1 IPASO VR Introduction

iPASOLINK VR SERIES Introduction

November, 2015 Masayoshi Higashiyama ( William Tan) [email protected]

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NEC’s Mobile Backhaul Portfolio Enhancement NEW ACCESS

AGGREGATION

PRE-AGGREGATION

iPASOLINK SX (V-band)

iPASOLINK EX (Ether) (E-band)

iPASOLINK iX (6-42GHz)

iPASOLINK EX (CPRI) (E-band)

METRO

5000iP Series (Long Haul)

iPASOLINK GX (Outdoor Router)

iPASOLINK 100E iPASOLINK 100A / 200A iPASOLINK 100 / 200

iPASOLINK 400/400A

iPASOLINK BR (multi-channel combiner)

iPASOLINK 1000

iPASOLINK VR Series

4096 QAM

iPASOLINK VR2

iPASOLINK VR4

Compact ODU High Power ODU

112 MHz

iPASOLINK VR10

Shared resources

Spectrum resources 1

Sub6GHz

10

20

30

Licensed Band 6-42GHz

40

50

60

V-Band 59-63GHz

70

80

90

E-Band 71-86GHz MWS-E0017E-01

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iPASOLINK VR Series (Converged Packet Radio) iPASOLINK VR is NEC’s most advanced and comprehensive optical and radio converged transport product family, providing solutions for backhaul optimization and cost efficient integration of both TDM and carrier-class Ethernet network and versatile and smooth migration from TDM to IP next generation network. . iPASOLINK VR2

ü up to 2-way Radio ü Redundancy üPDH and All IP ü Pay as you grow architecture ü Low cost Compact design üNatural Cooling

iPASOLINK VR4

iPASOLINK VR10

ü up to 5-way Nodal Radio ü Redundancy ü Three Universal Slots ü PDH/SDH and All IP ü Pay as you grow architecture ü Low cost Compact design

ü12-way Nodal Radio ü Redundancy ü14 Universal Slots üPay as you grow architecture üPDH/SDH and All IP ü High Speed 10GbE INTFC ü CWDM MWS-E0017E-01

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What’s New ALL IN ONE MODEL (WITH HIGH CAPACITY, HIGH FLEXIBILITY) • Universal Transport for Wired and Wireless OVER 1GBPS WIRELESS TRANSPORT • Ultra High Modulation (4096QAM), Ultra Wideband (112MHz) 10G OPTICAL TRANSPORT • Seamless connectivity with Optical Transport SWITCH BYPASS FEATURE FOR ULTRA LOW LATENCY • Physical level path management for Multi-service traffic HIERARCHICAL QoS (H-QoS) Mode or MPLS-TP Mode Selection • Multiple VLAN service with multiple priority or MPLS-TP functions supports PAYLOAD COMPRESSION • Maximize L1 throughput with Multilayer compression BANDWIDTH NOTIFICATION • Resource optimization with Bandwidth Information Exchange MWS-E0017E-01

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All in One (with High Capacity wired & wireless transport) ▌ ▌ ▌ ▌ ▌ ▌

Wired and Wireless Converged Node with High-speed interface N x 1G/10G with CWDM (Optical) capability > 1G wireless transport with High modulation, Wideband radio, etc Smooth transformation to a high capacity wired & wireless transport High flexibility with optional universal card Slots Application with high capacity millimeter wave AOR

Wired Transport

Wireless Transport AOR

All-in-One ODU

N-way Radio High modulation Wide band MIMO* ( >1G )

High Speed Interface 1G/10G x N (CWDM) ( >10G )

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Ultra multi-level modulation (4096QAM) implementation ▌ NEC is the pioneer in ultra high modulation l l

Has achieved 1Gbps transmission with 2048QAM in commercial use Developing 4096QAM to give more flexibility to support large capacity

▌ More than 1Gbps full transmission radio w/o compression ▌ Reduce Bit Cost: 83 % OFF (QPSK => 4096QAM)

More than 1Gbps 48% up

36% up

25% up

2048QAM

1024QAM 11% up

512QAM

4096QAM

Commercial use 1Gbps

256QAM

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Over 1Gbps wireless transport (on Licensed band) ▌ Enable over 1Gbps optical fiber-level transfer rate with single-carrier and single polarization without any compression techniques l Ultra-multilevel modulation (4096QAM) leading the industry l Wide Band channel (112MHz) 112MHz / 4096QAM

28MHz / 2048QAM V

V

H

H

Two Carriers

V or H 112MHz

Aggregation Dual Polarized (XPIC)

Single carrier Single polarization

28MHz 28MHz

over

1Gbps

• No XPIC • No Aggregation • No compression

1Gbps x1.5

256QAM

4096QAM

x4

28MHz

112MHz

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Radio aggregation with dedicated link for low latency Achieve physical level (L1) path aggregation for Multi-service traffic Enable to aggregate the dedicated radio link for ultra low latency service and other radio links by XPIC

XPIC

MODEM MODEM

XPIC MODEM

Dedicated pipe for ultra low latency

MODEM

MODEM

(ultra low latency & mobile service)

Dedicated pipe

Aggregated traffic

V H

• •

For Low latency Switch Bypass Ultra low latency

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Bandwidth maximizer for more L1 throughput ▌ Maximizing radio capacity utilization by using industry-proven multi layer compression technique ▌ Achieve ultra low latency compression

Bandwidth Maximizer

FCS

Payload

Bandwidth Maximizer Compressed Payload

Header IFG

idx

Capacity [Mbps] @ 56MHz

Enable transmit more packets at same capacity

30% to 200%+ L3 Compression L2 Compression IFG/PRE Suppression

FCS

Payload

Header IFG

l Multi-layer header compression l Highest capacity gain; 30% @Typical traffic and > 200% @ Shorter packet traffic of voice & text intensive packets l Properties are completely preserved l In addition, Lempel-Ziv based data compression will be available, if it fits on network SLA.

