ETX-203AX, ETX-203AM and ETX-205A Product Introduction, Ver. 4.03 GA January 2013

1. ETX-203AX, ETX-203AM and ETX-205AProduct Introduction, Ver. 4.03 GAJanuary 2013

2. Agenda • Introduction • Product overview • Target customers and Applications • Main features • Management • Ordering information • Value proposition

3. ETX Portfolio Performance ETX-5300A ETX-220A ETX-205A ETX-204A High End EDD Advanced TM HW based OAM ETX-203AX/AM Basic NTU Flow based Service High End MDD Advanced timing Circuit emulation Services MiNID Ethernet Service Aggregation Platform 1/10GE Interfaces 10GE NTU 10GE Ring Scale nxGE nx10GE GE

4. Intelligent Demarcation Solutions Customer Premises SHDSL Customer HQ Solution benefits • Increased revenues with differentiated Ethernet services and TDM circuit emulation • Accurate and scalable SLA assurance • Same service offering over multiple access technologies • Painless integration and operation – simple provisioning and network management • Variety of units and ordering options for cost optimization ETX-205A FE/GbE ETX-5300A 1/10GbE FE/GbE IP DSLAM 2G, 3G, 4G LTE eNB 1/10GbE GE GbE ETX-203AM ETX-205A ETX-220A ETX-203AX RADview – EMS & Service Center E1 SLA Assurance, PM management, Resiliency ServiceProvider Network RNC/4G Gateway

5. Access and Aggregation Network 1 GbE PE The solution: • L2 Carrier Ethernet aggregation • Ethernet and TDM in a single access aggregation device • Resilient topology 1 GbE ETX-5300A 10 GbE 10 GbE IP/MPLS 1/10 GbEG.8032 Rings* ETX-2xx ETX-203AM ETX-220A ETX-2xx ETX-2xx STM-1 TDM ETX-5300A • Solution’s Benefits: • End to end solution • MEF CE 2.0 certified • Advanced Traffic Management • Complete Ethernet OAM suite • Carrier grade protection * Note – Ring in ETX2xxA is part of version 4.5 (SW upgrade from version 4.3)

6. Mobile Backhaul solution RAD Access solution for Mobile Timing feeder MME ETX-220A GbE ETX-5300A Router PE PE 10 GbE 10 GbE 10 GbE ETX-205A ETX-205A IP/MPLS ETX-5300A • Solution’s Benefits • Accurate and scalable SLA measurement • Seamless migration from TDM to packet • Grooming and aggregation of Ethernet and TDM circuits • Hybrid synchronization - SyncE and IEEE1588v2 for best timing performance ETX-205A ETX-205A G.8032v2 * ETX-205A * Note – Ring in ETX2xxA is part of version 4.5 (SW upgrade from version 4.3)

7. Product Overview

8. RAD CPE demarcation devices ETX-203AX – 6 port cost effective EDD • Cost optimized for business Ethernet services ETX-203AM –6 port “All-In-One” platform • Modular uplink for lower OPEX • Flexible for future technologies ETX-205A – high end EDD and MDD • 6 combo ports • Full Synchronization (19”) • E1/T1 circuit emulation Different CPEs Same Software

9. ETX-203AX Product Introduction • Fixed Carrier Ethernet Demarcation Device for: • SLA-based retail and wholesale Ethernet services • Flexible port selections: • 1 or 2 FE/GE network ports: SFP based • 4 or 5 FE/GE user ports: SFP or UTP • Carrier grade design • Service and port level redundancy • Cost effective design • Unique AC and DC PS, reducing inventory • MEF CE 2.0 compliant EPL and EVPL Ethernet services

10. ETX-203AX Physical View Power Wide-range AC&DC PS Management Out of Band FE port Local RS-232 Network and User Interfaces 1 or 2 network SFP interfaces (redundancy) Up to 4 or 5 user ports

11. ETX-203AM Product Introduction • Modular Carrier Ethernet Demarcation Device for: • SLA-based retail and wholesale Ethernetservices • Uniform service offering over Copper, Fiberand SHDSL access networks • Flexible port selections: • Modular based network ports • 2 GbE combo interfaces: SFP/UTP • 4 or 8 wire SHDSL uplink module • 4 FE/GE user ports: SFP or UTP • Carrier grade design • Service and port level redundancy • MEF CE 2.0 compliant EPL and EVPL Ethernet services

12. FE/GbE Combo port uplink module SHDSL EFM uplink module Ethernet over PDH uplink module* ETX-203AM Physical View • 4/8xE1/T1 • 1/2xT3 • GFP/VCAT/LCAS • 2 x 10/100/1000BT • 2 x 100/1000Fx (SFP) • 4wire – 11.4 Mbps • 8wire – 22.8 Mbps Management Out of Band FE port Local RS-232 User interfaces: 4 FE/GE interfaces SFP or UTP Modular Uplink ETH SHDSL ETH Over PDH/SDH * Module available in version 4.5

