NEC Corporation MSIP Solution - suboptic.org · He started his career at NEC Corporation as a...
Transcript of NEC Corporation MSIP Solution - suboptic.org · He started his career at NEC Corporation as a...
MSIP SolutionMSIP Solution
Daiki MiwaDaiki Miwa
& Its Impact on Submarine Cable System& Its Impact on Submarine Cable System
(Multi-Service Integrated Platform)
NEC CorporationNEC Corporation
Presenter Profile
Mr. Miwa graduated from National University of Shinshu, Japan in 1999 where hemajored in Electrical and Electronic Engineering. He started his career at NECCorporation as a system engineer with a focus on Digital switching systems, IP routersand access servers, and was in charge of system engineering for various solutions foraccess network applications. He has been responsible for system engineering ofsubmarine cable systems for major carriers around the world since 2002. He hasengaged in various submarine cable system projects in North and Latin America as wellas in Asia. This includes new cable system construction and capacity upgrade projectsof both Repeatered and Un-repeatered applications.
Daiki MiwaAssistant Manager
+81-3-3798-4153
Transition of Demands in Submarine Cable System
Transition of Demands in Submarine Cable System
Current Topics
Smaller Footprint & Power Consumption Lower Board Failure RatesSimpler System Management
Conventional Requirements
Longer Distance & Larger Capacity High-speed Recovery High System AvailabilityVarious Service Transport25 year Design Life
Toward NGN
Optimization for IP traffic transmissionSystematic management with IP networkEffective Use of Bandwidth
CAPEX/OPEX Reductions
Migration to IP based Network
Multi-Service Integrated Platform (MSIP)Multi-Service Integrated Platform (MSIP)
Fundamental Reform inEquipment Configuration
Capability of Various Ethernet Services
CAPEX/OPEX Reductions Migration to IP based Network
MSIPMSIP
= MSP x SLTE (= O-E-O OXC)(NG SONET/SDH)
Conventional Equipment ConfigurationConventional Equipment Configuration
TPND
TPND
TPND
TPND
MUX/DMUX
Aggregate
Aggregate
Aggregate
Aggregate
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Tributary
Tributary
Tributary
Tributary
STM-64
STM-64
STM-64
STM-64
MSP(NG SONET/SDH) SLTE
Various Service TransportsSONET/SDH, PDH & Ethernet
Longer Distance & Larger Capacity
High density WDMUltra Long-haul transmissionVarious modulation format (NRZ & RZ)
High-speed Recovery & High System Availability
Various network protection schemes (MSP, MS-SPRing, SNCP etc.)
IP traffic transmission technologiesGFP, LCAS, VCAT & RPROTN
MSIP ConfigurationMSIP Configuration
TPND
TPND
TPND
TPND
MUX/DMUX
Aggregate
Aggregate
Aggregate
Aggregate
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Tributary
Tributary
Tributary
Tributary
STM-64
STM-64
STM-64
STM-64
MSP(NG SONET/SDH) SLTE
MUX/DMUX
Colored IF
Colored IF
Colored IF
Colored IF
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Tributary
Tributary
Tributary
Tributary
MSIP
(Conventional Configuration) (MSIP Configuration)
Simplified Equipment Configuration
MSPEMS/NMS
SLTEEMS
MSPEMS/NMS
Simplified System Management
Same transmission performance as that for
SLTE
Colored Optical Interface for Submarine Applications
Colored Optical Interface for Submarine Applications
Terrestrial Colored IFFor Metro Area Network
Advanced FEC
Suppression of SBS
NRZ/RZ modulation
For SubmarineApplications
> 9,000km DWDM transmission (Repeatered)
400km DWDM transmission (Un-repeatered)
Features of MSIPFeatures of MSIP
TPND
TPND
TPND
TPND
MUX/DMUX
Aggregate
Aggregate
Aggregate
Aggregate
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Tributary
Tributary
Tributary
Tributary
STM-64
STM-64
STM-64
STM-64
MSP(NG SONET/SDH) SLTE
MUX/DMUX
Colored IF
Colored IF
Colored IF
Colored IF
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Tributary
Tributary
Tributary
Tributary
MSIP
(Conventional Configuration) (MSIP Configuration)
Simplified Equipment Configuration
Simplified System ManagementCAPEX/OPEX
Reductions
Maintain Same Transmission Performance as for SLTE.Maintain SLTE & MSP functionality as it is.
Impact on Submarine Cable SystemImpact on Submarine Cable System
Simplified Equipment Configuration
Simplified System Management
Power Consumption Reduction
Board Failure Rates Reduction
Terminal Equipment Cost Reduction
Operation Cost Reduction
Reduction of Operators’ Loading
Significant Impact on Various Factors10Gb/s TPND & Aggregate interfaces comprise a large percentage of various equipment parameters.
Management Equipment Cost Reduction
Reduction of Managed Equipment
OPEX OPEX
CAPEX
MSIP ApplicationMSIP Application
MSIP
Repeatered/Un-repeatered Systems
New Cable System/ Capacity Upgrade
Topology Free
Performance of MSIP already verified in the actual systemsApplied to Various Applications.Include Capacity Upgrade of Existing System installed by Others.
Summary of MSIPSummary of MSIP
Conventional Requirements
Longer Distance & Larger Capacity High-speed Recovery High System AvailabilityVarious Service Transport 25 year Design Life
Performance Functionality
Application
Current Topics
Smaller Footprint & Power Consumption Lower Board Failure RatesSimpler System Management
Added Value
Same transmission performanceSame functionalityNo restriction of applications
Substantial Improvements in CAPEX/OPEX;
Reductions in Equipment & Operation CostsBoard Failure Rates ReductionPower Consumption Reduction
Further Functional EnhancementsFurther Functional Enhancements
Toward NGN
Various IP traffic transmission technologies already supported.
GFP, LCAS, VCAT & RPR
In addition, MSIP capable of supporting GMPLS.
Optimize traffic routing
Improve efficiency of bandwidth usage
Reduce risk of simultaneous failure of working and protection paths
Longer Distance & Larger Capacity
MSIP capable of supporting RZ-DPSK modulation.
2.5dB improvement in OSNR tolerance
ConclusionConclusion
Current Topics
Smaller Footprint & Power Consumption Lower Board Failure RatesSimpler System Management
Conventional Requirements
Longer Distance & Larger Capacity High-speed Recovery High System AvailabilityVarious Service Transport 25 year Design Life
Toward NGN
Optimization for IP traffic transmissionSystematic management with IP networkEffective Use of Bandwidth
MSIP will be the optimum solution to satisfy both Today’s & Future demands.