スパイダーでまわしているプログラムをGoogleColaboraturyで使おうと思ったのですが、エラーがでてしまいます。 import numpy as np import tensorflow as tf from tensorflow.keras.models import Sequential from keras.layers.core import Dense, Activation from keras.layers.recurrent import LSTM from tensorflow.keras.optimizers import Adam from sklearn.model_selection import train_test_split data = [] data1 = [] data2 = [] target = [] kairi = [] jyousyou = [] maxlen = 60 day1 = [] day2 = [] day3 = [] owarine = [] test_kairi_data = [] test_day = [] test_kairi = [] test_day2 = [] test_high = [] test_low = [] path_kawase = "/content/USDJPY_Candlestick_5_m_BID_01.01.2016-31.12.2018.txt" #デューカスからのデータをテキストにしたもの path_kairi = "/content/USDJPY_2016-2018_kairi.txt" #乖離率のデータ path_jyosyo = "/content/USDJPY_2016-2018_jyosyo.txt" #上昇度のデータ test_path = "/content/USDJPY_2019_kairi.txt" #乖離率のデータ test_price_path = "/content/USDJPY_Candlestick_5_m_BID_01.01.2019-31.12.2019.txt" #テスト用価格データのテキスト def normalization(a): b = [] for i in a: b.append((i-min(a))/(max(a)-min(a))) return b with open(test_price_path,"r",encoding="utf-8") as f: #テスト用価格データ next(f) for line in f: test_data = line.split(',') test_day2.append(str(test_data[0])) test_high.append(float(test_data[2])) test_low.append(float(test_data[3])) with open(test_path,"r",encoding="utf-8") as f: #テスト用乖離率のデータ next(f) for line in f: test_data2 = line.split(',') test_day.append(str(test_data2[0])) test_kairi.append(float(test_data2[1])) for i in range(0, len(test_kairi)-maxlen): test_kairi_data.append(normalization(test_kairi[i: i + maxlen])) Z = np.array(test_kairi_data).reshape(len(test_kairi_data), maxlen, 1) for line in open (path_kawase,"r",encoding="utf-8"): #デューカスコピーでダウンロードしたデータ data1 = line.split(',') day1.append(str(data1[0])) owarine.append (float(data1[4])) with open(path_kairi,"r",encoding="utf-8") as f: #乖離率のデータ next(f) for line in f: data2 = line.split(',') day2.append(str(data2[0])) kairi.append(float(data2[1])) with open(path_jyosyo,"r",encoding="utf-8") as f: #上昇度のデータ next(f) for line in f: data3 = line.split(',') day3.append(str(data3[0])) jyousyou.append(str(data3[1])) ''' 日付合わせ ''' for i in range(len(owarine)-1,0,-1): if(day1[i] == day3[-1]): del day1[i+1:len(day1)] del owarine[i+1:len(owarine)] break for i in range(len(kairi)-1,0,-1): if(day2[i] == day3[-1]): del day2[i+1:len(day2)] del kairi[i+1:len(kairi)] break if(len(day2) > len(day3)): for i in range(0,len(owarine)): if(day1[i] == day3[0]): del day1[0:i] del owarine[0:i] break for i in range(0,len(kairi)-1): if(day2[i] == day3[0]): del day2[0:i] del kairi[0:i] break else: for i in range(0,len(owarine)): if(day1[i] == day2[0]): del day1[0:i] del owarine[0:i] break for i in range(0,len(jyousyou)): if(day3[i] == day2[0]): del day3[0:i] del jyousyou[0:i] break` for i in range(0, len(kairi)-maxlen): data.append(normalization(kairi[i: i + maxlen])) target.append(jyousyou[i + maxlen]) X = np.array(data).reshape(len(data), maxlen, 1) Y = np.array(target).reshape(len(data), 1) N_train = int(len(data) * 0.9) N_validation = len(data) - N_train X_train, X_validation, Y_train, Y_validation = train_test_split(X, Y, test_size=N_validation,shuffle=False) for i in range(len(test_kairi)-1,0,-1): if(test_day[i] == test_day[-1]): del test_day[i+1:len(test_day)] del test_kairi[i+1:len(test_kairi)] break if(len(test_day) > len(test_day)): for i in range(0,len(kairi)-1): if(test_day[i] == test_day[0]): del test_day[0:i] del test_kairi[0:i] break else: for i in range(0,len(test_high)): if(day3[i] == test_day[0]): del test_day[0:i] del test_high[0:i] del test_low[0:i] break ''' モデル設定 ''' n_in = len(X[0][0]) n_hidden = 100 n_out = len(Y[0]) def weight_variable(shape, name=None): return np.random.normal(scale=.01, size=shape) model = Sequential() model.add(LSTM(n_hidden, kernel_initializer="random_uniform", input_shape=(maxlen, n_in))) model.add(Dense(n_hidden, kernel_initializer="random_uniform")) model.add(Activation('sigmoid')) model.add(Dense(n_out, kernel_initializer="random_uniform")) model.add(Activation('sigmoid')) optimizer = Adam(lr=0.001, beta_1=0.9, beta_2=0.999) model.compile(loss='mean_squared_error', optimizer=optimizer) ''' モデル学習 ''' epochs = 500 batch_size = 1000 model.fit(X_train, Y_train, batch_size=batch_size, epochs=epochs, validation_split = 0.25) ''' 学習はここまで ''' model.save("LSTM_model.h5") #モデルの保存 print("保存完了") これのmodel.fitの部分のようです。 エラーメッセージは以下です。 UnimplementedError Traceback (most recent call last) <ipython-input-19-41cd48e6f4fe> in <module>() 173 batch_size=batch_size, 174 epochs=epochs, --> 175 validation_split = 0.25) よろしくお願いいたします。