what applications can be deployed with software defined...
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What Applications Can be Deployed with
Software Defined Elastic Optical Networks?
Yongli Zhao
State Key Laboratory of Information Photonics and Optical Communications, Beijing University of Posts and Telecommunications (BUPT), Beijing 100876, ChinaTel : +86-10-61198108; Email: yonglizhao@bupt.edu.cn; Web: ipoc.bupt.edu.cn
Group Meeting, Feb. 12 2016
2
Outline
1. Background
2. Software defined elastic optical networks
3. Applications deployment with SD-EON
4. Conclusions
3
New application / Large traffic
High speed transmission
Dynamic reconfigurations
• 100G and beyond/Super-channel
• Bandwidth-consuming and highly dynamic
• Fixed grids is short of the adaptability for the
connection bandwidth variation
• Multi-carrier modulation / OFDM
• High-rate applications, such as VoD, HD-TV, cloud
computing, grid applications
Cost-effective, scalable networking
Flexible-grid network (EON) is regarded as a
promising candidate for future transport
infrastructure.
Background of EON
4
Source: ECOC 2009 Symposium on “Dynamic Multi-Layer Mesh
Network ... Why, How, and When?” September 23, 2009
a) fixed rigid and coarse granularity
b) require full allocation of a wavelength
Drawbacks of WDM
c) inefficient spectrum utilization
EON
a) a flexible and fine granularity
b) adaptively provide the requirement
c) deliver high efficiency, flexibility and scalability
WDM VS EON
5
Challenges and problems
Research Issues
in EON
Design
Scope
Application
Methodology
Routing
Spectrum Assignment
Modulation Level Assignment
Symbol Rate Assignment
FEC Assignment
Power Level Assignment
Inter-Subcarrier and Inter-Super-
channel Spacing Assignment
Spectrum Defragmentation
Optical Grooming
Resilience Mechanisms
Static Planning
Dynamic Planning
(M)ILP
Heuristic
Physical Layer
Impairments
Considerations
Rerouting
Restrictions
Considerations
Subcarrier
Contiguity
Considerations
Subcarrier
Continuity
Considerations
Reactive
Proactive
Shared
Restoration
Dedicated
Restoration
Tomkos I, et al. A tutorial on the flexible optical networking paradigm……. Proceedings of the IEEE, 2014, 102(9): 1317-1337.
How to overcome
these issues?
Control
technology
6
Intelligent control technology
Automatically Switched Optical Networks (ASON)
Lightpath establishment & tear-down on demand
Distributed signaling & routing Protocol: GMPLS
Path Computing Element (PCE)
Constraint-based path computation in multi-layer/-domain
Centralized routing & resource assignment
Protocol: PCEP
Software Defined Optical networks (SDON)
Optical virtualization Unified control & Resource
integration Protocol: OpenFlow
2001 2006 2011
7
Outline
1. Background
2. Software defined elastic optical networks Control architecture
Testbed
3. Applications deployment with SD-EON
4. Conclusions
8
Multi-controller cooperation architecture
Yongli Zhao, Jie Zhang, et al. Virtual Optical Network Provisioning with Unified Service Logic Processing Model for Software Defined Multi-
Domain Optical Network, Optical Engineering, 54(12), Dec. 2015.
9
SDON testbed
Centec V330 (OFS)
DataCenter 1
ToR & Server ......
SDON Domain 1
Room 423
SD-NE
SD-ROADM
SD-ROADMIBM X3650M3 (Server)
Cisco C3560 (ToR)
Centec V330 (OFS)
DataCenter 2 SDON Domain 2
Room 342
FinisarWaveshaper
21Vianet Data Center
SDON Domain 3
FinisarWaveshaper
Centec V330 (OFS)
CommercialData Center
BUPT @ Haidian, Beijing
21Vianet @ Chaoyang, Beijing
Field-InstalledFiber Span
OFA
OFA
OFA
Datacenter & SDON Orchestration
Yiming Yu, Yongli Zhao, et al, Journal of Optical Communications and Networking, vol.7, no.2, A.301-308, Feb.2015
APP Store
10
Outline
1. Background
2. Software defined elastic optical networks
3. Applications deployment with SD-EON
4. Conclusions
11
Potential applications with SD-EON
AP
P 1
Service
scheduling
expert
APP
innovation
with SDON
VM
migration
Virtual
network
provisioningSpectrum
defragme
ntation
Service 2
Service 1Service 3
t0 t1 t2 t3 t4 t5 t6
SDON
User
Datacenter B
C
Controller
Datacenter A
12
A. Virtual network provisioning (VON)
Demonstrated on ONS2015.
13
Virtual network provisioning (VON)
Wei Wang, Yongli Zhao, Jie Zhang, et al., First Demonstration of Virtual Transport Network Services with Multi-Layer Protection Schemes over Flexi-Grid Optical Networks, Communications Letter, vol.13, no.9, 2015.