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iPASOLINK VR4 Transmission Specification

Flexible Converged Node for Accesses and Aggregation with up to 5way Nodal. 1U with Main card and 3 Universal Slots. Advanced Ethernet Functionalities Main Card Ports: 8 x 1GbE (4 x RJ45 + 4xSFP) or 6 x 1GbE and 2x10 GbE VLAN ・ Port-based VLAN ・ 802.1Q Tag-based VLAN ・ 802.1ad Provider Bridges QoS ・ 802.1p CoS / ToS /Diffserv/ - MPLS EXP / VLAN ID - Hierarchical QoS ・ Advanced QoS (for AMR) Switch Bypass Synchronous Ethernet IEEE1588v2 (TC & BC) RSTP (802.1w), MSTP ERP ITU-T G.8031, 8032V2 Ethernet OAM, IEEE802.1ag, ITU-T Y1731 Link OAM IEEE802.3ah Link Aggregation 802.3ad with LACP Header Compression (L2/L3) MPLS TP

Frequency bands: 6 to 42 GHz Radio Transmission Capacities: -QPSK/16/32/64/128/256/512/1024/2048/4096* QAM - Hitless-AMR - LDPC FEC - Transmission Bandwidth 7,14,28,40&56,112*MHz - MTPC / ATPC - Any combination of PDH / LAN traffic Interface :10/100/1000 Base-T 1000 Base-SX / LX 10 GbE 16 x E1 3 Universal slots: 2x STM-1, Modem A/AE, GbE…..

Scalability and Flexibility Pay as you grow concept - software upgrade Flexible configuration - 1+0, 2 to 5 (1+0), 1+1 HS/SD/FD, XPIC (1+0),APS - Radio Traffic Aggregation (L1, L2, L3) - 388x388E1 Cross Connect SW (4 x STM-1) - PWE (SAToP) - DHCP Server/Relay Function - TDM Ring Protection (SNCP) - In-Band DCN - 2 Port (PoE) support

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9

iPASOLINK VR10 Transmission Specification

Flexible Converged Node for Aggregation and Metro with up to 12 way nodal. 3U with Main Card and 14 Universal Slots.

Advanced Ethernet Functionalities

Ports: 4xGbE-A=16x(1GbE)+10xGbE2 =20 x(1GbE) 2 x XGbEMV (10GbE) VLAN ・ Port-based VLAN ・ 802.1Q Tag-based VLAN ・ 802.1ad Provider Bridges QoS ・ 802.1p CoS / ToS /Diffserv/ - MPLS EXP / VLAN ID ・ Advanced QoS (for AMR) - H-QoS - Synchronous Ethernet /IEEE1588v2 (TC & BC) - RSTP (802.1w), MSTP - ERP ITU-T G.8031, 8032V2 - Ethernet OAM, IEEE802.1ag, ITU-T Y1731 - Link OAM IEEE802.3ah - Link Aggregation 802.3ad with LACP - Header Compression (L2, L3) - MPLS-TP

Frequency bands: 6 to 42 GHz Radio Transmission Capacities: -QPSK/16/32/64/128/256/512/1024/2048/4096* QAM - Hitless-AMR - LDPC FEC - Transmission Bandwidth 7,14,28,40&56,112*MHz - MTPC / ATPC - Any combination of PDH / LAN traffic Interface :10/100/1000 Base-T 1000 Base-SX / LX 10 GbE 16 x E1 STM-1 14 Universal slots: 2x STM-1, Modem A/EA, GbE…..

Scalability and Flexibility Pay as you grow concept - software upgrade Flexible configuration - 1+0, 1+1 HS/SD/FD,XPIC (1+0)/(1+1), APS - Radio Traffic Aggregation (L1,L2,L3) - 975x975 E1, (14 STM-1) Cross Connect SW - TDM Ring Protection (SNCP) - DHCP Server / Relay Function - PWE (SAToP ) - CWDM - In-Band DCN - 6 Port PoE support

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10

iPASOLINK VR (Split Radio) Functions, Features and System Performance

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FEATURES-1 COMPACT AND RELIABLE PLATFORM • Very compact and light platform for easy installation setup 1U IDU (VR2/VR4) 3U (VR10) • Graphical user interface (GUI) with WEB browser • Command line interface (CLI) with SSHv2 (secure shell version 2) High reliability and quality backed by excellent field proven MTBF Low Power consumption: adoption of high efficient RF components

VERSATILE RADIO SECTION • High modulation up to 2048 QAM (VR2/VR4/VR10)for Native Ether and TDM • High modulation up to 4096 QAM (VR4/VR10) (future with new modem)RL.2 • High system gain using LDPC FEC and Linearizer techniques • Higher BW with 112 MHz (Future with new modem) RL.2 • Adaptive modulation Radio (AMR) • cross polarization interference canceller. (XPIC) •Double transmission capacity up to 1240 mbps in 56 MHz BW (2048 QAM) • Enhanced system gain with new ODU ( IAG/IAP) • Frequency agility and easy tuning using sub-band free ODU

iPASOLINK Introduction

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FEATURES-2 Common Features • Provide more transport flexibility & reliability • Operation continuity and upgradability • Customer benefit

Advantages • High capacity transmission • Co-Channel dual polarized (XPIC) • Double Capacity Ring • LOS MIMO • Bandwidth Maximizer* • Radio Bandwidth Notification* • Converged Node with flexibility • Variety of interfaces; (Radio, Ethernet, PoE, TDM, CWDM..) • Carrier-grade IP functionalities • non-blocking forwarding performance • Advanced QoS (H-QoS) • Superb OAM • MPLS • Full synchronization support (TDM, Sync ETH, 1558v2., ACR, External clock • SDN (BRM / OpenFlow) ready

* Future

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FEATURES-3 INTERFACES • Ethernet Interfaces • 1 GbE (Electricl) /(Optical) • 1 GbE (PoE)(VR4/VR10) • 10 GbE (optical)(VR4/VR10) • TDM Interfaces • E1 • STM-1 (Through/Channelized) VR4/VR10 • CWDM high speed Interfaces VR4/VR10

INTERFACES – VR2 Main Board • 4 x 10/100/1000 Base-T(X) • 2 x 1000 Base-SX/LX SFP • 16 x E1 main board

INTERFACES – VR4 Main Board • 4 x 10/100/1000 Base-T(X) • 4 x 1000 Base-SX/LX SFP or 2x 1000Base-SX/LX + 2x 10 GbE Base-SR/LR/ER • 16 x E1 main board and 16E1-A (US)

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FEATURES - 4 INTERFACES – VR4 Universal slot • 16 x E1 (Universal slot) • 2 x STM-1 optical /electrical (Universal slot) • 2 x 10/100/1000 Base-T(X), 2 x 1000 Base –SX/LX SFP (Universal slot) • MSE (Multi Service Engine) 64 x E1 PWE card (Universal slot)

