def load_checkpoint(file_dir, i_epoch, layer_sizes, input_size, device='cuda'): checkpoint = torch.load(os.path.join(file_dir, "ckpt_eps%d.pt" % i_epoch), map_location=device) policy_net = PolicyNet(layer_sizes).to(device) policy_net.load_state_dict(checkpoint["policy_net"]) policy_net.train() value_net_in = ValueNet(input_size).to(device) value_net_in.load_state_dict(checkpoint["value_net_in"]) value_net_in.train() value_net_ex = ValueNet(input_size).to(device) value_net_ex.load_state_dict(checkpoint["value_net_ex"]) value_net_ex.train() valuenet_in_optim = optim.Adam(value_net_in.parameters()) valuenet_in_optim.load_state_dict(checkpoint["valuenet_in_optim"]) valuenet_ex_optim = optim.Adam(value_net_ex.parameters()) valuenet_ex_optim.load_state_dict(checkpoint["valuenet_ex_optim"]) # lpl_graph = checkpoint["lpl_graph"] simhash = checkpoint["simhash"] checkpoint.pop("policy_net") checkpoint.pop("value_net_in") checkpoint.pop("value_net_ex") checkpoint.pop("valuenet_in_optim") checkpoint.pop("valuenet_ex_optim") checkpoint.pop("i_epoch") return policy_net, value_net_in, value_net_ex, valuenet_in_optim, valuenet_ex_optim,\ simhash, checkpoint
def load_checkpoint(file_dir, i_epoch, layer_sizes, input_size, device='cuda'): checkpoint = torch.load(os.path.join(file_dir, "ckpt_eps%d.pt" % i_epoch), map_location=device) policy_net = PolicyNet(layer_sizes).to(device) value_net = ValueNet(input_size).to(device) policy_net.load_state_dict(checkpoint["policy_net"]) policy_net.train() value_net.load_state_dict(checkpoint["value_net"]) value_net.train() policy_lr = checkpoint["policy_lr"] valuenet_lr = checkpoint["valuenet_lr"] valuenet_optim = optim.Adam(value_net.parameters(), lr=valuenet_lr) valuenet_optim.load_state_dict(checkpoint["valuenet_optim"]) checkpoint.pop("policy_net") checkpoint.pop("value_net") checkpoint.pop("valuenet_optim") checkpoint.pop("i_epoch") checkpoint.pop("policy_lr") checkpoint.pop("valuenet_lr") return policy_net, value_net, valuenet_optim, checkpoint
# Turn on pyplot's interactive mode # VERY IMPORTANT because otherwise training stats plot will hault plt.ion() # Create OpenAI gym environment env = gym.make(env_name) if is_unwrapped: env = env.unwrapped # Get device device = torch.device('cuda' if torch.cuda.is_available() else 'cpu') print("Current usable device is: ", device) # Create the model. Two value net policy_net = PolicyNet(layer_sizes).to(device) # Policy network value_net_ex = ValueNet(input_size).to( device) # Value network for extrinsic reward value_net_in = ValueNet(input_size + 1 + output_size).to( device) # One additional input unit to indicate trajectory number # Set up optimizer valuenet_in_optimizer = optim.Adam(value_net_in.parameters()) valuenet_ex_optimizer = optim.Adam(value_net_ex.parameters()) # Set up memory memory = Memory(capacity, GAMMA, LAMBDA, device=device) # Define observation normalization function. Normalize state vector values to range [-1., 1.] def state_nomalize(s):
# Turn on pyplot's interactive mode # VERY IMPORTANT because otherwise training stats plot will hault plt.ion() # Create OpenAI gym environment env = gym.make(env_name) if is_unwrapped: env = env.unwrapped # Get device device = torch.device('cuda' if torch.cuda.is_available() else 'cpu') print("Current usable device is: ", device) # Create the model policy_net = PolicyNet(layer_sizes).to(device) # Policy network value_net = ValueNet(input_size).to(device) # Value network # Set up memory memory = Memory(capacity, GAMMA, LAMBDA, device) # Set up optimizer policynet_optimizer = optim.Adam(policy_net.parameters()) valuenet_optimizer = optim.Adam(value_net.parameters()) ################################################################### # Start training # Dictionary for extra training information to save to checkpoints training_info = { "epoch mean durations": [],