I have cost function in tensorflow.
activation = tf.add(tf.mul(X, W), b)
cost = (tf.pow(Y-y_model, 2)) # use sqr error for cost function
I am trying out this example. How can I change it to rmse cost function?
I have cost function in tensorflow.
activation = tf.add(tf.mul(X, W), b)
cost = (tf.pow(Y-y_model, 2)) # use sqr error for cost function
I am trying out this example. How can I change it to rmse cost function?
tf.sqrt(tf.reduce_mean(tf.square(tf.subtract(targets, outputs))))
And slightly simplified (TensorFlow overloads the most important operators):
tf.sqrt(tf.reduce_mean((targets - outputs)**2))
The formula for root mean square error is:
The way to implement it in TF is tf.sqrt(tf.reduce_mean(tf.squared_difference(Y1, Y2)))
.
The important thing to remember is that there is no need to minimize RMSE loss with the optimizer. With the same result you can minimize just tf.reduce_mean(tf.squared_difference(Y1, Y2))
or even tf.reduce_sum(tf.squared_difference(Y1, Y2))
but because they have a smaller graph of operations, they will be optimized faster.
But you can use this function if you just want to tract the value of RMSE.
(1) Are you sure you need this? Minimizing the l2 loss will give you the same result as minimizing the RMSE error. (Walk through the math: You don't need to take the square root, because minimizing x^2 still minimizes x for x>0, and you know that the sum of a bunch of squares is positive. Minimizing x*n minimizes x for constant n).
(2) If you need to know the numerical value of the RMSE error, then implement it directly from the definition of RMSE:
tf.sqrt(tf.reduce_sum(...)/n)
(You need to know or calculate n - the number of elements in the sum, and set the reduction axis appropriately in the call to reduce_sum).
tf.reduce_mean
is a better choice.
Now we have tf.losses.mean_squared_error
Therefore,
RMSE = tf.sqrt(tf.losses.mean_squared_error(label, prediction))
for who want to implement RMSE as a metric
rmse = tf.keras.metrics.RootMeanSquaredError()
exapmle of how to use it
model.compile(optimizer=optimizer, loss='mean_squared_error',
metrics=[rmse,'mae'])