INTERFACES – VR10 • 16 x E1 card (Universal slot) • 2 x STM-1 optical /electrical (Universal slot) • 2 x 10/100/1000 Base-T(X), 2 x 1000 Base –SX/LX SFP (Universal slot, 4 Cards) • 4 x 1000 Base –SX/LX SFP (Universal slot, 4 Cards) (Future) • 2 x RJ-45, 2x SFP & PoE support for AOR (Universal Slot ,14 cards) (Future) • 10 GbE SR/LR/ER SFP+ (Universal slot) (2 Cards) • MSE (Multi Service Engine) 64 x E1 PWE card (Universal slot, 2 Cards) SAToP (RFC4553) • CWDM High speed interface • Redundant Main card (TDM/L2 Switch matrix with CPU) • Fourteen front mounted universal slots are available for Modems and option interface cards

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FEATURES - 5 ADVANCED QoS FUNCTION – VR2/4/10 Enhanced QoS functions Packet classification functions based on: (802.1p, IPv4 Precedence, IPv4/IPv6 DSCP. MPLS TC(EXP) / Port / VLAN ID) Bandwidth Management (Traffic shaping, CIR/EIR policing per port/VLAN/CoS) Class mapping (4 or 8 Class queues for QoS control) Congestion avoidance mechanism (WTD or WRED) Flexible Scheduling (Deficit-weighted round robin or strict Priority) Hierarchical - QoS

ETHERNET / VLAN – VR2/4/10 VLAN functions on layer 2 based carrier network VLAN table size 4094 group (VLAN 1 ~4094) Port based VLAN, tag based (IEEE 802.1Q), Provider bridge (IEEE802.1ad) Support Jumbo frame (FE < 2000 , GbE < 9600) Redundancy Function:RSTP(IEEE802.1W)/MSTP for redundancy loop prevention Ethernet Ring (G.8032) Link aggregation (IEEE802.3 ad) with LACP MWS-E0017E-01

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FEATURES - 6 HYBRID SWITCHING FUNCTION – VR2 •TDM Cross connect: max 168 x 168 E1 left and right hand routes •Support SNCP •Packet Switching: up to 16 Gbps

HYBRID SWITCHING FUNCTION – VR4 •TDM Cross connect: max 388 x 388 E1 left and right hand routes •STM-1 up to 4 x 4 •Support SNCP •Packet Switching: up to 80 Gbps

HYBRID SWITCHING FUNCTION-VR10 •TDM Cross connect: max 975 x 975 E1 left and right hand routes •STM-1 up to 14 x 14 •Support SNCP •Packet Switching: up to 104 Gbps Redundant Main card (TDM/L2 Switch matrix with CPU)

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FEATURES - 7 SYNCHRONIZATION •High Accuracy clock supply for clock synchronization •Support both native TDM and synchronous Ethernet for clock reference •iPASO – VR2 IEEE 1588v2 support TC •iPASO – VR4 IEEE 1588v2 support TC/BC •iPASO – VR10 IEEE1588v2 TC/BC •Support external clock input / output •Adaptive Clock Recovery for PWE •NE clock selected from 3 sources based on quality mode or priority mode

PROTECTION SCHEMES •E1 Ring Protection •Automatic Protection switching (APS) for STM-1 for VR4/VR10 •RSTP / MSTP, G.8031 Linear Protection, G.8032v2 Ether Ring protection •Timing source protection Priority or Quality •Hot Standby and Twin path for radio protection •Radio Traffic Aggregation

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Scalable Modular Architecture - Universal Slot VR4 series

3 Universal Card Slots

Universal Slots Universal Interface Card（Modem/INTFC) can be mounted on Universal Interface Slots l Universal Interface Slot ü MODEM card A/EA MODEM

ü INTFC card 4xGbE 16E1

etc. 10 GbE

STM-1

ü Multi-function card VR10 series

MSE

üCWDM card

14 Universal Card Slots

CWDM

üVR Series Universal cards 10 GbE

GbE -AV

GbE –2AV

Modem AV

l Main Card (Not a common card) üCPU / Main SW (L2/TDM) / CLK ü LCT,

l Term Card ü NMS/NE port / Ext clk MWS-E0017E-01

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iPASOLINK VR RADIO CONFIGURATIONS iPASOLINK VR10 Slot No.

1

Redundancy Group

2

3

4

SWGRP1

5

SWGRP2

6

7

SWGRP3

8

9

10

11

SWGRP4

12

13

SWGRP5

14 SWGRP6

(1+1)Hot standby

No1

No2

No1

No2

No1

No2

No1

No2

No1

No2

No1

No2

(1+1)Twin Path

No1

No2

No1

No2

No1

No2

No1

No2

No1

No2

No1

No2

XPIC GRP1

(1+0) XPIC

Master

XPIC GRP2

Slave

Master

XPIC GRP3

Slave

Master

Slave

(1+1) XPIC GRP1

(1+1) XPIC

Master1

PRTA 2(1+0)

Master2

Slave2

Radio GRP2

Master1

Master2

Slave2

Master1

Radio GRP 4

3

4

Master2

Slave

Slave1

Radio GRP5

5

Main Board

Main Board No1

No2

SWGRP1

iPASOLINK VR2 3

4

5

No3

No4

No5

SWGRP2

Slot No. 2 x (1+0)

Main Board No.1

Redundancy Group

Slave2

Radio GRP6

No1

No2

No1

No2

(1+1)Hot standby

No.1

(1+1)Twin Path

No1

No2

No1

No2

(1+1)Twin Path

No.1

XPIC GRP1 Master

Slave

XPIC GRP2 Master

Slave

(1+1) XPIC

(1+0) XPIC

1

2

3

4

5

6

7

8

9

MC-MV

10

MC-MV

11 Term

12

13 PS

14 PS

N0.2 SWGRP1

(1+1)Hot standby

PRTA 2(1+0)

Master

SWGP2

iPASOLINK VR4

(1+0) XPIC

Slave

(1+1) XPIC GRP3

Radio Switch Group-2

SWGP1

1 2

N x (1+0)

Master

XPIC GRP6

Radio SW Group-1

MIMO*

Redundancy Group

Slave

Slave1

Radio GRP3

Radio SW Group-1

PRTA N links (N >4)*

Slot No.

