def get_client_setting(setting: str, cid: str) -> ClientSetting:
"""Return client setting based on setting name and cid."""
for client_setting in get_setting(setting).clients:
if client_setting.cid == cid:
return client_setting
raise ClientSettingNotFound()
def load_baseline_setting(baseline: str, setting: str) -> Baseline:
"""Return appropriate baseline setting."""
if baseline == "tf_cifar":
return tf_cifar_settings.get_setting(setting)
if baseline == "tf_fashion_mnist":
return tf_fashion_mnist_settings.get_setting(setting)
if baseline == "tf_hotkey":
return tf_hotkey_settings.get_setting(setting)
raise Exception("Setting not found.")
def main() -> None:
"""Start server and train a number of rounds."""
args = parse_args()
# Configure logger
configure(identifier="server", host=args.log_host)
server_setting = get_setting(args.setting).server
log(INFO, "server_setting: %s", server_setting)
# Load evaluation data
(_, _), (x_test, y_test) = tf_fashion_mnist_partitioned.load_data(
iid_fraction=0.0, num_partitions=1
)
if server_setting.dry_run:
x_test = x_test[0:50]
y_test = y_test[0:50]
# Load model (for centralized evaluation)
model = orig_cnn(input_shape=(28, 28, 1), seed=SEED)
# Create client_manager
client_manager = fl.SimpleClientManager()
# Strategy
eval_fn = get_eval_fn(model=model, num_classes=10, xy_test=(x_test, y_test))
on_fit_config_fn = get_on_fit_config_fn(
lr_initial=server_setting.lr_initial,
timeout=server_setting.training_round_timeout,
partial_updates=server_setting.partial_updates,
)
if server_setting.strategy == "fedavg":
strategy = fl.strategy.FedAvg(
fraction_fit=server_setting.sample_fraction,
min_fit_clients=server_setting.min_sample_size,
min_available_clients=server_setting.min_num_clients,
eval_fn=eval_fn,
on_fit_config_fn=on_fit_config_fn,
)
if server_setting.strategy == "fast-and-slow":
if server_setting.training_round_timeout is None:
raise ValueError(
"No `training_round_timeout` set for `fast-and-slow` strategy"
)
t_fast = (
math.ceil(0.5 * server_setting.training_round_timeout)
if server_setting.training_round_timeout_short is None
else server_setting.training_round_timeout_short
)
strategy = fl.strategy.FastAndSlow(
fraction_fit=server_setting.sample_fraction,
min_fit_clients=server_setting.min_sample_size,
min_available_clients=server_setting.min_num_clients,
eval_fn=eval_fn,
on_fit_config_fn=on_fit_config_fn,
importance_sampling=server_setting.importance_sampling,
dynamic_timeout=server_setting.dynamic_timeout,
dynamic_timeout_percentile=0.8,
alternating_timeout=server_setting.alternating_timeout,
r_fast=1,
r_slow=1,
t_fast=t_fast,
t_slow=server_setting.training_round_timeout,
)
if server_setting.strategy == "fedfs-v0":
if server_setting.training_round_timeout is None:
raise ValueError("No `training_round_timeout` set for `fedfs-v0` strategy")
t_fast = (
math.ceil(0.5 * server_setting.training_round_timeout)
if server_setting.training_round_timeout_short is None
else server_setting.training_round_timeout_short
)
strategy = fl.strategy.FedFSv0(
fraction_fit=server_setting.sample_fraction,
min_fit_clients=server_setting.min_sample_size,
min_available_clients=server_setting.min_num_clients,
eval_fn=eval_fn,
on_fit_config_fn=on_fit_config_fn,
r_fast=1,
r_slow=1,
t_fast=t_fast,
t_slow=server_setting.training_round_timeout,
)
if server_setting.strategy == "fedfs-v1":
if server_setting.training_round_timeout is None:
raise ValueError("No `training_round_timeout` set for `fedfs-v1` strategy")
strategy = fl.strategy.FedFSv1(
fraction_fit=server_setting.sample_fraction,
min_fit_clients=server_setting.min_sample_size,
min_available_clients=server_setting.min_num_clients,
eval_fn=eval_fn,
on_fit_config_fn=on_fit_config_fn,
dynamic_timeout_percentile=0.8,
r_fast=1,
r_slow=1,
t_max=server_setting.training_round_timeout,
use_past_contributions=True,
)
if server_setting.strategy == "qffedavg":
strategy = fl.strategy.QffedAvg(
q_param=0.2,
qffl_learning_rate=0.1,
fraction_fit=server_setting.sample_fraction,
min_fit_clients=server_setting.min_sample_size,
min_available_clients=server_setting.min_num_clients,
eval_fn=eval_fn,
on_fit_config_fn=on_fit_config_fn,
)
# Run server
log(INFO, "Instantiating server, strategy: %s", str(strategy))
server = fl.Server(client_manager=client_manager, strategy=strategy)
fl.app.server.start_server(
DEFAULT_SERVER_ADDRESS, server, config={"num_rounds": server_setting.rounds},
)
def run(baseline: str, setting: str, adapter: str) -> None:
"""Run baseline."""
