory.Test_params.params["param1"])

    def test_juberunner_setup(self):
        self.experiment = Experiment(root_dir_path='../../results')
        self.trajectory, _ = self.experiment.prepare_experiment(
            name='test_trajectory',
            trajectory='test_trajectory',
            filename=".",
            file_title='{} data'.format('test_trajectory'),
            comment='{} data'.format('test_trajectory'),
            add_time=True,
            automatic_storing=True,
            log_stdout=False,
            jube_parameter={})
        self.trajectory.f_add_parameter_group("JUBE_params",
                                              "Contains JUBE parameters")
        self.trajectory.f_add_parameter_to_group(
            "JUBE_params", "exec", "python " + os.path.join(
                self.paths.simulation_path, "run_files/run_optimizee.py"))
        self.trajectory.f_add_parameter_to_group("JUBE_params", "paths",
                                                 self.paths)

        ## Benchmark function
        function_id = 14
        bench_functs = BenchmarkedFunctions()
        (benchmark_name, benchmark_function), benchmark_parameters = \
            bench_functs.get_function_by_index(function_id, noise=True)

        optimizee_seed = 1
        optimizee = FunctionGeneratorOptimizee(self.trajectory,
                                               benchmark_function,
                                               seed=optimizee_seed)

        jube.prepare_optimizee(optimizee, self.paths.root_dir_path)

        fname = os.path.join(self.paths.root_dir_path, "optimizee.bin")

        try:
            f = open(fname, "r")
            f.close()
        except Exception:
            self.fail()