14
Differentiated protection schemes for VON
1
6
32
45
w.6 w.5
w.3w.2
Working & Backup Topology
1
6
32
45
Working Topology Backup Topology
w.2 w.3
w.5w.6
b.2 b.3
b.6 b.5
1
6
32
45
Working Topologyw.6 w.5
w.3w.2
Backup Topology
PLCPPLTPCLCP
physical node and link virtual node and link working pathbackup path
(a) (b) (c)
Vir
tu
al
To
po
P
hy
sic
al
To
po
Three protection schemes for VON
1. CLCP: Customer Layer Connection Protection.
2. PLTP: Provider Layer Topology Protection.
3. PLCP: Provider Layer Connection Protection.
Wei Wang, Yongli Zhao, Jie Zhang, et al., First Demonstration of Virtual Transport Network Services with Multi-Layer Protection Schemes over Flexi-Grid Optical Networks, Communications Letter, vol.13, no.9, 2015.
15
Experimental results
16
Experimental results
17
Experimental results
50 100 150 200 250 300
0.00
0.05
0.10
0.15
0.20
0.25
0.30
0.35
0.40
Blo
kin
g P
robabili
ty
Traffic Load (Erlang)
CLCP
PLTP
PLCP
50 100 150 200 250 300
0.0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
Resourc
e O
ccupation R
ate
Traffic Load (Erlang)
CLCP
PLTP
PLCP
PLTP and PLCP performs better than CLCP, for the reason that the network tenant has
only one work topology to deploy both work connection and backup connection under
CLCP. PLCP can protect VON most efficiently.
Wei Wang, Yongli Zhao, Jie Zhang, et al., First Demonstration of Virtual Transport Network Services with Multi-Layer Protection Schemes over Flexi-Grid Optical Networks, Communications Letter, vol.13, no.9, 2015.
18
B. Service scheduling expert (SSE)
Demonstrated on ONS2015.
Transport Controller
Transport Network
API
GUI
SSE
GUI
NE2NE6
NE1
NE4
NE3NE5
ODU/PKT layerWDM layer
Service 2
Service 1Service 3
t0 t1 t2 t3 t4 t5 t6
Start-time
End-time
Src Node
Dst Node
Bandwidth
Submit
Service 1Service 2
Service 2
CDPI
Transport Controller
reserve required
resource during working
time.
Start time arrive, and
Transport Controller
setup lightpath for
corresponding service.
Costumer submit
deadline driven services
to Transport Controller.
SSE reschedule the
services by modifying
their working time.
19
Overall GUI of SSE
Advanced Reservation (AR)
requests input panel
Simulation
Topology
Service ListFunctional Button
One Scheduled Service Item
20
Load Migrate via Rescheduling
Heavy Load
Detected
Wei Wang, Yongli Zhao, Jie Zhang, et al., Demonstration of Parallel Service Re-Provisioning over Advanced Reservation enabled Software Defined Optical
Transport Networks, OFC2016, Anaheim, CA, USA, March 2016.
21
Load Migrate via Rescheduling
Load Migration
Wei Wang, Yongli Zhao, Jie Zhang, et al., Demonstration of Parallel Service Re-Provisioning over Advanced Reservation enabled Software Defined Optical
Transport Networks, OFC2016, Anaheim, CA, USA, March 2016.
22
APP demonstrated on ONS2015
23
APP deployment in field trial Locations of three domains:Quanzhou, Xiamen and Fuzhou in Fujian province. 5 cooperating organizations: China Telecom, BUPT, Huawei, ZTE and FiberHome Customers: Data plane property:• Inter-domain links are 10Gbit/s, and intra-domain links are 10Gbit/s.• Supported client interfaces include GE and 10 GE interfaces.
Yajie Li, Yongli Zhao, Jie Zhang, et al., First Field Trial of Virtual Network Operator Oriented Network on Demand (NoD) Service Provisioning over Software Defined Multi-Domain Optical Networks with Multi-Vendor OTN Equipment, ACP2015, Hongkong, China, Nov. 2015, Postdeadline paper
24
Outline
1. Background
2. Software defined elastic optical networks
3. Applications deployment with SD-EON
4. Conclusions
25
Conclusions
Programmability and virtualization are keys to SD-EON
Series of technologies of SD-EON are moving fast to mature
Various applications have been developed in APP store, such as BoD, VON, SSE, SRD, VM.
Different potential applications are to be developed to drive the deployment of SD-EON
26
Thank you for your attention!
Yongli Zhao
State Key Laboratory of Information Photonics and Optical Communications (IPOC),
Beijing University of Posts and Telecommunications (BUPT), Beijing 100876, ChinaTel : +86-10-61198108; Email: yonglizhao@bupt.edu.cn; Web: ipoc.bupt.edu.cn
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