openroadm - pilab.jpdue to the complexity, the open roadm msa has first focused on the functional...
Post on 16-Apr-2020
5 Views
Preview:
TRANSCRIPT
Open ROADM MSA: Disaggregated Fiber Optic Transporthttp://OpenROADM.org
March 2019
What is Open ROADM MSA?The Open ROADM Multi-Source Agreement (MSA)• Disaggregates and opens up the traditionally proprietary ROADM systems,• Is a model-driven design based on open source YANG data models, and• Enables open optical specification for multi-vendor interoperability in SDN-
controlled fiber optic transport.
ROADM Systems DisaggregationROADM systems disaggregation can be accomplished by • Hardware Disaggregation, which defines a common set of hardware provided by
different vendors.• Functional Disaggregation, which defines different optical functions.
Due to the complexity, the Open ROADM MSA has first focused on the functional disaggregation, by defining three open optical functions as follows.
1) ROADM must be open, interoperable in a multi-vendor optical solution, and individually controllable CD or CDC (Colorless/Directionless/Contentionless).
2) Transponder must be fully open to pluggable optics on both client and line side, and interoperable with other vendors/pluggables at the other end of the line side.
3) Pluggable Optics can be used in a ROADM system or packet device, and are independently controllable.
Why Do We Need Open ROADM?Today’s available optical network solutions are limited to single vendor, with strong dependence on proprietary software and interfaces. The resulting vendor and technology lock-in leads to significant software development efforts, every time a new vendor or a new product feature comes into play. A pathway to reducing costly proprietary software development efforts is the definition of open and standard interfaces. The Open ROADM MSA offers the following features, which are well suited to address this requirement.• SDN Software Control: Deploy flexible ROADMs that are SDN controlled for
network optimization and multi-layer control.• Multi-Layer Synergy: Data plane collapse using pluggables wherever
applicable, and multi-layer resource coordination using SDN control plane.• Open Optical Specifications: Interoperability in the fiber optic data plane
across multiple suppliers.• Model-driven Design: Open source YANG data models for Device API,
Network abstraction and Service API.• No Proprietary Tools: The whole life cycle and all maintenance functions
covered by Open ROADM APIs as defined.• Ecosystem: Generate an open ecosystem around disaggregated fiber optic
transport by publishing specifications for data plane and control plane interoperability, as well as open source SDN controller platform.
Open Optical SpecificationsBased on the optical functions, two open optical specifications are defined.
1) Single-Wavelength (or W) open interface, which defines how pluggable optics or transponders interoperate. The optical specifications for Single-Wavelength include the definition of electrical framing, digital signal processor interop, forward error correction definition, transmit optical definition, definition of optical path, and optical definition of the receiver.2) Multi-Wavelength (or MW) open interface, which defines how ROADMs interoperate. The optical specifications for Multi-Wavelength include characteristics of operating ranges, parameters for optical amplifier operation, parameters for ROADM operation, optical service channel, optical power control, and power shutdown for safety.
Vendor A ROADM
Vendor B ROADM
Vendor C Transponder
Vendor D Transponder
Open Single-WavelengthInterface
Open Multi-WavelengthInterface
Open ROADM Network ArchitectureKey components of the Open ROADM Network Architecture are:• ROADMs from different suppliers that interoperate across an open Multi-Wavelength (MW) link.• Transponders from different suppliers that interoperate across an open Single-Wavelength (W) link.• Open APIs for control and maintenance of ROADMs and transponders.• L0 SDN controller plug-in (e.g., the OpenDaylight TransportPCE) that enables multi-vendor operations using common YANG/NETCONF defined
interfaces.• Multi-layer SDN controller (e.g., the ONAP project) to perform multi-layer SDN control.
Vendor B ROADM
Vendor A ROADM
Network Model
Service Model
Device Model
RPC calls
ApplicationsApplicationsApplicationsApplications
Open ROADM Communication (NETCONF)
Inventory DB
Multi-Layer SDN Controller
L3 Switch
Pluggable optics
Vendor C Transponder
L3 Switch
Pluggable optics
Vendor D Transponder
100Gbit/s100Gbit/s
Fujitsu Open ROADM Solution
https://www.fujitsu.com/us/products/network/applications/open-roadm/
May 30-31, 2019
iPOP 2019 Copyright 2019 FUJITSU LIMITED.
