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Volker Lempert Director Business Development
Chisinau, September 2014
Best practices Cost effective lighting of fiber…
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 2 2
Agenda
• Overview ADVA Optical Networking
• Motivation for WDM Networks
• WDM Principles
• WDM Applications
• Deployment Enhancements
• Use Cases
• Summary
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 3 3
Overview ADVA Optical Networking
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 4 4
ADVA Optical Networking Today
We bring differentiation, quality and ease-of-use to next-generation networks
Our MISSION is to be the trusted partner for innovative connectivity solutions that ADVANCE next-generation networks for cloud and mobile services.
Our QUALITY TL 9000, ISO 14001
Award-winning supply chain
Our NUMBERS >1400 employees
€311* million revenue 20 years of innovation
Our CUSTOMERS Hundreds of carriers
Thousands of enterprises
Mission Key Facts
*2013
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 5 5
Our Broad Customer Base
Enterprises
Internet & Cloud
Service Providers
Government & Education
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 6 6
ADVA References in R&E
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 7 7
PIONIER Toward an integrated, digital Europe
Market Vertical
& Solution
FSP
30
00
/ R
esea
rch
&
Edu
cati
on
" Implementation " FSP 3000 / Network Manager
& Service Manager " 2009-today
" Services and Applications " 10G Ethernet any-to-any " Grid & Cloud computing " Virtual Laboratories
" Infrastructure " Meshed Backbone Network " Colorless & directionless
ROADMs
" Key performance " Bandwidth on demand
for science & research " Network flexibility " 100G ready
" Volume " 21 MANs connected " > 100 Nodes " > 6.500 km " > 400 10G Transponder
Network Diagram
“We have worked with ADVA Optical Networking for many years now so they understand the unique needs of a long-haul research and education network,” said Maciej Stroinski, Technical Director of PSNC. “Using the FSP Service Manager, we are now able to set-up high speed services on demand, offering network users throughout Poland access to the content and applications they need, at any time and from anywhere on all-optical links of distances up to 3,000 kilometers.”
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 8 8
" Implementation " 2004 - 2010
" Purpose " NREN, national backbone
" Applications: " GRID computing etc.
" Services " N x 10GbE LAN PHY
" Infrastructure " 28 nodes " 1500 km " 2 rings, including very long
single-span links >30dB " 1 LAD
" Key performance " Early 10GbE LAN availability " Very high-loss single-span
configurations ! HEAnet will upgrade towards GMPLS-controlled ROADM network
! HEAnet also plans to install 100G links
FSP 3000 Reference: HEAnet Towards User-Enabled Networks
FSPF S P
FSPF S P
FSPF S P
FSPF S P
FSPF S P
FSPF S P
FSPF S P FSP
F S P
FSPF S P
FSPF S P
FSPF S P
FSPF S P
FSPF S P
Market Vertical
& Solution
FSP
30
00
/ R
esea
rch
&
Edu
cati
on
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 9 9
" Implementation " 2007-2008
" Purpose " Corporate Backbone " Connecting 10 MANs
" Applications " GRID computing " Data base sharing " IP backbone
" Services " N x 10GbE
" Size " 950 km total fiber length " 1100 academic and
educational sites
" Key performance " Single Fiber Working solution
with excellent reach " Reliable, high speed
connectivity
! Single Fiber Working FSP 3000 with enhanced EDFAs ! Capacity up to 16x10G ! Arnes can use second fiber for interconnecting smaller PoPs
with GbE applications
FSP 3000 Reference: ARNES
FSPF S P
FSPF S P
FSPF S P
FSPF S P
FSPF S P
FSPF S P
FSPF S P
FSPF S P
FSPF S P
FSPF S P
FSPF S P
FSPF S P
FSPF S P
Market Vertical
& Solution
FSP
30
00
/ R
esea
rch
&
Edu
cati
on
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 10 10
Rationale Behind The Need For WDM
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 11 11
Massive Traffic Growth The Need For Optical Networking
Constant traffic growth and Customer demands challenges network architecture
More capacity
More flexibility
Delivery on request
Impossible to predict
location level and timing
Evolution from electrical transmission to SDH/Sonet to WDM
Traffic growth outstrips dropping equipment cost
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 12 12
WDM Principles
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 13 13
TDM -> WDM
Example SDH:
Multiplexing of 4x STM-16 (2.5G) onto 1x STM-64 (10G)
TDM: Time Division Multiplexing
WDM: Wavelength Division Multiplexing Wavelength Division Multiplexing Many wavelengths multiplexed on the same fiber
Types of WDM:
CWDM – Coarse WDM
DWDM – Dense WDM
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 14 14
What is WDM? Comparison to a freeway
WDM
Multiplexer
Optical
Amplifier WDM
Multiplexer
Optical
Add/Drop
Multiplexer
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 15 15
What is WDM?