Master

XPIC GRP5

(1+1) XPIC GRP2

Slave1

Radio GRP1

PRTA (3 to 4 links)*

XPIC GRP4

N0.2 N0.2 XPIC GRP1

Master

Slave

(1+1) XPIC Radio GRP1

Radio GRP2

PRTA 2(1+0)

Radio GRP1

* Future Release MWS-E0017E-01

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iPASOLINK VR universal slot mounting & Interfaces iPASOLINK VR 10 Slot No.

1

2

3

4

5

6

7

8

9

10

11

12

13

14

Modem EA / A Modem AV*(112MHz/4096 QAM) GbE-A (2RJ45+2SFP)

3 Ports

GbE-AV (4SFP)

3 ports

GbE-2AV (2RJ45+2SFP) 2GbE XGbE-MV STM1-A 16 E1-A MSE-A** CWDM-A/B

iPASOLINK VR4

1

2

3

4

6

7

8

Slot No.

Main Board

3

4

5

5

Modem

In-built modems

EA / A

EA / A

EA / A

9

Modem AV*

In-built modems

AV*

AV*

AV*

10

GbE-A

11

GbE-AV

Term

GbE-2AV

MC-M MC-M 12

13 PS

14 PS

XGbE-MV STM1-A 16 E1-A

16E1 Main Board

MSE-A***

* Future Release ** 2X MSE card can be used with SW Key for more than 64E1 PWE. And *** 1x MSE card only MWS-E0017E-01

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Interfaces VR2

VR4

VR10

1000 >>VR10

Nodal Solution

2 way

5 way

12way

12 way

Universal Slots

non

3

14

14

Modems ( in built Main Card)

2

2

non

non

Universal Slot Modem A/ EA

non

3/3

12 / 12

12 / 12

No modem

??

yes

yes

??

E1 Interface (main)

16 x E1

16 x E1

non

non

16 E1 A card (US)

non

Up to 3

Up to 14 card

Up to 14 cards

STM-1 Interface

non

2 x STM-1 (US) x 3

2x STM-1 (US) x14

2 x STM-1 (US) x 14

4 x RJ-45 + 2x SFP

4xRJ-45 + 4xSFP

non

non

GbE-A (US)

non

2xRJ45 + 2xSFP (US 1 to 3)

2xRJ45 + 2xSFP (US 9 to 12)

2xRJ45 + 2xSFP (US 9 & 10)

GbE-AV (US)

non

(4xSFP) (US 1 to 3)

(4xSFP) (US 9 to 12)

non

GbE-2AV (2 ports out of 4) 1Port PoE

non

3US (2xRJ45+2xSFP)

14 US (2xRJ45+2xSFP)

non

10 GbE interface Main Board

non

2

non

non

XGbE-MV (US)

non

non

2

2

MSE-A (PWE)

non

1 (2 TBD)

PoE Support

non

2 ports

6 ports

TBD

Power supply

2x Power supplies

2 x Power supplies

2 x Power supplies

2 x Power supplies

non

non

non

Non

Support

Support

1GbE interface (Main)

AUX-S (DI-DO, EOW B-B) CWDM Card (US) Clock module IEEE 1588v2 TC/BC Redundant Main Card

2 Card

128xE1 (PWE)

2 Cards128 E1 (PWE)

(CLK-CV) 002

(CLK-CV)002 or 001

CLK-MV

CLK-MV

TC

TC / BC

TC / BC

TC / BC

Support

Support

US-Universal Slot MWS-E0017E-01

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Function List Function

VR2

(1+1) Radio protection (HS/SD/TP) (1+0) XPIC (1+1) XPIC Adaptive Modulation Radio Channel Spacing Radio aggregation L2 Radio Aggregation L1: 2(1+0) Radio Aggregation L1: 3 to 4(1+0)(R2) Radio Aggregation L1: 8(1+0)(R2)

1 group 1 group non QPSK to 2048 QAM 7/14/28/40/56MHz Up to 2 links 1 group Non non

SNCP E1 Ring Protection STM-1 APS Protection TDM XC SW Capacity TDM STM-1 Thru Capacity CLK Synchronization Synchronization modes Adaptive Clock Recovery IEEE 1588V2 Maintenance TDM INTFC LB Maintenance Modem IF LB Maintenance L2 LB modem Maintenance L2 LB Port Maintenance L2 LB VLAN Link OAM LB FAN Control

yes non 168 x 168 non

No TC Yes Yes Yes Yes yes yes

VR4

VR10

1000 > VR10

Up to 2 groups Up to 6 Groups Up to 6 Groups Up to 2 groups Up to 6 groups Up to 6 groups non Up to 3 group Up to 3 groups QPSK to 2048 QAM (4096 QAM * future) 7/14/28/40/56MHz (112 MHz)* 7/14/28/40/56MHz Up to 4 links Up to 8 links Up to 8 links 2 groups 6 groups 6 groups non 2 groups 2 groups non 1 group 1 group yes Card/line protection 388 x 388 4

yes Card/line protection 975 x 975 14

TDM / Sync E /EXT CLK Priority or quality level Yes Yes TC / BC Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes

yes Card/line protection 975 x 975 14

Yes TC / BC Yes Yes Yes Yes Yes Yes

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Function List Function

H-QoS Switch bypass RL.2 Ingress / Egress Filter VLAN Swap QoS VLAN Groups Ether OAM IEEE 802.1ag, ITU-T Y1731 Link OAM IEEE 802.3ah Ethernet Loop prevention Ethernet Linear Protection (EPS)* Ethernet Ring Protection (ERPS) IEEE 802.1q IEEE 802.1ad VLAN group Jumbo Frames MAC Address Learning QoS Classification 4 Level QoS Classification 8 level Policing Congestion avoidance LAG (LACP )-Line Link Loss Forwarding Broadcast storm Control

VR2

yes yes yes yes 8x8/4x8/8x4 CC/LB/LT/DM/LM yes

VR4

VR10

1000 > VR10

yes yes yes yes yes yes yes yes 8x8/4x8/8x4 8x8/4x8/8x4 CC/LB/LT/DM/LM CC/LB/LT/DM/LM yes yes RSTP / MSTP yes Major and Sub Ring Access Trunk Tunnel C-Access S-Trunk C-Bridge 4094 yes Yes (32K) SP or DWRR or SP+DWRR SP or DWRR or SP+DWRR Two rates (CIR/EIR) Three color WTD / WRED Packet layer yes yes

yes yes yes yes 8x8/4x8/8x4 CC/LB/LT/DM/LM yes

Major and Sub Ring

Color aware policer

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iPASO VR4 Layout and Configuration Options Universal Slot-Cards

