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Best Practices when training with PPO
The process of training a Reinforcement Learning model can often involve the need to tune the hyperparameters in order to achieve a level of performance that is desirable. This guide contains some best practices for tuning the training process when the default parameters don't seem to be giving the level of performance you would like.
Hyperparameters
Batch Size
batch_size corresponds to how many experiences are used for each gradient descent update. This should always be a fraction
of the buffer_size. If you are using a continuous action space, this value should be large. If you are using a discrete action space, this value should be smaller.
Typical Range (Continuous): 512 - 5120
Typical Range (Discrete): 32 - 512
Beta
beta corresponds to the strength of the entropy regularization. This ensures that discrete action space agents properly
explore during training. Increasing this will ensure more random actions are taken. This should be adjusted such that
the entropy (measurable from TensorBoard) slowly decreases alongside increases in reward. If entropy drops too quickly,
increase beta. If entropy drops too slowly, decrease beta.
Typical Range: 1e-4 - 1e-2
Buffer Size
buffer_size corresponds to how many experiences should be collected before gradient descent is performed on them all.
This should be a multiple of batch_size.
Typical Range: 2048 - 409600
Epsilon
epsilon corresponds to the acceptable threshold between the old and new policies during gradient descent updating.
Typical Range: 0.1 - 0.3
Hidden Units
hidden_units correspond to how many units are in each fully connected layer of the neural network. For simple problems
where the correct action is a straightforward combination of the state inputs, this should be small. For problems where
the action is a very complex interaction between the state variables, this should be larger.
Typical Range: 32 - 512
Learning Rate
learning_rate corresponds to the strength of each gradient descent update step. This should typically be decreased if
training is unstable, and the reward does not consistently increase.
Typical Range: 1e-5 - 1e-3
Number of Epochs
num_epoch is the number of passes through the experience buffer during gradient descent. The larger the batch size, the
larger it is acceptable to make this.
Typical Range: 3 - 10
Time Horizon
time_horizon corresponds to how many steps of experience to collect per-agent before adding it to the experience buffer.
In cases where there are frequent rewards within an episode, or episodes are prohibitively large, this can be a smaller number.
For most stable training however, this number should be large enough to capture all the important behavior within a sequence of
an agent's actions.
Typical Range: 64 - 2048
Training Statistics
To view training statistics, use Tensorboard. For information on launching and using Tensorboard, see here.
Cumulative Reward
The general trend in reward should consistently increase over time. Small ups and downs are to be expected.
Entropy
This corresponds to how random the decisions of a brain are. This should consistently decrease during training. If it decreases
too soon or not at all, beta should be adjusted (when using discrete action space).
Learning Rate
This will decrease over time on a linear schedule.
Policy Loss
These values will oscillate with training.
Value Estimate
These values should increase with the reward. They corresponds to how much future reward the agent predicts itself receiving at any given point.
Value Loss
These values will increase as the reward increases, and should decrease when reward becomes stable.