Exemplos de Model2.Model em Python

Linguagem de programação: Python

Classe / Tipo: Model2

Método / Função: Model

Exemplos em hotexamples.com: 2

Model2.Model em Python - 2 exemplos encontrados. Esses são os exemplos do mundo real mais bem avaliados de Model2.Model do pacote DLSRL em Python extraídos de projetos de código aberto. Você pode avaliar os exemplos para nos ajudar a melhorar a qualidade deles.

Métodos Frequentes

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ESPNet(2)

ESPNet_Encoder(2)

LinearRegressionModel(2)

Model(2)

ML_Model1(1)

Model2(1)

Normal_Model(1)

Solve(1)

build(1)

getMove(1)

globalsInit(1)

restartTask(1)

setPrevGoalStateTheta(1)

Métodos Frequentes

ESPNet (2)

ESPNet_Encoder (2)

LinearRegressionModel (2)

Model (2)

ML_Model1 (1)

Model2 (1)

Normal_Model (1)

Solve (1)

build (1)

getMove (1)

Métodos Frequentes

globalsInit (1)

restartTask (1)

setPrevGoalStateTheta (1)

Exemplo n.º 1

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Arquivo: trainer2.py Projeto: emxly-21/cookies-of-fortune

with open('xtrain_gray.npy', mode="rb") as f: xtrain = np.load(f) with open('ytrain_gray.npy', mode="rb") as f: ytrain = np.load(f) idxs = np.arange(len(xtrain)) # -> array([0, 1, ..., 9999]) np.random.shuffle(idxs) x_train = [] y_train = [] for i in idxs: x_train.append(xtrain[i]) y_train.append(ytrain[i]) x_train = np.array(x_train) y_train = np.array(y_train) model = Model2.Model() lr = 0.01 mn = 0.9 wd = 5e-04 optimization = Adam(model.parameters, learning_rate=lr) batch_size = 1000 idxs = np.arange(len(xtrain)) # -> array([0, 1, ..., 9999]) np.random.shuffle(idxs) for batch_cnt in range(0, len(xtrain) // batch_size): batch_indices = idxs[batch_cnt * batch_size: (batch_cnt + 1) * batch_size] batch = xtrain[batch_indices] # random batch of our training data # compute the predictions for this batch by calling on model

Exemplo n.º 2

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def main(): try: global args global canvas global settings controller = None filemerge = None view = None model = None settings.initialize_prefs(canvas.max_colors()) # Only POSIX systems are supported at this point fileops = FileOpsPOSIX.FileOpsPOSIX() if len(args) == 2: left = args[0] right = args[1] left = os.path.realpath(left) right = os.path.realpath(right) # Instantiate the classes and link them together. model = Model2.Model(fileops, left, right) view = View2.View(canvas, model, settings) else: # len(args) == 3 left = args[0] middle = args[1] right = args[2] left = os.path.realpath(left) middle = os.path.realpath(middle) right = os.path.realpath(right) # Instantiate the classes and link them together. model = Model3.Model(fileops, left, middle, right) view = View3.View(canvas, model, settings) requested_filemerge = settings.get_value('file_merge_program') # print('file_merge_program:', requested_filemerge) if requested_filemerge == 'vim': filemerge = FileMergeVim.FileMergeVim() else: filemerge = FileMergeEmacs.FileMergeEmacs() controller = Controller.Controller(model, view, canvas, filemerge) # Start the model. It will enumerate and then start comparing. model.start_enumerate() # Main event loop while not controller.need_to_quit: if canvas.need_to_resize: view.resize() model.render_again = False view.render() if ((model.state() == Model2.STATE_NORMAL or model.state() == Model3.STATE_NORMAL) and not model.render_again and not canvas.need_to_resize): input = canvas.get_input(0) # wait indefinitely else: input = canvas.get_input(1) # timeout in 1/10 second controller.process_input(input) finally: # print("quitting") if controller is not None: controller.destroy() if filemerge is not None: filemerge.destroy() if view is not None: view.destroy() if model is not None: model.destroy()