Use strategies¶
Flower allows full customization of the learning process through the Strategy
abstraction. A number of built-in strategies are provided in the core framework.
There are three ways to customize the way Flower orchestrates the learning process on the server side:
Use an existing strategy, for example,
FedAvg
Customize an existing strategy with callback functions
Implement a novel strategy
Use an existing strategy¶
Flower comes with a number of popular federated learning strategies built-in. A built-in strategy can be instantiated as follows:
import flwr as fl
strategy = fl.server.strategy.FedAvg()
fl.server.start_server(config=fl.server.ServerConfig(num_rounds=3), strategy=strategy)
This creates a strategy with all parameters left at their default values and passes it
to the start_server
function. It is usually recommended to adjust a few parameters
during instantiation:
import flwr as fl
strategy = fl.server.strategy.FedAvg(
fraction_fit=0.1, # Sample 10% of available clients for the next round
min_fit_clients=10, # Minimum number of clients to be sampled for the next round
min_available_clients=80, # Minimum number of clients that need to be connected to the server before a training round can start
)
fl.server.start_server(config=fl.server.ServerConfig(num_rounds=3), strategy=strategy)
Customize an existing strategy with callback functions¶
Existing strategies provide several ways to customize their behaviour. Callback functions allow strategies to call user-provided code during execution.
Configuring client fit and client evaluate¶
The server can pass new configuration values to the client each round by providing a
function to on_fit_config_fn
. The provided function will be called by the strategy
and must return a dictionary of configuration key values pairs that will be sent to the
client. It must return a dictionary of arbitrary configuration values client.fit
and
client.evaluate
functions during each round of federated learning.
import flwr as fl
def get_on_fit_config_fn() -> Callable[[int], Dict[str, str]]:
"""Return a function which returns training configurations."""
def fit_config(server_round: int) -> Dict[str, str]:
"""Return a configuration with static batch size and (local) epochs."""
config = {
"learning_rate": str(0.001),
"batch_size": str(32),
}
return config
return fit_config
strategy = fl.server.strategy.FedAvg(
fraction_fit=0.1,
min_fit_clients=10,
min_available_clients=80,
on_fit_config_fn=get_on_fit_config_fn(),
)
fl.server.start_server(config=fl.server.ServerConfig(num_rounds=3), strategy=strategy)
The on_fit_config_fn
can be used to pass arbitrary configuration values from server
to client, and potentially change these values each round, for example, to adjust the
learning rate. The client will receive the dictionary returned by the
on_fit_config_fn
in its own client.fit()
function.
Similar to on_fit_config_fn
, there is also on_evaluate_config_fn
to customize
the configuration sent to client.evaluate()
Configuring server-side evaluation¶
Server-side evaluation can be enabled by passing an evaluation function to
evaluate_fn
.
Implement a novel strategy¶
Writing a fully custom strategy is a bit more involved, but it provides the most flexibility. Read the Implementing Strategies guide to learn more.