I am training Deep Convolutional Neural Network on AWS GPU Machine. Dataset -> Google SVHN Training Size -> 200,000+

I get Loss = 'nan' and W = '-inf'

### Even with 0 Learning Rate

```
Loss at step 0: 14.024256
Minibatch accuracy: 5.8%
Learning rate : 0.0
W : [ 0.1968164 0.19992708 0.19999388 0.19999997]
b : [ 0.1 0.1 0.1 0.1]
Loss at step 52: 14.553226
Minibatch accuracy: 5.9%
Learning rate : 0.0
W : [ 0.19496706 0.19928116 0.19977403 0.1999999 ]
b : [ 0.1 0.1 0.1 0.1]
# STEP 53 ---> LOSS : NAN, ALL WEIGHTS STILL OKAY
Loss at step 53: nan
Minibatch accuracy: 6.4%
Learning rate : 0.0
W : [ 0.19496706 0.19928116 0.19977403 0.1999999 ]
b : [ 0.1 0.1 0.1 0.1]
# STEP 54 ---> LOSS : NAN, WEIGHTS START GOINT TO -INF
Loss at step 54: nan
Minibatch accuracy: 49.2%
Learning rate : 0.0
W : [ -inf -inf 0.19694112 -inf]
b : [-inf -inf 0.1 -inf]
# STEP 54 ---> LOSS : NAN, W & B -INF
Loss at step 55: nan
Minibatch accuracy: 46.9%
Learning rate : 0.0
W : [-inf -inf -inf -inf]
b : [-inf -inf -inf -inf]
```

I have tried following techniques:

- Used Several Different Optimisers (Adam, SGD, etc)
- Used different Activation functions on last layer (ReLU, Sigmoid, tanH)
- Initialized Weights and biases in different ways
- Tried Different Learning rates and rate-decays (from 0.001 to 0.0001)
- I thought there might be an error in my dataset, so removed first 10000 entries. Didn't work

None of these things seemed to work for me. I am still getting 'nan' loss after 1500 steps.

My Code :

### Weight Initalization

```
W1 = tf.Variable(tf.truncated_normal([6, 6, 1, K], stddev=0.1))
B1 = tf.Variable(tf.constant(0.1, tf.float32, [K]))
# Similarly W2, B2, W3, B3, W4 and B4
W5_1 = tf.Variable(tf.truncated_normal([N, 11], stddev=0.1))
B5_1 = tf.Variable(tf.constant(0.1, tf.float32, [11]))
# Similarly W5_2, B5_2, W5_3, B5_3, W5_4, B5_4, W5_5, B5_5,
# Model
Y1 = tf.nn.relu(tf.nn.conv2d(X, W1, strides=[1, 1, 1, 1], padding='SAME') + B1)
# Similarly Y2 and Y3 with stride 2
shape = Y3.get_shape().as_list()
YY = tf.reshape(Y3, shape=[-1, shape[1] * shape[2] * shape[3]])
Y4 = tf.sigmoid(tf.matmul(YY, W4) + B4)
YY4 = tf.nn.dropout(Y4, pkeep)
Ylogits_1 = tf.matmul(YY4, W5_1) + B5_1
# Ylogits_2,3,4,5
Y_1 = tf.nn.softmax(Ylogits_1)
# Y_2,3,4,5
```

### Loss

```
cross_entropy = tf.reduce_mean(tf.nn.sparse_softmax_cross_entropy_with_logits(Ylogits_1, Y_[:,1])) +\
# ....... (Ylogits_5, Y_[:,5]))
train_prediction = tf.pack([Y_1, Y_2, Y_3, Y_4, Y_5])
train_step = tf.train.AdamOptimizer(alpha).minimize(cross_entropy)
W_s = tf.pack([tf.reduce_max(tf.abs(W1)),tf.reduce_max(tf.abs(W2)),tf.reduce_max(tf.abs(W3)),tf.reduce_max(tf.abs(W4))])
b_s = tf.pack([tf.reduce_max(tf.abs(B1)),tf.reduce_max(tf.abs(B2)),tf.reduce_max(tf.abs(B3)),tf.reduce_max(tf.abs(B4))])
model_saver = tf.train.Saver()
```

### Tensorflow Session

```
for step in range(num_steps):
# I have set the Learning Rate = 0
learning_rate = 0
batch_data = train_data[step*batch_size:(step + 1)*batch_size, :, :, :]
batch_labels = label_data[step*batch_size:(step + 1)*batch_size, :]
feed_dict = {X : batch_data, Y_ : batch_labels, pkeep : 0.80, alpha : learning_rate}
_, l, train_pred, W, b = session.run([train_step, cross_entropy, train_prediction, W_s, b_s], feed_dict=feed_dict)
if (step % 20 == 0):
print('Loss at step %d: %f' % (step, l))
print('Minibatch accuracy: %.1f%%' % acc(train_pred, batch_labels[:,1:6]))
print('Learning rate : ', learning_rate)
print('W : ', W)
print('b : ', b)
print(' ')
```

### Since No learning takes place if Learning Rate is 0, How can loss and weights change and ho to nan and -inf.

Any Help is appreciated.