Main Board Changeable

4xGbE [4xRJ45, 2x(SFP)] EXT CLK

ODU Interface

1U

Modem-A /Modem-EA

USB SLOT ODU PS SW

LCT / NMS 16 x E1 INTFC

16 x E1 TDM INTFC

Channelized STM-1(or 2xSTM-1)

Universal Slot-3

GND LED Indication (Status/Alarms)

Multi Service Engine

Universal Slot-4

4 x GbE (RJ-45) NE1 or User Port1

FAN Cooling Universal Slot-5

Power input SFP 4xGbE or 2x GBE + 2X 10GbE

Name

Order Code

MDP-1200MB-1AA

NWA-096340-001-01

Optional Power input

MC-AV Main Board Removable

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iPASOLINK VR10 –Slots and Module configuration 14 x Universal Slots 4xGbE [2xRJ45, 2x(SFP)] Channelized STM-1(or 2xSTM-1)

GbE INTFC FE1 / FE2

Multi Service Engine

SFP 2xGbE

16 x E1 TDM INTFC

Modem A/EA

16 x E1 INTFC

CWDM

2xSTM-1 INTFC

Main Card1 Redundant Main Cards Main Card2

NMS/ NE1

CLK?

Power Supply-1

OW Jack

Power Supply-2 10 G INTFC

FAN Unit

Protect SW Call Button Name

USB Memory Slot

Order Code

Remarks 12 Universal slots, MC-MV main Card

MDP-1200MB-1BB

NWA-096320-001-01 TERM – MV , FAN-MV, PS-MV

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iPASOLINK VR4 Block diagram

Native TDM line

E1 INTFC

CPU

8Gb LAN INTFC 4RJ-45+4SFP

DXC

MUX/DEMUX

L2 SW

Clock Module EXTCLK

MODEM EA MODEM

To ODU

Native Packet line

Universal slot (3)

Modem A / EA 2 xSTM-1

Universal slot (4)

16 x E1 4 x GbE

Universal slot (5)

MSE

Power Supply

-48V

options

Power Supply

FAN Module

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iPASOLINK VR10 IDU Block Diagram Modem A/EA 16 x E1 INTFC 2x STM-1 MSE (64xE1 PWE)

Universal Universal #n Universal slotslot #n-1 Universal slotslot #1 #2

CWDM Universal slot

HSI slotHSI 2 slot #

4 x GbE

10 GbE

Native TDM Bus Native Packet Bus FAN1

Control Bus NMS/NE1 TERM-M

TDM SW

L2 SW

CPU EXT CLK PS PS

Main Board (Redundancy)

Optional Clock Synchronous Ethernet

PS

- 48V

- 48V Optional redundant Power supply

FAN2 MWS-E0017E-01

28

iPASOLINK VR2 / VR4 Indicators

TX 1 2

RX 1 2

TX 1 & TX2 ON: SYS1 & 2 Transmit Status RX 1 & RX2 ON: SYS1 & 2 Reveive Status TX 1 2

RX 1 2

LAN Por1 to 6 (Green) ON: LAN Link UP Status Blink : when data TX/RX OFF: Link down

MAINT ON; Maintenance ON Protect SW ON

ALM ON;IDU Total Alarm OFF: Normal Operation

PWR1 & 2 ON : Power on OFF: Power OFF / ALM

Blink :During CPU Boot up When Accessing USB

LAN Por1 to 8 (Green) ON: LAN Link UP Status Blink : when data TX/RX OFF: Link down

MAINT ON; Maintenance ON Protect SW ON

ALM ON;IDU Total Alarm OFF: Normal Operation

PWR1 & 2 ON : Power on OFF: Power OFF / ALM

Blink :During CPU Boot up When Accessing USB

iPASOLINK Introduction

MWS-E0017E-01

29

iPASOLINK VR 10 Indicators

Main Card 1 Main Card 2

TERM-MV CARD

MC-MV MAIN CARD

EOW EOW Headset Jack 1 NMS TXD(+)

Call Push Button EOW Buzzer Call button

2 NMS TXD (-) 3 NMS RXD (+)

ALM

4 Not Connected

ON; TERM-MC Card Alarm

5 Not Connected

OFF: Normal Operation

6 NMS RXD (-) 7 Not Connected 8 Not Connected NMS / NE1 (RJ-45)

1 Vbus

1 NMS TXD(+)

2 D (-)

2 NMS TXD (-)

3 D (+)

3 NMS RXD (+)

4 Ground

4 Not Connected

(USB) TypeA Protect Switch Down: Normal Operation UP: For Out-of-Service Transfer files to/from USB

CLK D-Sub 15 Pins, Female) 1 In TOD 422 P

6 CLK EXT1 IN P

11 IN 1PPS 422 P

2 In TOD 422 N

7 CLK EXT1 IN N

12 IN 1PPS 422 N

3 CLK EXT1 out N

8 CLK EXT1 OUT P 13 OUT TOD 422 P

4 CLK 10M 422 Out

9 OUT TOD 422 N

14 OUT 1PPS 422 N

5 GND

10 GND

15 OUT 1PPS 422 P

5 Not Connected

MAINT ON;

Maintenance ON Protect SW ON

Blink :During CPU Boot up When Accessing USB

6 NMS RXD (-) 7 Not Connected 8 Not Connected LCT (RJ-45)

ON Line ON: Indicate Main Card 1 or 2 is Online in redundant main card configuration OFF: Standby Card ALM ON; IDU Total Alarm OFF: Normal Operation

MWS-E0017E-01

30

iPASOLINK VR2 / VR4 / VR10 Modem iPASOLINK-VR2/VR4 inbuilt Modems

iPASOLINK-VR4/VR10

Ground

Power ON/OFF Switch

Alarm (Red) ON: Modem / ODU ALM Blink: IF Cable short IF Cable open

Ground

Power ON (Green) TX 1 & TX2 ON: SYS1 & 2 Transmit Status RX 1 & RX2 ON: SYS1 & 2 Receive Status

IF IN / OUT

XIF IN/ OUT

TX frequency:

350 MHz

Frequency:

