Federated learning configuration details


FL server configuration file: config_fed_server.json



{ "format_version": 1, "servers": [ { "min_num_clients": 1, "max_num_clients": 100, "wait_after_min_clients": 30, "heart_beat_timeout": 600, "start_round": 0, "num_rounds": 200 } ], "aggregator": { "name": "AccumulateWeightedAggregator", "args": { "exclude_vars": "dummy", "aggregation_weights": { "client0": 1, "client1": 1.5, "client2": 0.8 } } }, "outbound_filters": [ ], "inbound_filters": [ ], "model_persistor": { "name": "PTFileModelPersistor", "args": { "exclude_vars": "dummy", "model": { "path": "monai.networks.nets.unet.UNet", "args": { "dimensions": 3, "in_channels": 1, "out_channels": 2, "channels": [16, 32, 64, 128, 256], "strides": [2, 2, 2, 2], "num_res_units": 2, "norm": "batch" } } } }, "shareable_generator": { "name": "FullModelShareableGenerator" } }




The list of servers runs the FL service


The FL model training task name


FL gRPC service location URL


Maximum length of gRPC message send


Maximum length of gRPC message receive


gRPC secure communication private key


gRPC secure communication SSL certificate


gRPC secure communication trusted root certificate


Minimum number of clients required for FL model training


Maximum number of clients required for FL model training


How many seconds to wait after FL server receives the minimum number of model updates from the clients before starting aggregation, if the number of active clients is greater than min_num_clients


Number of seconds the FL server waits for the client heartbeat calls before treating a client as a dead client and removing it from the active list


FL training starting round number


Round number to continue conducting training until


Excluded variables from the privacy preserving


Maximum number of workers to support the FL model training

More details on the variables above:


The current FL server training will start from this number and continue until the value of num_rounds. Depending on the status of the FL training, you can adjust this accordingly.


This option accepts a string argument, and this string will be interpreted as a regular expression. The exclude_vars regex is then used to filter out server model parameters which are not to be shared with the clients.


This is used to control how many workers are allocated for the gRPC services from the server side. This may slightly affect the performance of gRPC communication.


The “aggergator” key is used to configure the FL server aggregator component. The configuration uses the same approach as the configurations for other components, with “name” for the component name as “args” containing all the parameters. The standard implementation provided is “ModelAggregator”, which is a weighted factor aggregation implementation, considering the factor of training iterations of each FL client. The aggregation weight of each FL client can be controlled depending on the data distribution of the clients. The default value for each client is 1. If the client name is not in the “aggregation_weights” list, it uses the default value. Otherwise, the FL server can give clients more or less aggregation weight accordingly.

“aggregator” also supports the Bring Your Own Aggregation implementation. You can provide your own specific aggregation logic and use the Bring your own components for federated learning approach to plug in the FL server aggregation logic.

FL client configuration file: config_fed_client.json



{ "format_version": 1, "platform": "PT", "client": { "outbound_filters": [ ], "inbound_filters": [ ] }, "client_trainer": { "path": "medl.apps.fed_learn.trainers.client_trainer.ClientTrainer", "args": { "local_epochs": 5, "steps_aggregation": 0, "model_reader_writer": { "name": "PTModelReaderWriter" } } }, "handlers": [ ], "cross_validate": true, "cross_site_validation": { "is_participating": true, "model_validator": { "path": "medl.apps.fed_learn.validators.client_validator.ClientValidator", "args": { } }, "inbound_filters": [ ], "outbound_filters": [ ] } }

The servers section from Clara 3.1 is no longer needed, and privacy is now handled as filters. Please note that “platform”: “PT” is now needed for Clara 4.0.

In the above example, target is configured as localhost:8002. Based on the network environment in which FL server and clients are deployed, users need to ensure DNS is configured correctly so clients can find the server by the server’s name. Another way for the name resolution without DNS is to edit the client’s /etc/hosts file. Before starting clients, add the server IP address and its name in /etc/hosts file. The following is one example:

     localhost ::1 localhost ip6-localhost ip6-loopback fe00::0 ip6-localnet ff00::0 ip6-mcastprefix ff02::1 ip6-allnodes ff02::2 ip6-allrouters c96cc6ba74ab # Add the following for IP and name of FL server fedserver

When launching the FL server docker with docker run, users also need to expose the port via the -p option if not using --net=host. The highlighted line above may also need to be added to the server’s /etc/hosts file to properly resolve the IP that the server is running on.

If you are using the automatically generated startup kits created by the provisioning tool as described in the Federated learning user guide, the following would have already been taken care of at the creation of the startup kits. The code that generates the startup kits automatically creates certificates for the server and clients and puts them all in their default expected locations.

If you are not using the startup kits and want to create certificates yourself manually, the following is an example of how that could be done:


## 1. Server root key and certificate ## 1.1 Server creates the root private key `openssl genrsa -out rootCA.key 2048` Or `openssl genrsa -des3 -out rootCA.key 2048` (with password) ## 1.2 Server creates the self-signed root certificate `openssl req -x509 -new -nodes -key rootCA.key -sha256 -days 1024 -out rootCA.pem` ## 2. Server private key and CSR ## 2.1 Server creates private key `openssl genrsa -out server.key 2048` ## 2.2 Server creates certificate signing request (CSR) `openssl req -new -key server.key -out server.csr` ## 2.3 Server signs the CSR using the root certificate rootCA.pem `openssl x509 -req -in server.csr -CA rootCA.pem -CAkey rootCA.key -CAcreateserial -out server.crt -days 500 -sha256` ## 3. Client certificate ## Important: client must input a common name on command below ## 3.1 Client creates private key `openssl genrsa -out client3.key 2048` ## 3.2 Client creates CSR `openssl req -new -key client3.key -out client3.csr` ## 4. Sign the CSR using the root certificate and place signed certificate in client's config path ## 4.1 Server runs this after getting client3.csr `openssl x509 -req -in client3.csr -CA rootCA.pem -CAkey rootCA.key -CAcreateserial -out client3.crt -days 500 -sha256` ## 4.2 Server gives client client3.crt to place in the client's config path

For development purposes, insecure gRPC communication between the server and clients is supported. This communication mode is not recommended to be used in the federated learning production deployment.

The recommended way to use Clara federated learning is through the administrator tool as described in the Federated learning user guide.


Very rarely, FL training clients may not exit gracefully after the training is successfully finished. You can use CTR-C to shutdown the FL client, or kill the FL client process. This will not affect any model training results and the trained model checkpoint will be saved correctly.

© Copyright 2020, NVIDIA. Last updated on Feb 2, 2023.