Getting started with federated learning
- Federated Learning for image classification introduces the key parts of the Federated Learning (FL) API, and demonstrates how to use TFF to simulate federated learning on federated MNIST-like data.
- Federated Learning for text generation further demonstrates how to use TFF's FL API to refine a serialized pre-trained model for a language modeling task.
- Tuning recommended aggregations for learning
shows how the basic FL computations in
tff.learningcan be combined with specialized aggregation routines offering robustness, differential privacy, compression, and more.
- Federated Reconstruction for Matrix Factorization introduces partially local federated learning, where some client parameters are never aggregated on the server. The tutorial demonstrates how to use the Federated Learning API to train a partially local matrix factorization model.
Writing custom federated computations
- Building Your Own Federated Learning Algorithm shows how to use the TFF Core APIs to implement federated learning algorithms, using Federated Averaging as an example.
- Custom Federated Algorithm with TFF Optimizers
shows how to use
tff.learning.optimizersto build a custom iterative process for Federated Averaging.
- Custom Federated Algorithms, Part 1: Introduction to the Federated Core and Part 2: Implementing Federated Averaging introduce the key concepts and interfaces offered by the Federated Core API (FC API).
- Implementing Custom Aggregations explains the
design principles behind the
tff.aggregatorsmodule and best practices for implementing custom aggregation of values from clients to server.
Simulation best practices
High-performance simulations with TFF describes how to setup and configure the high performance TFF runtime.
TFF simulation with accelerators (GPU) shows how TFF's high-performance runtime can be used with GPUs.
Intermediate and advanced tutorials
Random noise generation points out some subtlities with using randomness in decentralized computations, and proposes best practices and recommend patterns.
Sending Different Data To Particular Clients With tff.federated_select introduces the
tff.federated_selectoperator and gives a simple example of a custom federated algorithm that sends different data to different clients.
Client-efficient large-model federated learning via federated_select and sparse aggregation shows how TFF can be used to train a very large model where each client device only downloads and updates a small part of the model, using
tff.federated_selectand sparse aggregation.
TFF for Federated Learning Research: Model and Update Compression demonstrates how custom aggregations building on the tensor_encoding API can be used in TFF.
Federated Learning with Differential Privacy in TFF demonstrates how to use TFF to train models with user-level differential privacy.