Introduction of the Fujitsu Open ROADM SolutionThe Fujitsu Open ROADM solution is specifically developed to meet the standards set forth by the Open ROADM MSA community and is compliant with Open ROADM MSA. The solution brings together the 1FINITY™ disaggregated optical networking platforms; the Virtuora® suite of SDN/NFV software tools and applications; and expert multivendor integration services.
What is the Fujitsu 1FINITY™ disaggregated optical networking platform concept?The Fujitsu 1FINITY platform leverages functionally disaggregated hardware components and reaggregates their functionality through enhanced software. The blade-centric 1FINITY architecture delivers unprecedented flexibility, scalability, and efficiency, providing a pay-as-you grow approach and evergreen technology design, supporting open pluggable optics, open APIs and open-standard protocols.
Physically Aggregated (NE Shelf Based)
•Shelf Form Factor is set and decided as:
•Space, Power, Thermal, I/O interface over backplane
•Multifunctional shelves are constrained by the form-factor, system software, & dependencies among the other functions incorporated into the multifunction shelf
Logically Aggregated (BLADE Based)
•Software logically aggregates and allows functions to be located separately and retain centralize control
•Each Blade has its own independent physical design
•Independent functions provide freedom of innovation not possible in multifunctional equipment
5 Step to 1FINITY™ platform and Open SDN based network
Future blade
L120
L110
3
1
4
2
OTN
Switchponder
Transponder
Ethernet Switch
ROADM
L100
ANY BLADE
ANY BLADE
ANY BLADE
ANY BLADE
Bay
Blades
NE Shelf Based
Functional Components
DisaggregationMix & Match
Open/SDN Network:•Multi-Vendor•PAYG model•Limitless Configs.•Open solutions•Zero touch•Rapid service delivery
BLADE Based
2
34 5
CommonSDN Controller
Virtuora NC
T3001
Transition (Brownfield)• Same 1FINITY HW and Virtuora SDN• Transition network to disaggregation• Then continue to build network as an Open /
SDN based network
Fujitsu Virtuora Network Controller PackageVirtuora Network Controller (Virtuora NC) is a software-defined network controller platform that is modular, open, and scalable. This multi-vendor, multi-layer software solution delivers unified operations and resource control from a Web-based GUI. The platform connects the southbound network elements to the northbound apps to deliver service provisioning, network management, planning and design, and service assurance.
The Virtuora Network Controller package includes:• The Virtuora Network Controller. Built on OpenDaylight, a Linux Foundation open-source SDN platform, the Controller provides a layer of abstraction that
includes REST Application Interfaces for northbound applications and southbound device drivers.• Virtuora Topology. Automatically discovers all topology elements, including equipment and links.• Virtuora Path Computation. The path computation engine dynamically computes an optimal path based on routing constraints. • Virtuora supports all 1FINITY blades, as well as Open ROADM architecture
Fujitsu 1FINITY™ Hardware Platform and Fujitsu Virtuora® Software Platform
Vendor X
Open-ness Performance
Open ROADM
•Mix Match TPDR+EFEC •Mix Match ROADM•No control loops•Open optics
OpenTransponder
Proprietary ROADM
OpenTransponder
Paired ROADM
Proprietary ROADM
•Mix Match TPDR+EFEC•Paired ROADM •w/ control loops•Open optics
Proprietary ROADM
Paired Transport
Proprietary ROADM
•Paired TPDR+SDFEC•Paired ROADM •w/ control loops•Open optics
Proprietary Transport
•Proprietary TPDR+SDFEC•Proprietary ROADM •w/ control loops•Open optics
•Paired TPDR+SDFEC •Mix Match ROADM•No control loops•Open optics
Paired Transponder
Open ROADM
Transponder (TPDR)
ROADM
10x100G Transponder
1FINITY™ L1001x9 ROADM-
on-a-blade
4x16 Coupler
1x16 Coupler
Twin 12x9 WSS
Add/drop complex
1FINITY™ L110
1FINITY™ L120
1FINITY™ T300
top related