def main(args):
"""
Enter point for Sequential Compare Function. Compare DQTS and our algorithm.
:param args:
:return:
"""
config = parameter_setup(args, DEFAULT_CONFIG)
logger_nns, logger_dqts, logger_heft = setup_logger_all()
model = get_model(args)
reward_heft, end_time = heft(config['wfs_name'], config['nodes'])
for i in range(args.num_episodes):
logger_heft.log_scalar('main/reward', reward_heft, i)
args.state_size = 20
dqts_model = get_dqts_model(args)
print(dqts_model)
print(model)
dqts_reward = [
run_dqts_episode(dqts_model, ei, args, logger_dqts)
for ei in range(args.num_episodes)
]
reward = [
run_episode(model, ei, args, logger_nns)
for ei in range(args.num_episodes)
]
plot_heft_dqts_ours(args, reward_heft, dqts_reward, reward)
test(model, args)
dqts_test(dqts_model, args)
def run_dqts_episode(ei, logger, args):
URL = f"http://{args.host}:{args.port}/"
config = parameter_setup(args, DEFAULT_CONFIG)
test_wfs, test_times, test_scores, test_size = wf_setup(config['wfs_name'])
reward, sars_list = episode_dqts(ei, config, test_wfs, test_size, URL)
remember(sars_list, URL)
if logger is not None:
logger.log_scalar('main/reward', reward, ei)
return reward
def interective_test(model, args):
"""
Interective Test
:param model:
:param args:
:return:
"""
config = parameter_setup(args, DEFAULT_CONFIG)
test_wfs, test_times, test_scores, test_size = wf_setup(config['wfs_name'])
for i in range(test_size):
ttree, tdata, trun_times = test_wfs[i]
wfl = ctx.Context(config['agent_task'], config['nodes'], trun_times,
ttree, tdata)
sch = ScheduleInterectivePlotter(wfl.worst_time, wfl.m, wfl.n)
wfl.name = config['wfs_name'][i]
if config['actor_type'] == 'rnn':
deq = RNNDeque(seq_size=config['seq_size'],
size=config['state_size'])
done = wfl.completed
state = wfl.state
for time in range(wfl.n):
mask = wfl.get_mask()
q = model.act_q(state.reshape(1, state.shape[0]), mask, False)
q = np.squeeze(q, axis=0) if len(q.shape) > 1 else q
action_idx = np.argmax(q)
actions = [wfl.actions[action] for action in range(q.shape[-1])]
best_t, best_n = actions[action_idx]
copies_of_wfl = [deepcopy(wfl) for _ in range(len(actions))]
reward, wf_time = wfl.make_action(best_t, best_n)
next_state = wfl.state
acts = []
for idx, action in enumerate(actions):
wfl_copy = copies_of_wfl[idx]
t, n = action
if q[idx] != 0 or idx == action_idx:
reward, wf_time, item = wfl_copy.make_action_item(t, n)
acts.append((item, reward, n))
sch.draw_item(wfl.schedule, acts)
if config['actor_type'] == 'rnn':
deq.push(next_state)
next_state = deq.show()
done = wfl.completed
state = next_state
if done:
test_scores[i].append(reward)
test_times[i].append(wf_time)
write_schedule(args.run_name, i, wfl)
def run_dqts_episode(model, ei, args, logger=None):
"""
Run episode of Learning, Remember and Replay
:param model:
:param ei:
:param args:
:return:
"""
config = parameter_setup(args, DEFAULT_CONFIG)
test_wfs, test_times, test_scores, test_size = wf_setup(config['wfs_name'])
reward, sars_list = episode_dqts(model, ei, config, test_wfs, test_size)
remember(model, sars_list, args)
replay(model, config['batch_size'])
if logger is not None:
logger.log_scalar('main/reward', reward, ei)
return reward
def dqts_test(model, args):
"""
Create Schedule using current NN without learning parameters
:param model:
:param args:
:return:
"""
config = parameter_setup(args, DEFAULT_CONFIG)
test_wfs, test_times, test_scores, test_size = wf_setup(config['wfs_name'])
for i in range(test_size):
ttree, tdata, trun_times = test_wfs[i]
wfl = dqts_ctx.Context(config['agent_task'], config['nodes'],
trun_times, ttree, tdata)
wfl.name = config['wfs_name'][i]
if config['actor_type'] == 'rnn':
deq = RNNDeque(seq_size=config['seq_size'],
size=config['state_size'])
done = wfl.completed
state = wfl.state
if config['actor_type'] == 'rnn':
deq.push(state)
state = deq.show()
for time in range(wfl.n):
mask = wfl.get_mask()
action = model.act(state.reshape(1, state.shape[0]), mask, False)
act_t, act_n = wfl.actions[action]
reward, wf_time = wfl.make_action(act_t, act_n)
next_state = wfl.state
if config['actor_type'] == 'rnn':
deq.push(next_state)
next_state = deq.show()
done = wfl.completed
state = next_state
if done:
test_scores[i].append(reward)
test_times[i].append(wf_time)
write_schedule(args.run_name, i, wfl)
def do_heft(args, URL, logger):
config = parameter_setup(args, DEFAULT_CONFIG)
response = requests.post(f'{URL}heft',
json={
'wf_name': config['wfs_name'],
'nodes': config['nodes'].tolist()
}).json()
cur_dir = os.getcwd()
reward_path = pathlib.Path(
cur_dir
) / 'results' / f'{args.run_name}_{datetime.now().strftime("%d%b%y_%I%M%p")}_heft_reward.csv'
rewards = response['reward']
if args.logger:
for i in range(args.num_episodes):
logger.log_scalar('main/reward', rewards, i)
makespan = response['makespan']
rewards = np.array(rewards)
result = pd.DataFrame()
result['reward'] = rewards
result.to_csv(reward_path, sep=',', index=None, columns=['reward'])
print(f'Schedule makespan: {makespan}')
return response
dtype=tf.int32)
next_time_step = tf_env.step(action)
traj = trajectory.from_transition(time_step, action_step_act,
next_time_step)
# Add trajectory to the replay buffer
replay_buffer.add_batch(traj)
if traj.is_boundary():
episode_counter += 1
if __name__ == '__main__':
args = parser.parse_args()
config = parameter_setup(args, DEFAULT_CONFIG)
test_wfs, test_times, test_scores, test_size = wf_setup(config['wfs_name'])
ttree, tdata, trun_times = test_wfs[0]
real_env = Context(config['agent_task'], config['nodes'], trun_times,
ttree, tdata)
environment = tf_py_environment.TFPyEnvironment(real_env)
eval_real_env = Context(config['agent_task'], config['nodes'], trun_times,
ttree, tdata)
eval_environment = tf_py_environment.TFPyEnvironment(eval_real_env)
actor_net = actor_distribution_network.ActorDistributionNetwork(
environment.observation_spec(),
environment.action_spec(),
fc_layer_params=(200, 100))