print(f"Starting baseline with {setting} settings.")
wheel_remote_path = (f"/root/{WHEEL_FILENAME}" if adapter == "docker" else
f"/home/ubuntu/{WHEEL_FILENAME}")
if baseline == "tf_cifar":
settings = tf_cifar_settings.get_setting(setting)
elif baseline == "tf_fashion_mnist":
settings = tf_fashion_mnist_settings.get_setting(setting)
elif baseline == "tf_hotkey":
settings = tf_hotkey_settings.get_setting(setting)
else:
raise Exception("Setting not found.")
# Get instances and add a logserver to the list
instances = settings.instances
instances.append(
Instance(name="logserver", group="logserver", num_cpu=2, num_ram=2))
# Configure cluster
log(INFO, "(1/9) Configure cluster.")
cluster = configure_cluster(adapter, instances, baseline, setting)
# Start the cluster; this takes some time
log(INFO, "(2/9) Start cluster.")
cluster.start()
# Upload wheel to all instances
log(INFO, "(3/9) Upload wheel to all instances.")
cluster.upload_all(WHEEL_LOCAL_PATH, wheel_remote_path)
# Install the wheel on all instances
log(INFO, "(4/9) Install wheel on all instances.")
cluster.exec_all(command.install_wheel(wheel_remote_path))
# Download datasets in server and clients
log(INFO, "(5/9) Download dataset on server and clients.")
cluster.exec_all(command.download_dataset(baseline=baseline),
groups=["server", "clients"])
# Start logserver
log(INFO, "(6/9) Start logserver.")
logserver = cluster.get_instance("logserver")
cluster.exec(
logserver.name,
command.start_logserver(
logserver_s3_bucket=CONFIG.get("aws", "logserver_s3_bucket"),
logserver_s3_key=f"{baseline}_{setting}_{now()}.log",
),
)
# Start Flower server on Flower server instances
log(INFO, "(7/9) Start server.")
cluster.exec(
"server",
command.start_server(
log_host=f"{logserver.private_ip}:8081",
baseline=baseline,
setting=setting,
),
)
# Start Flower clients
log(INFO, "(8/9) Start clients.")
server = cluster.get_instance("server")
with concurrent.futures.ThreadPoolExecutor(max_workers=10) as executor:
# Start the load operations and mark each future with its URL
concurrent.futures.wait([
executor.submit(
cluster.exec,
client_setting.instance_name,
command.start_client(
log_host=f"{logserver.private_ip}:8081",
server_address=f"{server.private_ip}:8080",
baseline=baseline,
setting=setting,
cid=client_setting.cid,
),
) for client_setting in settings.clients
])
# Shutdown server and client instance after 10min if not at least one Flower
# process is running it
log(INFO, "(9/9) Start shutdown watcher script.")
cluster.exec_all(command.watch_and_shutdown("flower", adapter))
# Give user info how to tail logfile
private_key = (DOCKER_PRIVATE_KEY if adapter == "docker" else
path.expanduser(CONFIG.get("ssh", "private_key")))
log(
INFO,
"If you would like to tail the central logfile run:\n\n\t%s\n",
command.tail_logfile(adapter, private_key, logserver),
)