140 MHz

RX frequency Ref Frequency: DC Power : Connector: Control Impedance:

140 MHz 5 MHz (XPIC) -48V TNC (Female) 10 MHz 50 Ohms

REF FREQ:

5 MHz

Connector:

IEC 169-29(1.0/2.3)

Impedance:

75 Ohms

RX STATUS (Green)

Modem-EA NWA-074398-322

NWA-074398-422

RTA (Physical Layer)

Available

Available

Available

Multi-layer Header Compression

Available

Available

Available

40 MHz Channel Separation

TX STATUS (Green)

FOR XPIC BETWEEN MASTER AND SUB MASTER

Modem-A NWA-055300-322

ONLINE (Green)

Available

Available

Available

Up to 512 QAM (28/40/56 MHz)

Up to 2048

Up to 2048

31 NEC Confidential

iPASOLINK VR2 MAIN BOARD LAN INTERFACES Ethernet Features

Gigabit Ether Interface RJ-45 1,2,3,4

VLAN

Port Based VLAN/ Tag Based VLAN / 802.1ad

Type

10/100 Base-T(X) or 10/100/1000 Base-T

QoS

802.1p CoS / ToS/Diffserv/MPLS TC / VLAN ID Standard QoS or H-QoS

Connector

4 x RJ-45

QoS Control

SP or DWRR or SP + DWRR

Gigabit Ether Interface SFP (Optical) 5, 6

Bandwidth Port and class shaper, policing per VLAN or port Management

Type

1000 BASE-SX / LX

Connector

4 x SFP Optical Interface (LC)

Jumbo frame FE: Up to 2000 bytes GbE: 9600 bytes Protection

RSTP (802.1w, MSTP (802.1s) ERP (ITU-T G.8032v2) LACP (802.1AX)

Link Loss Forwarding

Disabled / Enabled selectable

1 Vbus

1 NMS TXD(+)

1 NMS TXD(+)

2 D (-)

2 NMS TXD (-)

2 NMS TXD (-)

3 D (+)

3 NMS RXD (+)

3 NMS RXD (+)

4 Ground (USB) Type1

4 Not Connected

4 Not Connected

5 Not Connected

5 Not Connected

6 NMS RXD (-)

6 NMS RXD (-)

7 Not Connected

7 Not Connected

8 Not Connected

8 Not Connected

LCT / NMS (RJ-45)

NE1 (RJ-45)

MWS-E0017E-01

32

iPASOLINK VR4 MAIN CARD LAN INTERFACES Ethernet Features VLAN

Port Based VLAN/ Tag Based VLAN / 802.1ad

QoS

802.1p CoS / ToS/Diffserv/MPLS TC / VLAN ID Standard QoS or H-QoS

QoS Control

SP or DWRR or SP + DWRR

Bandwidth Port and class shaper, policing per VLAN or port Management Jumbo frame FE: Up to 2000 bytes GbE: 9600 bytes Protection

RSTP (802.1w, MSTP (802.1s) ERP (ITU-T G.8032v2) LACP (802.1AX)

Link Loss Forwarding

Disabled / Enabled selectable

1 NMS TXD(+)

1 Vbus

FE /Gigabit Ether Interface RJ-45 1,2,3,4

1 NMS TXD(+)

2 NMS TXD (-)

2 NMS TXD (-)

3 NMS RXD (+)

3 NMS RXD (+)

4 Not Connected

4 Not Connected

2 D (-)

5 Not Connected

5 Not Connected

3 D (+)

6 NMS RXD (-)

6 NMS RXD (-)

4 Ground

7 Not Connected

7 Not Connected

8 Not Connected

8 Not Connected

(USB) Type1

LCT / NMS (RJ-45)

Type

10/100 Base-T(X) or 10/100/1000 Base-T

Connector

4 x RJ-45

Gigabit Ether Interface SFP (Optical) 5, 6, 7, 8 Type

1000 BASE-SX / LX

Connector

4 x SFP Optical Interface (LC)

10 Gigabit Ether Interface SFP+ (Optical) 7, 8 Type

10Gbase-SR /LR /ER

Connector

2 x SFP+ Optical Interface (LC)

NE1 (RJ-45)

MWS-E0017E-01

33

iPASOLINK VR 10 Ethernet Interfaces GbE-A & XGbE-MV

LAN Por1 (Green) ON: LAN Link UP Status Blink : when data TX/RX OFF: Link down

Alarm (Red) Alarm Status

LAN Por1 to 4 (Green) ON: LAN Link UP Status Blink : when data TX/RX OFF: Link down

Alarm (Red) Alarm Status

GbE-A Card (4 Cards/ VR10) XGbE-MV (2 Cards/VR10) Type

10Gbase-SR /LR /ER

Connector

1 x SFP+ Optical Interface (LC)

Type (Electrical) Connector Type (SFP) Connector

10/100 Base-T(X) or 10/100/1000 Base-T 2 x RJ-45 1000 BASE-SX / LX 2 x SFP Optical Interface (LC)

Ethernet Features VLAN

Port Based VLAN/ Tag Based VLAN / 802.1ad

QoS

802.1p CoS / ToS/Diffserv/MPLS TC / VLAN ID Standard QoS or H-QoS

QoS Control

SP or DWRR or SP + DWRR

Bandwidth Port and class shaper, policing per VLAN or port Management Jumbo frame FE: Up to 2000 bytes GbE: 9600 bytes Protection

RSTP (802.1w, MSTP (802.1s) ERP (ITU-T G.8032v2) LACP (802.1AX)

Link Loss Forwarding

Disabled / Enabled selectable

GbE-2AV Card (14 Cards/ VR10) Type (Electrical) Connector PoE Port Type (SFP) Connector

10/100 Base-T(X) or 10/100/1000 Base-T 2 x RJ-45 Port 1 (max 6 ports/IDU) 1000 BASE-SX / LX 2 x SFP Optical Interface (LC)

MWS-E0017E-01

34

iPASOLINK Transmission Capacity

ITEM

IDU

Channel Spacing

7 MHZ

14MHz

28MHz

40MHz

56 MHz

112 MHz

Radio Capacity

Max Packet Throughput

Radio Capacity

QPSK

10

13

21

27

44

56

62

78

90

113

181

226

16 QAM

Radio Radio Radio Radio Max Packet Max Packet Max Packet Max Packet Max Packet Throughput Capacity Throughput Capacity Throughput Capacity Throughput Capacity Throughput

