I had the same problem when I realized I had to iterate over my validation data when the memory space cramped up and the OOM errors flooding.

As multiple of these answers say, the `tf.metrics`

have this built in, but I'm not using `tf.metrics`

in my project. So inspired by that, I made this:

```
import tensorflow as tf
import numpy as np
def batch_persistent_mean(tensor):
# Make a variable that keeps track of the sum
accumulator = tf.Variable(initial_value=tf.zeros_like(tensor), dtype=tf.float32)
# Keep count of batches in accumulator (needed to estimate mean)
batch_nums = tf.Variable(initial_value=tf.zeros_like(tensor), dtype=tf.float32)
# Make an operation for accumulating, increasing batch count
accumulate_op = tf.assign_add(accumulator, tensor)
step_batch = tf.assign_add(batch_nums, 1)
update_op = tf.group([step_batch, accumulate_op])
eps = 1e-5
output_tensor = accumulator / (tf.nn.relu(batch_nums - eps) + eps)
# In regards to the tf.nn.relu, it's a hacky zero_guard:
# if batch_nums are zero then return eps, else it'll be batch_nums
# Make an operation to reset
flush_op = tf.group([tf.assign(accumulator, 0), tf.assign(batch_nums, 0)])
return output_tensor, update_op, flush_op
# Make a variable that we want to accumulate
X = tf.Variable(0., dtype=tf.float32)
# Make our persistant mean operations
Xbar, upd, flush = batch_persistent_mean(X)
```

Now you send `Xbar`

to your summary e.g. `tf.scalar_summary("mean_of_x", Xbar)`

, and where you'd do `sess.run(X)`

before, you'll do `sess.run(upd)`

. And between epochs you'd do `sess.run(flush)`

.

## Testing behaviour:

```
### INSERT ABOVE CODE CHUNK IN S.O. ANSWER HERE ###
sess = tf.InteractiveSession()
with tf.Session() as sess:
sess.run([tf.global_variables_initializer(), tf.local_variables_initializer()])
# Calculate the mean of 1+2+...+20
for i in range(20):
sess.run(upd, {X: i})
print(sess.run(Xbar), "=", np.mean(np.arange(20)))
for i in range(40):
sess.run(upd, {X: i})
# Now Xbar is the mean of (1+2+...+20+1+2+...+40):
print(sess.run(Xbar), "=", np.mean(np.concatenate([np.arange(20), np.arange(40)])))
# Now flush it
sess.run(flush)
print("flushed. Xbar=", sess.run(Xbar))
for i in range(40):
sess.run(upd, {X: i})
print(sess.run(Xbar), "=", np.mean(np.arange(40)))
```