MEF is the driving force enabling agile, assured, and orchestrated communications services across a global ecosystem of automated networks. MEF 3.0 services are optimized for the digital economy.
We spotlight videos and articles on the transition to MEF 3.0 services that provide unprecedented user- and application-directed control over network resources and service capabilities.
MEF Committees have published 60 technical specifications and implementation agreements to effect interoperability, increase operational efficiency, and accelerate industry innovation.
The MEF Services Certification Program enables service providers to certify that their Carrier Ethernet services comply with the highest industry standards
The MEF Equipment Certification Program enables network equipment manufacturers to certify that their Carrier Ethernet products comply with the relevant MEF specifications...
MEF hosts webinars on the transformational journey to dynamic MEF 3.0 services delivered over automated, virtualized, and interconnected networks powered by LSO, SDN, and NFV.
Our Seminars provide an overview of key MEF 3.0 work areas, including: (1) standardized, orchestrated services, (2) LSO APIs, (3) agile service & technology certification, (4) 5G, and (5) MEF 3.0 Implementation Projects on MEFnet.
MEF is please to host the MEF18 global networking event, 29 October - 2 November 2018, Los Angeles, CA. MEF18 focuses on enabling agile, assured, and orchestrated services for the digital economy.
Specifications published by MEF are intended for general distribution to the public and may be downloaded from this site and reproduced without charge.view all specifications →
Managed Access E-Line Service Implementation Agreement
This document defines a MAEL Service to allow a SP/SO to monitor services by utilizing a standard set of management capabilities, including SOAM FM, SOAM PM, and Latching Loop-back, in the MAEL Operator’s network. By leveraging management capabilities in the MAEL Operator’s network, a MAEL Service is intended to eliminate the need for the SP/SO to deploy hardware at the Subscriber’s location.
IP Service Attributes for Subscriber IP Services
This document is the first MEF IP Services specification. It specifies Service Attributes for de-scribing Subscriber IP Services and is consistent with IETF STD 5 . MEF Subscriber IP Services are IP Services described using the Service Attributes and includes private cloud access, Internet access, and managed VPN services. The specification does not discuss Internet peering between ISPs, it focuses on services for unicast traffic. Multicast traffic may covered in future revision. IPv4, IPv6 and “dual stack” services are supported.
Implementation Agreement – Transport Services for Mobile Networks
This document identifies the requirements for MEF Ethernet Services and MEF External Interfaces (EIs such as User-Network Interface (UNI)s) for use in Mobile Backhaul networks based on MEF specifications. In addition, new interface and service attributes have been specified where needed. The services and requirements in this Implementation Agreement (IA) are based on the services defined in MEF 6.2 , MEF 33 and MEF 51  as well as the attributes in MEF 10.3 , MEF 26.2  and this IA. The aim is to be flexible to support a wide range of Ethernet service based mobile network deployments.
Network Resource Provisioning Interface Profile Specification
The Interface Profile Specification defines the requirements, use cases, realized classes, network resource interfaces and associated operations/parameters, state machines, and sequence diagrams that describe the behavior of the Presto NRP interface.
Network Resource Management - Information Model: Connectivity
This specification describes the MEF Network Resource Management Information Model (NRM IM). Lifecycle Service Orchestration Reference Architecture (LSO RA, MEF 55 ) extends the tra-ditional MEF scope concerning Service Modeling, from a pure view “from outside the network” to cover a range of Operational, Orchestration, and Network Management behaviors, including SDN and NFV paradigms.