21

26

43

55

90

113

125

157

181

227

363

454

Transmission 32 QAM Capacity 64 QAM and Channel spacing 128 QAM

26

33

54

69

112

141

156

196

226

284

453

568

31

40

66

83

135

170

187

235

272

341

545

682

37

47

77

96

158

198

219

274

318

398

636

796

256 QAM

42

53

88

111

181

227

251

314

364

456

729

912

512QAM

47

60

98

124

203

254

281

352

407

510

815

1000

1024QAM

53

67

109

137

222

279

308

386

447

560

894

1000

2048QAM

-

-

121

152

247

309

341

428

495

620

991

1000

269.58

337

373

466

540.88

673

1081

1000

4096QAM

* Max Packet Throughput using 64 byte packet size

MWS-E0017E-01

35

iPASOLINK XPIC (Cross Polarization Interference Canceller) iPASOLINK can double its transmission capacity up to 1240Mbps in 56MHz bandwidth by adopting NEC’s state of the art XPIC technology. XPIC working with Radio Link Aggregation and G8032v2 ERPS The additional required components for XPIC are; nDual polarized antenna, nAdditional ODU, nAssociated IF cable kit, (iPASO VR4 / VR10) nSoft-key upgrade in IDU.

iPASO VR2 iPASO VR4

iPASOLINK VR4 / VR10 can be configured with Multiple groups of XPIC links in one IDU.

MWS-E0017E-01

36

iPASOLINK VR2 / VR4 XPIC Configuration – (1+0) F1 (V)

OMT

Vertical F1 (H)

Horizontal

[XPIC Cable Cross Connection for Canceller Signal]

F1 (V)

OMT

n

When XPIC on Slot-1 & 2 MODEM circuits on Main Card, the X-IF Signals will be connected internally in Main Card.

n

When XPIC on Slot-3 & 4 MODEM modules, the X-IF Cables should be ordered to Canceller Signal connection.

F1 (V)

Vertical (1+0) XPIC

Horizontal

F1 (H)

OMT Vertical

F1 (H)

Horizontal

X-IF Cables Master

Slot1 X-IF connection internal

Master

Slave

Slot2 Slot3 (1+0) XPIC

Slot4

Slot5

Slot1 (1+0) XPIC

Slave

Master

Slave

Slot2 Slot3

Slot4 Slot5 (1+0) XPIC

One IDU

MWS-E0017E-01

37

XPIC Configuration – (1+0) / (1+1) F1 (V)

Vertical

OMT

(1+0) XPIC

Horizontal

F1 (H)

Vertical Vertical

F1 (V)

F1 (H)

Horizontal Horizontal MASTER-1

MASTER-2

SLAVE-1

SLAVE-2

(1+1) XPIC

MWS-E0017E-01

38

iPASOLINK Throughput with XPIC

MWS-E0017E-01

39

iPASOLINK – 1000 CWDM MODULES

(40 Km)

Colored SFP

Colored SFP

Colored SFP

iPASOLINK Introduction

MWS-E0017E-01

40

iPASOLINK OUT DOOR UNIT

MWS-E0017E-01

41

Frequency / Power / Hardware flexibility Sub band Filter IAP advantage 5 dB increase in power

IAG ODU

Conventional ODU

IAG ODU

Sub-band

Sub-band

6G

6G

7G

7G

8G

8G

23G

23G

26G

26G

42G

42G

Sub band Fixed

Sub-band Free

MDU

Sub band “Free” (1 type ODUs)

(each different ODU) Tunable BPF Target Frequency 7*/8*/13/15/18/23 GHz band

13-42 GHz IAG ODU

Sub-band can be easily changeable with sub-band Free IAG ODU * MWS-E0017E-01

42

FREQUENCY BAND

Frequency Band (GHz)

Range (GHz)

Frequency Plan (ITU-R/CEPT)

RF TX/RX Spacing (MHz)

L6

5.925-6.425

F.383 (CEPT/ERC, REC T/R14 Annex-1)

252.04

U6

6.430-7.110

F.384 (CEPT/ERC, REC T/R14 Annex-1)

340

7

7.110-7.900

F.385

161

7

7.425-7.725

F.385 Annex-1

154

7

7.110-7.750

F.385 Annex-3

168, 196

7.5

7.425-7.900

F.385 Annex-4

245

8

7.725-8.275

F.386 Annex-1

311.32

8

8.275-8.500

F.386 Annex-3

266

8

7.900-8.400

F.386 Annex-4

310

10

10.150-10.650

F.1568 Annex-1

350

10

10.500-10.680

F.747 Annex-1

91

11

10.700-11.700

F.387

490, 530

13

13.750-13.250

F.497 (CEPT/ERC, REC T/R 12)

266

15

14.500-15.350

F.636 (CEPT/ERC, REC T/R 12)

315, 420, 490, 644, 728

18

17.700-19.700

F.595 (CEPT/ERC, REC T/R 12)

1008, 1010, 1560

23

21.200-23.600

F.637 Annex-1, 3 (CEPT/ERC, REC T/R 13 Annex-A)

1008, 1232

23

21.200-23.600

F.637 Annex-4

1200

26

24.500-26.500

F.748 (CEPT/ERC, REC T/R 13 Annex-B)

1008

28

27.500-29.500

F.748 (CEPT/ERC, REC T/R 13 Annex-C)

1008

32

31.800-33.400

F.1520 (CEPT/ERC, REC T/R 01 )

81

38

37.000-39.500

F.749 Annex-1(CEPT/ERC, REC T/R 12 )

1260

42

40.500-43.500

(CEPT/ERC )

1500

MWS-E0017E-01

43

Adaptive Modulation radio (AMR)

MWS-E0017E-01

44

Concept of Advanced AMR •

To keep high transmission efficiency, Modulation scheme and Traffic capacity are automatically selected in accordance with the path condition with QoS. (LAN Throughput –in small packet size: 64 bytes)

