– 반복 신경망 클래스 구현
하나. init() 메서드 변경
import tensorflow as tf
def __init__(self, n_cells=10, batch_size=32, learning_rate=0.1):
self.n_cells = n_cells # 셀 개수
self.batch_size = batch_size # 배치 크기
self.w1h = None # 은닉 상태에 대한 가중치
self.w1x = None # 입력에 대한 가중치
self.b1 = None # 순환층의 절편
self.w2 = None # 출력층의 가중치
self.b2 = None # 출력층의 절편
self.h = None # 순환층의 활성화 출력
self.losses = () # 훈련 손실
self.val_losses = () # 검증 손실
self.lr = learning_rate # 학습률
2. 직교 행렬 방식으로 가중치 초기화
def init_weights(self, n_features, n_classes):
orth_init = tf.initializers.Orthogonal()
glorot_init = tf.initializers.GlorotUniform()
self.w1h = orth_init((self.n_cells, self.n_cells)).numpy() # (셀 개수, 셀 개수)
self.w1x = glorot_init((n_features, self.n_cells)).numpy() # (특성 개수, 셀 개수)
self.b1 = np.zeros(self.n_cells) # 은닉층의 크기
self.w2 = glorot_init((self.n_cells, n_classes)).numpy() # (셀 개수, 클래스 개수)
self.b2 = np.zeros(n_classes)
3. 전방 계산의 구현
def forpass(self, x):
self.h = (np.zeros((x.shape(0), self.n_cells))) # 은닉 상태를 초기화합니다.
# 배치 차원과 타임 스텝 차원을 바꿉니다.
seq = np.swapaxes(x, 0, 1)
# 순환 층의 선형 식을 계산합니다.
for x in seq:
z1 = np.dot(x, self.w1x) + np.dot(self.h(-1), self.w1h) + self.b1
h = np.tanh(z1) # 활성화 함수를 적용합니다.
self.h.append(h) # 역전파를 위해 은닉 상태 저장합니다.
z2 = np.dot(h, self.w2) + self.b2 # 출력층의 선형 식을 계산합니다.
return z2
4. NumPy의 swapaxes() 함수를 사용하여 입력의 첫 번째 배치 차원과 두 번째 시간 단계 차원을 변경합니다.
5. 각 샘플의 모든 시간 단계에 대해 정방향 계산 수행
6. 역산 계산 구현
def backprop(self, x, err):
m = len(x) # 샘플 개수
# 출력층의 가중치와 절편에 대한 그래디언트를 계산합니다.
w2_grad = np.dot(self.h(-1).T, err) / m
b2_grad = np.sum(err) / m
# 배치 차원과 타임 스텝 차원을 바꿉니다.
seq = np.swapaxes(x, 0, 1)
w1h_grad = w1x_grad = b1_grad = 0
# 셀 직전까지 그래디언트를 계산합니다.
err_to_cell = np.dot(err, self.w2.T) * (1 - self.h(-1) ** 2)
# 모든 타임 스텝을 거슬러가면서 그래디언트를 전파합니다.
for x, h in zip(seq(::-1)(:10), self.h(:-1)(::-1)(:10)):
w1h_grad += np.dot(h.T, err_to_cell)
w1x_grad += np.dot(x.T, err_to_cell)
b1_grad += np.sum(err_to_cell, axis=0)
# 이전 타임 스텝의 셀 직전까지 그래디언트를 계산합니다.
err_to_cell = np.dot(err_to_cell, self.w1h) * (1 - h ** 2)
w1h_grad /= m
w1x_grad /= m
b1_grad /= m
return w1h_grad, w1x_grad, b1_grad, w2_grad, b2_grad
7. 나머지 메서드 수정
※ 완전한 코드
class RecurrentNetwork:
def __init__(self, n_cells=10, batch_size=32, learning_rate=0.1):
self.n_cells = n_cells # 셀 개수
self.batch_size = batch_size # 배치 크기
self.w1h = None # 은닉 상태에 대한 가중치
self.w1x = None # 입력에 대한 가중치
self.b1 = None # 순환층의 절편
self.w2 = None # 출력층의 가중치
self.b2 = None # 출력층의 절편
self.h = None # 순환층의 활성화 출력
self.losses = () # 훈련 손실
self.val_losses = () # 검증 손실
self.lr = learning_rate # 학습률
def forpass(self, x):
self.h = (np.zeros((x.shape(0), self.n_cells))) # 은닉 상태를 초기화합니다.
# 배치 차원과 타임 스텝 차원을 바꿉니다.
seq = np.swapaxes(x, 0, 1)
# 순환 층의 선형 식을 계산합니다.
for x in seq:
z1 = np.dot(x, self.w1x) + np.dot(self.h(-1), self.w1h) + self.b1
h = np.tanh(z1) # 활성화 함수를 적용합니다.
self.h.append(h) # 역전파를 위해 은닉 상태 저장합니다.
z2 = np.dot(h, self.w2) + self.b2 # 출력층의 선형 식을 계산합니다.