• Wavelength Division Multiplexing (WDM) combines a number of data channels onto a single fiber pair.
• Each channel is transmitted on a separate color. • The channels are combined using optical filters.
Data Channel 2
Data Channel n
Data Channel 1
Opt
ical
filt
ers
Data Channel 3
Optical Fiber
Transponder
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 16 16
WDM Systems – Transponders
O/E/O Conversion
3R Regeneration
• Re-amplification
• Re-shaping
• Re-timing
Mapping or Framing Examples:
• G.709 Framing
• GFP Mapping
• TDM Multiplexing
• OTN Multiplexing
O/
E C
onve
rsio
n
E/O
C
onve
rsio
n Client Interface
• „grey interface“
• Input e.g. 850nm, 1310nm or 1550nm
• Interface client data type specific e.g. SDH, FC, Eth
Line Interface
• „colored interface“
• G.694.1 for DWDM
• G.694.2 for CWDM
Convert "grey light" to "colored light"
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 17 17
Optical Amplification
Attenuation of transmitted light in fibers
Compensation by optical amplifiers
• Spontaneous emission or noise by amplifiers
• Decreasing optical signal to noise ratio (OSNR) at every amplifier site
Certain OSNR level required by receiver to correctly detect signal
• Limitation of total transmission distance
OSNR requirements vary for different bit rates and therefore this distance depends on data rate per wavelength as well.
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 18 18
OADM Principle
OADM: Optical Add/Drop Multiplexer • Provides Mid-Span access to (any) wavelengths
• Avoids expensive Back-to-Back coupling of transponders
• Fixed filters (FOADM) or flexible filters/switches (ROADM)
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 19 19
Optical Layer Versatility
Flexibly configurable network resources for automated provisioning.
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 20 20
WDM Applications
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 21 21
Private Enterprise Networks
Carrier Infrastructure
Carrier Ethernet Access
Our Solutions Overview
Metro Core
FSP 150
FSP Service Manager
FSP 3000
Automated service delivery and assurance from access to core
Mobile Backhaul
Business Ethernet
Ethernet Wholesale
Broadband Backhaul
Metro Networks
Long Haul
Data Center Connectivity
Low-Latency Networks
Access
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 22 22
FSP3000: Core LH & Metro Network
Agile Core Transport Metro & LH Core
Aggregated
services
IP/MPLS Core Business
Services
Carrier network
(Carrier’s carrier)
Wavelength networking by ROADM & FOADM
Capacity options 40/80 channels
Multiservice Eth, SDH/Sonet, OTN, FC, IB, Video
Bandwidth efficiency by TDM add-drop
Service management
Control plane interworking (UNI)
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 23 23
FSP3000: Metro Network
Metro & Access Broadband & mobile backhaul, business Ethernet
NB/eNB Cell site gateway
PLL
Enterprise
Residential
Routers
CPE
Transparent managed transport
Ethernet Aggregation
Service Multi-plexing (TDM)
CPE
Synchronous Ethernet
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 24 24
FSP3000: Passive Network
Metro & Access Passive Backhaul & Networking
Enterprise
Cell tower
Residential
DSL
Self-managed connectivity by OptojackTM
Passive remote nodes
Outdoor variants
Edge router
CPE
CPE
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 25 25
FSP3000: Data Center Network
Enterprise Data Center Connectivity and special application networks
Disks
Server
FC Switches
FC Switches
Disks
Server
FC Switches
FC Switches
Data Center
Efficient service multiplexing (TDM) up to 100Gb/s
Qualification
Multiple protocol support
Lowest latency Security by integrated encryption
High availability
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 26 26
Further Deployment Options Network Enhancements
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 27 27
Multiservice Application Overview - Native Service Offerings
Gbit/s
SDH
155,52
STM-1
622,08
2.488
9.953
39.813
LAN
OTN
2.666
10.709
43.018
LAN/ WAN
125
1.250
10.312
SAN
200
4.250
8.500
8G FC
10.518
10G FC
1.0625
2.125 ISC-3 Infini
Band SDR
2.500
Infini Band
1xDDR
5.000
