FATE open source platform announced the release of FATE 2.0 version, as the world's leading industrial-grade open source framework for federated learning. This update realizes the interconnection between federated heterogeneous systems and continues to enhance the interconnection capabilities of the privacy computing platform. This progress further promotes the development of large-scale applications of federated learning and privacy computing.
##FATE 2.0Designed with comprehensive interoperability as the design concept , using open source methods to transform the four levels of application layer, scheduling, communication, and heterogeneous computing (algorithms), realizes the integration of systems and systems, systems and algorithms, and algorithms and algorithms. The ability of heterogeneous interoperability.
##The design of FATE 2.0
is compatible with the "Financial Industrial Privacy Computing InteroperabilityAPITechnical Document》##[3] and other industry standards, before release, FATE 2.0 has completed interconnection and interoperability verification with multiple heterogeneous privacy computing platforms. Recently Beijing Financial Technology Industry Alliance mentioned in a document released that “the research team joined forces with the FATE open source community and leading technology companies to complete a five-party cross-platform, cross- The interoperability and joint debugging of algorithms have verified the feasibility and security of interface documents in supporting the interoperability of multi-party heterogeneous platforms".
Visit the following URL to get version 2.0 of FATE:
##https:/ /m.sbmmt.com/link/99113167f3b816bdeb56ff1af6cec7af
##FATE 2.0
Schematic diagram of the overall interconnection architecture
FATE-Client 2.0: Building a scalable federated DSL,Support application layer interconnection
1.Introducing a new scalable and standardized federated DSL IR, namely federated modeling Process DSL standardized middle layer representation 2. Supports compiling python client federated modeling process code into DSL IR 3. DSL IR Protocol extension enhancement: Support multi-party asymmetric scheduling 4. Support FATE's standardized federated DSL IR and other protocol conversion, such asMutual conversion of Beijing Financial Technology Industry Alliance Interoperability BFIA protocol 5. Complete the migration of Flow Cli and Flow SDK functions FATE-Flow 2.0: Building an open and standardized interconnection scheduling platform 1. Adapt to the scalable and standardized FATE 2.0 federated DSL IR 2. Build an interconnection scheduling layer framework and support other protocols through adapters, such as "Privacy Computing Interconnection" The control layer interface involved in the "Interoperability API Technical Document". 3. Optimize process scheduling, the scheduling logic is decoupled and customizable, and priority scheduling is added 4. Optimize algorithm component scheduling, support container-level algorithm loading, and improve support for cross-platform heterogeneous scenarios 5. Optimization Multi-version algorithm component registration supports registration of component operating modes 6. Federated DSL IR extension enhancement: supports multi-party asymmetric scheduling 7. Optimize client authentication logic and support permission management of multiple clients 8. Optimize RESTful The interface makes the input parameter fields and types, return fields and status codes clearer 9. Added OFX (Open Flow Exchange) module: encapsulates the scheduling client, allowing cross-platform scheduling 10.Supports the new communication engine OSX, while working with FATE Flow All engines in 1.x remain compatible 11. The system layer and algorithm layer are decoupled, and the system configuration is moved from the FATE repository to the Flow repository 12. Released the FATE Flow package in PyPI, and added a service-level CLI for service management 13. Complete 1.x main function migration OSX (Open Site Exchange ) 1.0: Building open cross-site interconnection and communication components ##FATE-Arch 2.0: Build a unified and standardized API to facilitate the interconnection of federated heterogeneous computing engines ##FATE-Component 2.0: Build standardized algorithms Components, adapted to different scheduling engines FATE-ML 2.0: Core algorithm migration and extension,Algorithm development experience and performance are significantly enhanced based on MPC and homomorphic encryption hybrid protocol, FedPASS-HeteroNN Eggroll 3.0: Comprehensive enhancements to system performance, availability and reliability Enhancement Upgrade Cross-industry and cross-institutional data integration in finance, telecommunications, medical, government affairs, advertising and marketing, wisdom Many scenes such as cities have a wide range of needs. Privacy computing has become a powerful tool for breaking down data barriers between industries, and interconnection is the whetstone for giving full play to this powerful tool. FATE 2.0 provides an open source framework to achieve interconnection and interoperability, solving a major pain point in the industry. Most privacy computing platforms can achieve the purpose of interacting and integrating with heterogeneous systems by implementing open interoperability interfaces. The launch of FATE 2.0 provides strong support for the realization of interconnection between heterogeneous platforms, and continuous iteration shows commitment to continuous improvement of technology. It is not only about data privacy protection, but also about the development of the entire industry. In this process, privacy computing industry users and technology partners have more opportunities to participate. Through the joint efforts of the community, we can better address the challenges of data security and privacy protection, and lay a solid foundation for building a more secure and reliable digital society. The release of FATE 2.0 is a new chapter of industry cooperation and win-win. We look forward to more innovators and practitioners joining in to jointly promote the vigorous development of privacy computing technology.
Core component reconstruction: cluster-manager and node-manager components are fully rebuilt using Java language to ensure uniformity and improve performance
2. Python
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