The Optical Internetworking Forum (OIF) is a non-profit industry organization founded in 1998. It promotes the development and deployment of interoperable computer networking products and services through implementation agreements (IAs) for optical networking products, network processing elements, and component technologies.
OIF creates benchmarks, performs worldwide interoperability testing, builds market awareness and promotes education for optical technologies. The Network Processing Forum merged into OIF in June, 2006.
Implementation agreements are based on requirements developed cooperatively by end users, service providers, equipment vendors and technology providers in alignment with worldwide standards, augmented as necessary. This is accomplished through industry member participation working together to develop specifications for external network element interfaces, software interfaces internal to network elements and hardware component interfaces internal to network elements.
OIF sponsors a technical committee and a market awareness and education committee. The technical committee has working groups:
The Architecture and Signaling Working Group develops agreements related to architecture and signaling from service provider requirements.
The Carrier Working Group assembles functional requirements and guidelines for optical networking products.
The Interoperability Working Group defines testing methodologies, carries out proofs of concept, evaluates multi-vendor interoperability and contributes technical leadership for interoperability trials. Test criteria and test methods are defined with support of the source technical working group.
The Operations, Administration, Maintenance, and Provisioning working group focuses on deployment issues. The scope includes but is not limited to a) planning, engineering and provisioning of network resources; b) operations, maintenance or administration use cases and processes; and c) management functionality and interfaces for operations support systems and interoperable network equipment. Within its scope are Fault, Configuration, Accounting, Performance and Security Management (FCAPS) and Security.
The OIF Physical and Link Layer Working Group develops implementation agreements related to physical and data link layer interfaces between optical internetworking elements and between their internal components.
The OIF Physical Layer User Working Group develops requirements and guidelines for components, modules, subsystems and communication links thus providing common direction to the vendor community and other OIF working groups.
100G Ultra Long Haul DWDM Framework Document
Implementation Agreement for Integrated Polarization Multiplexed Quadrature Modulated Transmitters
Implementation Agreement for Integrated Dual Polarization Intradyne Coherent Receivers
Multisource Agreement for 100G Long-Haul DWDM Transmission Module - Electromechanical
100G Forward Error Correction White Paper
Common Electrical I/O (CEI)- Electrical and Jitter Interoperability Agreements for 6G+bps and 11G+bps I/O
Implementation Guide for the Common Electrical Interface 2.0 (CEI 2.0)
Common Electrical I/O - Protocol (CEI-P) Implementation Agreement
Proposal for a Common Electrical Interface Between SONET Framer and Serializer/deserializer Parts for OC-192 Interfaces
SERDES Framer Interface Level 4 (SFI-4.2) Phase 2: Implementation Agreement for 10Gbit/s Interface for Physical Layer Devices
Serdes Framer Interface Level 5 (SFI-5): 40Gbit/s Interface for Physical Layer Devices
Serdes Framer Interface Level 5 Phase 2 (SFI-5.2): Implementation Agreement for 40Gbit/s Interface for Physical Layer Devices
Scalable Serdes Framer Interface (SFI-S): Implementation Agreement for Interfaces Beyond 40G for Physical Layer Devices
Serial Look Aside Interface Implementation Agreement
SPI-3 Packet Interface for Physical and Link Layers for OC-48
System Packet Interface Level 4 (SPI-4) Phase 1: A System Interface for Interconnection Between Physical and Link Layer, or Peer-to-Peer Entities Operating at an OC-192 Rate (10 Gbit/s)
System Packet Interface Level 4 (SPI-4) Phase 2: OC-192 System Interface for Physical and Link Layer Devices
System Packet Interface Level 5 (SPI-5) : OC-768 System Interface for Physical and Link Layer Devices
Scalable System Packet Interface Implementation Agreement: System Packet Interface Capable of Operating as an Adaptation Layer for Serial Data Links
System Interface Level 5 (SxI-5): Common Electrical Characteristics for 2.488 - 3.125Gbit/s Parallel Interfaces
TDM System Interface Protocol
TDM Fabric to Framer Interface (TFI5)
Interoperability for Long Reach and Extended Reach 10 Gbit/s Transponders and Transceivers
Implementation Agreement for Common Software Protocol,Control Syntax, and Physical (Electrical and Mechanical) Interfaces for Tunable Laser Modules
Multi-Source Agreement for CW Tunable Lasers
Integrable Tunable Laser Assembly Multi Source Agreement
Integrable Tunable Transmitter Assembly Multi Source Agreement
User Network Interface (UNI) 1.0 Signaling Specification
Common - User Network Interface (UNI) 1.0 Signaling Specification, Release 2: Common Part
RSVP Extensions for User Network Interface (UNI) 1.0 Signaling, Release 2
Common - User Network Interface (UNI) 2.0 Signaling Specification: Common Part
User Network Interface (UNI) 2.0 Signaling Specification: RSVP Extensions for User Network Interface (UNI) 2.0
Call Detail Records for OIF UNI 1.0 Billing
Security Extension for UNI and E-NNI 2.0
Security Extension for UNI and NNI
Addendum to the Security Extension for UNI and NNI
OIF Control Plane Logging and Auditing with Syslog
Security for Management Interfaces to Network Elements
Addendum to the Security for Management Interfaces to Network Elements
Intra-Carrier E-NNI Signaling Specification
E-NNI Signaling Specification
External Network-Network Interface (E-NNI) OSPF-based Routing - 1.0 (Intra-Carrier)
OIF Guideline Document: Signaling Protocol Interworking of ASON/GMPLS Network Domains
OIF Carrier Working Group Guideline Document: Control Plane Requirements for Multi-Domain Optical Transport Networks
Very Short Reach (VSR) OC-192 Interface for Parallel Optics
Very Short Reach (VSR) OC-192 Four Fiber Interface Based on Parallel Optics
Serial Shortwave Very Short Reach (VSR) OC-192 Interface for Multimode Fiber
Very Short Reach (VSR) OC-192 Interface Using 1310 Wavelength and 4 and 11 dB Link Budgets
Very Short Reach Interface Level 5 (VSR-5): SONET/SDH OC-768 Interface for Very Short Reach (VSR) Applications