Infini Band
1xQDR
10.000
Coupling Link
ISC-2
Mbit/s
103.250
OTU4
111.825
100GbE 40GbE
41.250
OTU3
16G FC
14.025
STM-256
OTU2
10GbE WAN-PHY LAN-PHY
STM-64
FC/ FICON
STM-16
10Gbit/s 100Gbit/s
Video 3G-SDI HD-SDI SD-SDI
DVB-ASI
270
1.485
Gigabit Ethernet
ESCON 2G FC/ FICON
STM-4
2.970
OTU1
4G FC/ FICON
MADI
100
HPC-Cluster
Fast Ethernet
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 28 28
Equipment optimization § Reduced interface count
§ Reduced footprint
§ Reduced power consumption
Traditional core networks § Management silos enforce
operational separation, slowing reaction to traffic changes
§ Layer interconnects drive interface counts
Operational simplification § Integrated management solution
§ Control plane interoperability simplifies path computation and setup
Packet Optical Networking drives network consolidation
One day, all networks will be built this way
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 29 29
PTX/MX/T/M – FSP Integration
§ Key Elements § Juniper T/M-Series Routers § Juniper MX Series Ethernet aggregation Routers § ADVA FSP 3000 DWDM solution
§ Customer Value Proposition 1. Flexible optical interface interworking:
§ T/M: gray and alien wavelength (G.709) interworking over 1200km
§ MX: grey and alien wavelength (10G WAN PHY) interworking
§ PTX: grey and alien wavelength (100G OTN)
2. Control Plane interworking § Transparent router based GMPLS setup of wavelengths
for gray and alien, and multiple protection models (IP level, Optical Level)
3. Network management integration § FSP NM End to End surveillance of native and alien
wavelengths by monitoring FSP 3000 and Juniper router interfaces
4. Integrated Customer Support Process
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 30 30
Automated control plane interworking for
service activation/re-routing
Transponder = demarcation
between layers
GMPLS ENNI
GMPLS ENNI
OSS
FSP NM
NMS Integration: E2E optical Path Monitoring – Option 1
Integration of optical router interface monitoring into
optical NMS (E2E monitoring)
Alarm, performance monitoring
GMPLS
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 31 31
Automated control plane interworking for
service activation/re-routing
Colored optical router interface interworking
Colored IF
GMPLS ENNI
GMPLS ENNI
GMPLS
OSS
FSP NM
NMS Integration: E2E optical Path Monitoring – Option 2
Integration of optical router interface monitoring into
optical NMS (E2E monitoring)
Alarm, performance monitoring
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 32 32
Comparison 10G direct detection
40G direct detection
100G direct detection
100G coherent detection
Spectral efficiency [b/s/Hz]
0.2 (50GHz) 0.8 (50GHz) 0.5 (50GHz) 2.0 (50GHz)
Reach 2500km 1500km 500km 3000km
Cos
t p
er b
/s
Only in first year
! 100G client to 100G network transponder
! 10 x 10G client to 100G network muxponder
ADVA’s 100G High-Speed Options 100G Metro/Enterprise vs. Core
R11.2 R11.2 R11.1/12.1 R12.1
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 33 33
fiber degradation
fiber cut
long-term effects
• Fiber cut protection through software adjustable switching thresholds
• Alarm generation through adjustable min/max fiber attenuation thresholds
• Long term fiber performance information through integrated database
• Intrusion detection through correlation of typical power signatures
fiber intrusion
Security Optical Power Tracking
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 34 34
Fiber Networks Possibilities to tap
Y-Bridges for service activities
Tapping device
Cabinets and splice boxes
(Outdoor / Inhouse)
There are many ways to tap fiber
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 35 35 September 14 InfoGuard AG / Switzerland • www.infoguard.com Page 35
Leaving Light
Cladding: 125 µm
Core: 9 µm
Fiber Networks Ways to „optically tap“
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 36 36
• First with 100G in-flight (line-speed) encryption.
• Bulk encryption includes full header and checksum for integrity.
• Zero overhead means 100% throughput, even with short packets.
• All LAN, WAN, SAN, and HPC traffic can be combined in a single payload.