return z2
def backprop(self, x, err):
m = len(x) # 샘플 개수
# 출력층의 가중치와 절편에 대한 그래디언트를 계산합니다.
w2_grad = np.dot(self.h(-1).T, err) / m
b2_grad = np.sum(err) / m
# 배치 차원과 타임 스텝 차원을 바꿉니다.
seq = np.swapaxes(x, 0, 1)
w1h_grad = w1x_grad = b1_grad = 0
# 셀 직전까지 그래디언트를 계산합니다.
err_to_cell = np.dot(err, self.w2.T) * (1 - self.h(-1) ** 2)
# 모든 타임 스텝을 거슬러가면서 그래디언트를 전파합니다.
for x, h in zip(seq(::-1)(:10), self.h(:-1)(::-1)(:10)):
w1h_grad += np.dot(h.T, err_to_cell)
w1x_grad += np.dot(x.T, err_to_cell)
b1_grad += np.sum(err_to_cell, axis=0)
# 이전 타임 스텝의 셀 직전까지 그래디언트를 계산합니다.
err_to_cell = np.dot(err_to_cell, self.w1h) * (1 - h ** 2)
w1h_grad /= m
w1x_grad /= m
b1_grad /= m
return w1h_grad, w1x_grad, b1_grad, w2_grad, b2_grad
def sigmoid(self, z):
z = np.clip(z, -100, None) # 안전한 np.exp() 계산을 위해
a = 1 / (1 + np.exp(-z)) # 시그모이드 계산
return a
def init_weights(self, n_features, n_classes):
orth_init = tf.initializers.Orthogonal()
glorot_init = tf.initializers.GlorotUniform()
self.w1h = orth_init((self.n_cells, self.n_cells)).numpy() # (셀 개수, 셀 개수)
self.w1x = glorot_init((n_features, self.n_cells)).numpy() # (특성 개수, 셀 개수)
self.b1 = np.zeros(self.n_cells) # 은닉층의 크기
self.w2 = glorot_init((self.n_cells, n_classes)).numpy() # (셀 개수, 클래스 개수)
self.b2 = np.zeros(n_classes)
def fit(self, x, y, epochs=100, x_val=None, y_val=None):
y = y.reshape(-1, 1)
y_val = y_val.reshape(-1, 1)
np.random.seed(42)
self.init_weights(x.shape(2), y.shape(1)) # 은닉층과 출력층의 가중치를 초기화합니다.
# epochs만큼 반복합니다.
for i in range(epochs):
print('에포크', i, end=' ')
# 제너레이터 함수에서 반환한 미니배치를 순환합니다.
batch_losses = ()
for x_batch, y_batch in self.gen_batch(x, y):
print('.', end='')
a = self.training(x_batch, y_batch)
# 안전한 로그 계산을 위해 클리핑합니다.
a = np.clip(a, 1e-10, 1-1e-10)
# 로그 손실과 규제 손실을 더하여 리스트에 추가합니다.
loss = np.mean(-(y_batch*np.log(a) + (1-y_batch)*np.log(1-a)))
batch_losses.append(loss)
print()
self.losses.append(np.mean(batch_losses))
# 검증 세트에 대한 손실을 계산합니다.
self.update_val_loss(x_val, y_val)
# 미니배치 제너레이터 함수
def gen_batch(self, x, y):
length = len(x)
bins = length // self.batch_size # 미니배치 횟수
if length % self.batch_size:
bins += 1 # 나누어 떨어지지 않을 때
indexes = np.random.permutation(np.arange(len(x))) # 인덱스를 섞습니다.
x = x(indexes)
y = y(indexes)
for i in range(bins):
start = self.batch_size * i
end = self.batch_size * (i + 1)
yield x(start:end), y(start:end) # batch_size만큼 슬라이싱하여 반환합니다.
def training(self, x, y):
m = len(x) # 샘플 개수를 저장합니다.
z = self.forpass(x) # 정방향 계산을 수행합니다.
a = self.sigmoid(z) # 활성화 함수를 적용합니다.
err = -(y - a) # 오차를 계산합니다.
# 오차를 역전파하여 그래디언트를 계산합니다.
w1h_grad, w1x_grad, b1_grad, w2_grad, b2_grad = self.backprop(x, err)
# 셀의 가중치와 절편을 업데이트합니다.
self.w1h -= self.lr * w1h_grad
self.w1x -= self.lr * w1x_grad
self.b1 -= self.lr * b1_grad
# 출력층의 가중치와 절편을 업데이트합니다.
self.w2 -= self.lr * w2_grad
self.b2 -= self.lr * b2_grad
return a
def predict(self, x):
z = self.forpass(x) # 정방향 계산을 수행합니다.
return z > 0 # 스텝 함수를 적용합니다.
def score(self, x, y):
# 예측과 타깃 열 벡터를 비교하여 True의 비율을 반환합니다.
return np.mean(self.predict(x) == y.reshape(-1, 1))
def update_val_loss(self, x_val, y_val):
z = self.forpass(x_val) # 정방향 계산을 수행합니다.
a = self.sigmoid(z) # 활성화 함수를 적용합니다.
a = np.clip(a, 1e-10, 1-1e-10) # 출력 값을 클리핑합니다.
val_loss = np.mean(-(y_val*np.log(a) + (1-y_val)*np.log(1-a)))
self.val_losses.append(val_loss)
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– 반복 신경망 모델 학습
1. 반복 신경망 모델 훈련(셀 수 32, 배치 크기 32, 학습률 0.01, 에포크 수 20)
rn = RecurrentNetwork(n_cells=32, batch_size=32, learning_rate=0.01)
rn.fit(x_train_onehot, y_train, epochs=20, x_val=x_val_onehot, y_val=y_val)
##
/usr/local/lib/python3.8/dist-packages/keras/initializers/initializers_v2.py:120: UserWarning: The initializer GlorotUniform is unseeded and being called multiple times, which will return identical values each time (even if the initializer is unseeded). Please update your code to provide a seed to the initializer, or avoid using the same initalizer instance more than once.
warnings.warn(
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2. 교육 및 검증 세트에 대한 손실 플롯 그리기
import matplotlib.pyplot as plt
plt.plot(rn.losses)
plt.plot(rn.val_losses)
plt.show()
3. 유효성 검사 세트의 정확도 평가
rn.score(x_val_onehot, y_val)
##출력: 0.6948
※ 내용