RELEASE.md

Release 2.1.1

Major Features and Improvements

Component

• Support server model saving in Homo-NN

ML

• aggregator support aggregation of torch.bfloat16 data type

Release 2.1.0

Major Features and Improvements

Arch

• Some bugs fixed for spark computing engine

Component

• Unified IO keys naming format for all components
• Add LLMLoader to support running FATE-LLM v2.0 with pipeline

OSX

• Compatible with eggroll-v2.x

Release 2.0.0

Major Features and Improvements

Arch 2.0：Building Unified and Standardized API for Heterogeneous Computing Engines Interconnection

• Introduce Context to manage useful APIs for developers, such as Distributed Compting, Federation, Cipher, Tensor, Metrics, and IO.
• Introduce Tensor data structure to handle local and distributed matrix operation, with built-in heterogeneous acceleration support.
  • abstracted PHETensor, smooth switch between various underlying PHE implementations through standard interface
• Introduce DataFrame, a 2D tabular data structure for data io and simple feature engineering
  • add data block manager to support mixed-type columns & feature anonymization
  • added 30+ operator interfaces for statistics, including comparison, indexing, data binning, and transformation, etc
• Refactor Federation, a unified interface for federated computing. We provide a unified Serdes control and more user-friendly api.
• Introduce Config, a unified configuration for FATE, including safety restrictions, system configuration, and algorithm configuration
• Refactor logger, customizable logging for different use cases and flavors.
• Introduce Launcher, a simple tool for federated program execution, especially useful for standalone and local debugging
• Framework: PSI-ECDH protocol support, single entry for histogram statistical computation
• Deepspeed integration: support distributed training using deepspeed with Eggroll.
• Protocol: Support for SSHE(mpc and homomophic encryption mixed protocol), ECDH, Secure Aggregation protocols
• Experimental Integrate Crypten for SMPC support, more protocols and features will be added in the future

Components 2.0: Building Standardized Algorithm Components for different Scheduling Engines

• Introduce components toolbox to wrap ML modules as standard executable programs
• spec and loader expose clear API for smooth internal extension and external system integration
• Provide several cli tools to interact and execute components
• Input-Output: Further decoupling of FATE-Flow, providing standardized black-box calling processes
• Component Definition: Support for typing-based definition, automatic checking for component parameters, support for multiple types of data and model input and output, in addition to multiple inputs

ML 2.0: Major functionality migration from FATE-v1.x, decoupling call hierarchy

• Data preprocessing: Added DataFrame Transformer; Reader, Union and DataSplit migration completed
• Feature Engineering: Migrated HeteroFederatedBinning, HeteroFeatureSelection, DataStatistics, Sampling, FeatureScale and Pearson Correlation
• Federated Training Migrated: HeteroSecureBoost, HomoNN, HeteroCoordinatedLogisticRegression, HeteroCoordinatedLinearRegression, SSHE-LogisticRegression and SSHE-LinearRegression
• Federated Training Added:
  • SSHE-HeteroNN: based on mpc and homomorphic encryption mixed protocal
  • FedPASS-HeteroNN: based on fedpass protocol

Algorithm Performance Improvements: (Comparison with FATE-v1.11.*)

• PSI (Privacy Set Intersection): tested on a dataset of 100 million with an intersection result of 100 million, 1.8+ times of FATE-v1.11.4
• Hetero-SSHE-LR: tested on data of guest 10w * 30 dimensions and host 10w * 300 dimensions, 4.3+ times of FATE-v1.11.4
• Hetero-NN(Based on FedPass Protocol): tested on data of guest 10w * 30 dimensions and host 10w * 300 dimensions, basically consistent with the plaintext performance, 143+ times of FATE-v1.11.4
• Hetero-Coordinated-LR: tested on data of guest 10w * 30 dimensions and host 10w * 300 dimensions, 1.2+ times of FATE-v1.11.4
• Hetero-Feature-Binning: tested on data of guest 10w * 30 dimensions and host 10w * 300 dimensions, 1.5+ times of FATE-v1.11.4

OSX(Open Site Exchange) 1.0: Building Open Platform for Cross-Site Communication Interconnection

• Implement the transmission interface in accordance with the “ Technical Specification for Financial Industry Privacy Computing Interconnection Platform”,The transmission interface is compatible with FATE 1.X version and FATE 2.X version
• Supports GRPC synchronous and streaming transmission, supports TLS secure transmission protocol, and is compatible with FATE1.X rollsite components
• Supports Http 1.X protocol transmission and TLS secure transmission protocol
• Support message queue mode transmission, used to replace rabbitmq and pulsar components in FATE 1.X
• Supports Eggroll and Spark computing engines
• Supports networking as an Exchange component, with support for FATE 1.X and FATE 2.X access
• Compared to the rollsite component, it improves the exception handling logic during transmission and provides more accurate log output for quickly locating exceptions.
• The routing configuration is basically consistent with the original rollsite, reducing the difficulty of porting
• Supports HTTP interface modification of routing tables and provides simple permission verification
• Improved network connection management logic, reduced connection leakage risk, and improved transmission efficiency
• Using different ports to handle access requests both inside and outside the cluster, facilitating the adoption of different security policies for different ports

FATE Flow 2.0: Building Open and Standardized Scheduling Platform for Scheduling Interconnection

• Adapted to new scalable and standardized federated DSL IR
• Built an interconnected scheduling layer framework, supported the BFIA protocol
• Optimized process scheduling, with scheduling separated and customizable, and added priority scheduling
• Optimized algorithm component scheduling，support container-level algorithm loading， enhancing support for cross-platform heterogeneous scenarios
• Optimized multi-version algorithm component registration, supporting registration for mode of components
• Federated DSL IR extension enhancement: supports multi-party asymmetric scheduling
• Optimized client authentication logic, supporting permission management for multiple clients
• Optimized RESTful interface, making parameter fields and types, return fields, and status codes clearer
• Added OFX(Open Flow Exchange) module: encapsulated scheduling client to allow cross-platform scheduling
• Supported the new communication engine OSX, while remaining compatible with all engines from FATE Flow 1.x
• Decoupled the System Layer and the Algorithm Layer, with system configuration moved from the FATE repository to the Flow repository
• Published FATE Flow package to PyPI and added service-level CLI for service management
• Migrated major functionality from FATE Flow 1.x

Fate-Client 2.0: Building Scalable Federated DSL for Application Layer Interconnection And Providing Tools For Fast Federated Modeling.

• Introduce new scalable and standardized federated DSL IR(Intermediate Representation) for federated modeling job
• Compile python client to DSL IR
• Federated DSL IR extension enhancement: supports multi-party asymmetric scheduling
• Support mutual translation between Standardized Fate-2.0.0 DSL IR and BFIA protocol
• Support using components with BFIA protocol through adapter mode
• Migrated Flow CLI and Flow SDK

Fate-Test: FATE Automated Testing Tool

• Migrated automated testing for functionality, performance, and correctness

Easy Deploy

• Supports installation of FATE by PyPi