Security 10G or 100G Encryption
CFP
4x 28G
100G Network
Port
Encryption Engine
10 Client Ports SFP+ 10x 10GbE
10x 4/8G FC
8x 10G FC
7x 16G FC
10x STM-64
10x OC-192
10x 5/10G IB
SFP+ SFP+ SFP+ SFP+ SFP+ SFP+ SFP+ SFP+ SFP+
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 37 37
Protection Options
ROADM/Mux
ROADM/Mux
IF IF IF IF
Trp/Mxp C N
IF IF IF IF
Trp/Mxp N C
Versatile Protection
Optical Restoration
Channel Protection
Path Protection
Client Channel Card Protection
Client Layer Protection
• Prevent single points of failure
• Wide variety of options to protect different parts of the network
• Allows match of required availability to necessary CapEx
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 38 38
Wavelength Grids
and their application space
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 39 39
• 8 ITU-T G.694.2 compliant channels • Single channel, 4 channel or full 8 channel CWDM • Multi line rate support (1G to 10G) • 1310nm grey overlay support • Band splitter A/B-Band for 4 channels each (1310nm
optional) • Suitable for point-to-point, linear add/drop or ring
structures • Later upgrade to DWDM (replacing the B-band) • Passive WDM options w/ enhanced temp range
Wavelength Grids – Agile Select 8 wavelength grid, CWDM (+ 1310nm)
1300nm
A-band B-band
1500nm 1600nm
A-band
10G
1G
4G
1G
4G
10G
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 40 40
C-band
Group λ 1529.55nm 1561.42nm
OSC D01 D32
1 2 3 4 5 6 7 8
• 32 ITU-T G.694.1 compliant channels • 100 GHz channel spacing, multi line rate
support (1G to 100G) • Channel group concept with guard band • Optical unbalanced operation • Multiple filter options, 1 ch, 4 ch, 16 ch • Single channel optical add/drop on a single
slot
Wavelength Grids – Agile Select 32 wavelength grid, DWDM C-band
1G
4G
10G
2.5G
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 41 41
C-band
λ 1530.33nm 1561.42nm
• 40 ITU-T G.694.1 compliant channels • 100 GHz channel spacing, multi line rate
support (1G to 100G) • Multi degree ROADM options • Colorless / directionless add/drop • Multiple filter options, 1 ch, 4 ch, 40 ch
OSC
Wavelength Grids – Agile Select 40 wavelength grid, DWDM C-band
40 channels
19590 19200
100G
1G
4G
10G
2.5G
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 42 42
C-band
λ 1529.94nm 1561.42nm
• 80 or 96 ITU-T G.694.1 compliant channels • 50 GHz channel spacing, multi line rate
support (10G to 100G) • Multi degree ROADM options • Gridless optical layer (25 GHz steps) • Colorless / directionless / contentionless add/
drop • Athermal AWG technology with interleaver • Supported by high power EDFA and Raman
amplifiers
OSC
Wavelength Grids 80 or 96 wavelength grid, DWDM C-band
80 channels
19595 19200
100G
10G
10G
10G
100G
100G
100G
10G 10G
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 43 43
C-band
λ 1529.94nm 1561.42nm
• 120 ITU-T G.694.1 compliant channels • 50/100 GHz channel spacing, multi line
rate support (10G to 100G) • Massive point-to-point transport • Athermal AWG technology with
interleaver
OSC
Wavelength Grids – Agile Select 120 wavelength grid, DWDM C-band + L-band
80 channels
19595 19200 L-band
1569.59nm 1603.17nm
40 channels
19100 18700
10G 100G
10G 100G
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 44 44
ROADM
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 45 45
ROADM Benefit
• Static WDM engineering rules and scalability can be quite complex (every node an OADM):
• Bandwidth and wavelength pre-allocation • Margin allocation for fixed filter structure • Insufficient power management • Network extension requires OEO regeneration
• SDH/Sonet networks are simple to plan: • Access to entire bandwidth at every ADM • Simple engineering rules (single hop only) • Easy addition of new network elements
• Reconfigurable optical layer enables: • On demand bandwidth planning • Extended transparent reach due to power
management per WDM channel • Hitless scalability even in node degrees
ROADM enables scalable engineering rules
Operational enabled by: Control Plane and Service Manager
Typical Sonet/SDH network
with ADMs and DCS Reconfigurable WDM network
with ROADMs
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 46 46
Separated Rings ! Regeneration is a must
! Pre-allocated bandwidth & channel plan
Metro/Regio Core - Access Separation ! Transponder rich
! High cost in case of increasing bandwidth demand
ROADM Static photonic layer