Normal condition

28MHz

28MHz

28MHz

28MHz

28MHz

28MHz

QPSK

16QAM

32 QAM

64 QAM

128 QAM

256 QAM

512QAM 1024 QAM 2048 QAM 24096 QAM

56Mbps

113Mbps

141 Mbps

170 Mbps

198Mbps

227Mbps

254Mbps

28MHz

28MHz 279Mbps

28MHz 309Mbps

28MHz 334Mbps

112 MHz

112 MHz

112 MHz

112 MHz

112 MHz

112 MHz

112 MHz

112 MHz

112 MHz

112 MHz

QPSK

16QAM

32QAM

64QAM

128 QAM

256QAM

512QAM

1024QAM

2048QAM

4096QAM

226 Mbps

454 Mbps

568 Mbps

682Mbps

796 Mbps

912 Mbps

1000 Mbps 1000 Mbps

1000 Mbps 1000 Mbps

MWS-E0017E-01

45

iPASOLINK – Adaptive Modulation Radio 4096QAM (new Modem) 2048QAM C/N 39 dB

1024QAM

(2048Q) C/N 36 dB

512QAM

(1024Q) C/N 33 dB (512Q) C/N 30 dB

256QAM

128QAM

(256Q) C/N 27 dB (128Q) C/N 24 dB

64QAM

AMR Mode: CNR + RSL Down CNR, Up RSL

32QAM

(64Q) C/N 21 dB

16QAM

(32Q) C/N18 dB

AMR Mode: CNR

QPSK

(Under Interference)

(16Q) Modulation Up C/N 33 dB + No Error

C/N 30 dB + No Error

Modulation switching is done at BER=10-10. Equivalent C/N is shown

Down & up both CNR

64QAM

256QAM 128QAM

MWS-E0017E-01

46

RTA （Packet layer Radio Traffic Aggregation）

・VR 10 up to 8 links ・VR 4 up to 4 links ・VR 2 up to 2 links Link#1

Link#2 Link#3

Link#4

MWS-E0017E-01

47

PRTA （Physical layer Radio Traffic Aggregation） ・Dividing to small packets ・Transmit as normal Ethernet packet after dividing ・VR 10 up to 8 links or 2 GRPs 4 links each ・VR 4 up to 2 links (2 GRPs) ・VR 2 up to 2 links Link#1 Link#2 Link#3 Divide to small packets

Re-construction

Link#4

Link#1 Link#2 Link#3 Link#4

MWS-E0017E-01

48

iPASOLINK VR series clock functions Equipment VR2 VR4

VR10

Default*1 Option Default*1 Option Option Default*1 Option

Optional Clock Type Supported Functions CLK-CV type-002 CLK-CV type-001 CLK-MV EXT CLK in/out & OW Sync-E 1588-TC 1588 BC*2 O O O O O O O O O O O O O O O O O O O O O O O O O

iPASOLINK VR2

iPASOLINK VR10

Default

With clock options

iPASOLINK VR4 With clock options

Default

Note *1: Sync E function is supported as a default because a clock equivalent to current iPASOLINK (CLK2M-C) is mounted Note *2: Require PTP software key Note *3: In addition to above ACR is supported in VR4 / VR10

MWS-E0017E-01

49

Synchronization Method iPASOLINK can utilize multiple clock sources.

Synchronous Ethernet

Modem-1 Modem-n E1 Line CLK Option Line CLK(STM1) GbE Line CLK

S E L

Timing Source 1 Timing Source 2 Timing Source 3

S E L

PLL

SDHLine Transmit Clk PDHLine Transmit Clk Radio Clk Output G.703 External Clk Output

SEL External CLK OUT VR 2/4/10 External Clock

External CLK IN 1 SSU Synchronization modes

Synchronize external equipment

Synchronization Source Unit

Master (internal Clock) >>>Slave (modem) per hop basis Slave Mode: Priority Level; (Quality information not considered) Slave Mode: Quality Level; (First Quality information then Priority)) MWS-E0017E-01

50

MAC Header Compression IFG 12

PRE 8

MAC DA 6

Click the OK button. MAC SA VLAN 4

6

L 2

IP V4/V6

Packet 46 -1500

FCS 4

Ethernet Frame

20bytes First compression

MAC DA 6

MAC SA 6

VLAN 4

L 2

IP V4/V6

Packet 46 -1500

FCS 4

12bytes Second compression

VLAN 4

L 2

IP V4/V6

Packet 46 -1500

FCS 4

IPV4 Header 24 Byte IPV6 Header 40 Bytes Packet 46 -1500

Third compression

FCS 4

Ethernet Frame with Preamble compression

Ethernet Frame with Preamble & MAC compression

Ethernet Frame with Preamble & MAC compression and IPV4 or V6 (including VLAN compression

Packet 46 -1500

Above including FCS in Enhanced Mode

Compressed Headers LCT setting item Disable MAC (basic version) MAC+IPv4 MAC+IPv6 MAC+MPLS［High］ Enhanced MAC+IPv4 Enhanced MAC+IPv6 Enhanced MAC+MPLS

L2 header MAC VLAN × × ○ × ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○

L3&L4 header IPv4 IPv6 × × × × ○ － － ○ － － ○ － － ○ － －

MPLS Label × － － － ○ － － ○

Store Headers up to 2048 FCS remove × × × × × ○ ○ ○

MWS-E0017E-01

51

RSTP (IEEE 802.1w)/ MSTP (IEEE802.1s) •

• • •

Layer2 based loop-free protection mechanism – Each device using STP/RSTP send BPDU frames, and root bridge, root port, designated port, backup port and alternate port are decided by BPDU frame. Widely used in the enterprise network Protection Switching Time; STP < 60sec / RSTP < 2~3 sec Topology is no limitation (Ring, Tree, etc…) Blocking

Failure Forwarding

Forwarding

Blocking à Forwarding

Forwarding

Forwarding

Forwarding

Forwarding

Root Bridge

Root Bridge Forwarding

Forwarding à Blocking

Forwarding

• Some topology (instance) can be treated with same STP network • The VLANs are divided into some groups (instances), and blocking port is decided in the each group (instance). • MSTP is based on RSTP (IEEE 802.1w), and can used RSTP independently in each VLAN – Enables load balancing, over a large number of VLANs • The restructuring of each VLAN becomes possible. As a result, the time required to restructure can be shortened.

MSTI 2 VLAN: 201 - 300

Forwarding

Blocking For MSTI1

Double capacity Blocking For MSTI2 Root Bridge

MSTI 1 VLAN: 101 - 200 MWS-E0017E-01

52

G.8032 Ethernet Ring Protection Switching • • • •

Utilizing widely-deployed Ethernet (802.1,3) with OAM (802.1ag/Y.1731) Loop-free protection mechanism Protection Switching Time