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 47 47
ROADM Dynamic reconfigurable photonic layer
Interconnected Rings ! 4+ Degree Interconnection
! Any wavelength to any ring to any port
Metro/Regio Core - Access Separation ! 3 and 4+ Degree Interconnection
! Fully flexible and scalable
! Optical pass-through from access to metro/regional core
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 48 48
ROADM Key technology
WDM ROADM components are based on two basic elements:
• Dispersive element (grating, prism …) to separate different wavelength in space
• Switching element to redirect separated wavelengths into different paths / ports
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 49 49
line
swit
ch
OSC
OSC
EDFA
OS
FM
EDFA
OSC
OSC
EDFA
OS
FM
EDFA
8x1 WSS
Splitter
OPM
8ROADM-C80
8x1 WSS
Splitter
OPM
8ROADM-C80
OSC
OSC
EDFA
OS
FM
EDFA
8x1 WSS
Splitter
OPM
8ROADM-C80
OSC
OSC
EDFA
OS
FM
EDFA
8x1 WSS
Splitter
OPM
8ROADM-C80
Seamless upgrade of up to 8 degrees + local add/drop
Can trade degrees with further add/drop capacity or directionless switching
Compact setup: two degrees in one shelf including amplifiers
and OSC
ROADM Scalability from 1 to 8 degrees
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 50 50
Control Plane
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 51 51
GMPLS Control Plane RAYcontrol®
Key benefits • Network efficiency
• Improved asset utilization
• Automated network inventory and reuse
• Efficient restoration • Network agility
• Point and click provisioning
• New types of services • New architectural and operations models
Key features • On-demand, real-time provisioning
• Automatic inventory management
• Embedded network intelligence • Based on Standards
Provides topology and resource availability information to all nodes
• OSPF (reachability)
• OSPF-TE (traffic engineering)
• GMPLS-OSPF (optical extensions)
Selects paths within the network (subject to constraints)
• Shortest Path (Dijkstra)
• Kth-Shortest Path (Yen)
• Constrained Shortest Path
Establishes optical services dynamically in real-time
• RSVP (reservations)
• RSVP-TE (tunnel LSP setup)
• GMPLS-RSVP (optical extensions)
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 52 52
1. Automated self-inventory 2. Automated connection management
3. Efficient operations 4. Self-healing network
Network/Service Manager
Network/Service Manager
Planned maintenance works
Migrated traffic
Network failure
Auto-restored traffic
Operational enabling of dynamic optical ROADM networks
GMPLS Control Plane Main applications
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 53 53
Working Path Restoration Path Active Path
Recompute Recompute
GMPLS Control Plane Used for dynamic restoration
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 54 54
Working Path
Restoration Path Active Path
Protection Path
Recompute Re-direct
GMPLS Control Plane Used for hybrid protection/restoration
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 55 55
Managing FSP 3000
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 56 56
Network Elements
FSP Management Overview
Other NE
Network Craft Layer
Network Layer
Service Layer
FSP Network Manager
NCT
Web
G
UI
NCT
CLI
NCT
EM
FSP Service Manager
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 57 57
• FSP NCT Family • NCT’s providing craft level functionality for small clusters of network
elements • Available for FSP 3000, FSP 2000, FSP 150 CP/MX, FSP 150CC
• FSP Network Manager • Complete FCAPS solution for ADVA network elements • Carrier class high availability and scaling • Secure: Operates with 100% encrypted interfaces
• FSP Service Manager • Services and customers centric network management • Rapid introduction of new services and technologies • Accelerated and reliable provisioning processes • Proactive prevention of service-affecting problems • Faster and simplified problem resolution • Efficient statistics collection for flexible SLA options
FSP Management Overview
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 58 58
Network Elements
Managing FSP 3000 Craft
Network Craft Layer
Network Layer
Service Layer
FSP Network Manager
SNMP SNMPv3 with priv
telnet t. over SSH
http https
NC
T W
eb
GU
I
NC
T C
LI
NC
T EM
FSP Service Manager
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 59 59
Network Elements
Network Craft Layer
Network Layer
Service Layer
XML, CSV, SNMP
FSP Network Manager
NCT
Web
G
UI
NCT
EM
NCT
CLI
SNMP Manager
GetRequest/ SetRequest
Traps GetResponse/ SetRespons
SNMP Agent
SNMP
Managing FSP 3000 Network Manager
FSP Service Manager
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 60 60
Network Elements
Network Craft Layer
Network Layer
Service Layer
NCT
Web
G
UI
NCT
EM
NCT
CLI
SNMP to NE and CP part of NE
Managing FSP 3000 Service Manager
FSP Network Manager
SQL FSP Service Manager
Topology Database
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 61 61
OSS system landscape Network
engineering Service
provisioning Service
activation Fault
management Performance management
SLA reporting
FSP Network and Service Manager
End-to-end service and connectivity using Control Plane
Long Haul Metro Access Metro Access
Managing FSP 3000 Service Manager – service centric network view
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 62 62
Use Cases
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 63 63
Metro / Regional Infrastructure Flexible metro and regional transport
Access
Characteristics • Scalable WDM carrier metro infrastructure • Multi-service
• Direct detect and coherent modulation • Fixed, Reconfigurable, Hybrid optical layer
• Multi-service aggregation
Critical Metrics ü Node flexibility for different network
location requirements
ü Service flexibility ü Aggregation efficiency
ü 100G migration ü High Availability
GbE, 10GbE SONET/SDH
10/40/100GbE
40/80ch DWDM
enterprise
Access
broadband wireless
Datacenter / PoP
FSP NM
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 64 64
Wavelengths Services Access Up to 10G/16G Service
Characteristics • GbE, 10GbE • STM-1/4/16, OC-3/12/48
• 1-16G FC • N x SD-SDI/HD-SDI/3G-SDI, DVB-ASI, MADI
• Fixed optical layer • Demarcation & Monitoring
Critical Metrics ü Node flexibility for cost efficiency ü Space & Power efficiency
ü Aggregation efficiency ü Service flexibility
ü Diverse deployment environments ü Demarcation and OAM
R&E, Universities
metro
GbE, 10GbE STM-1/4/16/64, OC-3/12/48/192 1-16G FC, Infiniband SD-SDI, HD-SDI, DVB-ASI, MADI
Metro
Event Site
FSP NM
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 65 65
High Speed Access 100G, 40G and N x 10G Services
Characteristics • Large Enterprise, Datacenter, PoP access • N x 10GbE, 40GbE, 100GbE
• N x 8/10/16G FC • Fixed optical layer
• Demarcation & Monitoring
Critical Metrics ü Access link cost efficiency ü Space & Power efficiency
ü Service flexibility ü Demarcation and OAM
Telehouse / PoP metro
10GbE, 40GbE, 100GbE 8/16G FC
R&E, Universities
FSP NM
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 66 66
End-to-end Connctivity Transparent Wavelength Transport
Characteristics • Wavelength services for R&E, Universities or
datacenter connectivity
• Alien wavelength or transponder termination • 10G, 40G, 100G rates
• Protected at higher layers or optical network protection
• Access, Metro, Regional & Long Haul reach
• Fixed, Reconfigurable, Hybrid optical layer
Critical Metrics ü Transport cost-efficiency with maximum
optical bypass
ü Wavelength scalability to maximize number of tenants
ü Flexible protection options ü 100G service capability ü Monitoring for SLAs
ü Security
10GbE, 40GbE, 100GbE
40/80ch DWDM
R&E, Universities
R&E, Universities
Carrier Hotel / PoP
FSP NM
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Day 1: P2P Alien Wavelength Possible
• Point-2-point connectivity with any bitrate (1G/10G/100G)
• Alien wavelength possible
• Low power/ space consumption
• Lowest possible initial cost
© 2014 ADVA Optical Networking. All rights reserved. Confidential. 68 68
Day 2: Any2Any Network Extension
• Network Extension by transponders at the end-points
• Router off-load / location bypass possible for more cost efficiency
• No change of optical layer
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Day 3: Any2Any Network Flexibility
• Any2Any connectivity by introduction of ROADM device at intermediate site
• Investment protection
• Introduction of network automation
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Summary
• Benefits from ADVA‘s long history and experience with R&E networks
• ADVA‘s solution grows with network demands • Lowest possible capex and opex on day 1 • Smooth migration and investment protection
• One platform for all needs • Access: lowest cost • Metro: aggregation capabilities • Long Haul: long distance and high capacity
Thank you
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