13. ETX-203AM - All-In-One • Modular design advantages: • Service uniformity across network technologies • Management integration • Smooth migration from copper for fiber • Reduced inventory for lower OPEX • Shorter training and expertise

14. ETX-205A Product Introduction • Advanced Carrier EthernetDemarcation Device for: • SLA-based retail and wholesale Ethernet services • 2G/3G/4G-LTE Mobile backhauling demarcation • Migration to packet networks with integrated Ethernet and E1/T1 services • Carrier-grade design • Service and port level redundancy • Redundant power supplies • SyncToP™ synchronization combining: • Synchronous Ethernet • IEEE-1588v2 PTP Slave and Transparent Clock • MEF CE 2.0 compliant EPL and EVPL Ethernet services

15. ETX-205A Physical View • SyntTop™ synchronization ports: • External in/out (T3/T4) • 1PPS and ToD • 4 E1/T1 PWE interfaces: • CESoPSN and SAToP • UPD/IP and MEF8 • Flexible and accurate timing • Management ports • Out of band - Ethernet port • Local craft terminal - RS-232 • 6 FE/GE combo interfaces: • 2 Network ports • 4 User ports • Redundant power supplies: • AC: 100–240VAC, 50-60Hz • DC: 24/48VDC • 19”, 1RU shelf, Rack and wall mount • Environmentally Hardened Option: -20 to +65C

16. ETX version 4.3 Main Features General features • Unified feature list for ETX-203AX, ETX-203AM and ETX-205A • Enhanced OAM capabilities (MIP on double-tagged traffic, Classification per “My MAC/IP”, permanent loopbacks) ETX-203AM platform • Unified Carrier Ethernet services over copper and fiber networks • Lower OPEX reduces total cost of ownership New ETX-205A options • Integrated TDM over Packet - 4 E1/T1 ports (RJ-45) • 1588v2 – frequency, phase and performance analysis • Hybrid Synchronization for best timing accuracy – SyncE for frequency and 1588v2 for phase

17. Target Customers and Applications

18. Carrier Ethernet Market Segments

19. Retail Business Services • Managed CPE with Fiber and copper uplinks • L2 access solution supporting: • L2 based office interconnections • L2 access to L3 VPN • Access to ISP • Flow-based differentiated services • Up to 8 classes of service • SLA assurance with shaping per EVC and EVC.CoS RADview-EMS & Service Center IP DSLAM Customer Premises ISP ETX-203AX ETX-203AM GbE ETX-205A ETX-205A ETX-203AM Service Provider Network FE/GbE Customer HQ EoSHDSL GbE

20. Wholesale Services • Managed demarcation point at customer premises • Accurate SLA enforcement and measurement with HW based OAM tools • Multiple transport connections with flow-based services • EPL and EVPL connection models with per flow shaping • Differentiated services for reliable overbooking • E1/T1 Leased line replacement IP DSLAM Customer Premises ETX-203AX ETX-203AM ETX-205A ETX-205A ETX-203AM ETX-205A ISP NxE1 GbE Wholesale Packet Network RNC/4G Gateway PE Service Provider Network PE Customer HQ WS PTN SHDSL GbE NxE1

21. Mobile Demarcation with ETX-205A Clock recovery based on 1588-2008 or Synchronous Ethernet Sync-E Sync-E Clock Source IEEE 1588-2008 Grandmaster Clock • Mobile Demarcation Device – Timing Gateway & Demarcation • Per-flow SLA measurements • Multiple synchronization over packet standards • Support for legacy Cellular generations IEEE 1588-2008 (1588v2) ETH TC IP Node B IP Node B IP Node B PoP Site External Clock Source RNC/4G Gateway ETH Transport Network: ETH/IP/MPLS ETX ETX ETX PE PE ETH BTS NxE1/T1

22. Main Features

23. Connectivity Options with ETX • E-Line: point-to-point • Each EVC connects two or more UNIs • Replaces a TDM Private line (EPL) • Replaces ATM and FR (EVPL) • E-Tree: point-to-multi point • Point to multipoint connectivity - Internet access and/or IP TV services • No connection between leafs • E-LAN: any-to-any • Single bridge instance per UNI (EPLAN) • Several (virtual) bridge instances per UNI (EPLAN) UNI CE UNI Carrier Ethernet Network CE UNI Point-to-Point EVC UNI CE UNI UNI UNI CE CE Carrier Ethernet Network Carrier Ethernet Network UNI UNI CE UNI CE UNI Any-to-any EVC Point-to-Multipoint EVC CE CE

24. ETX Traffic Management • Extremely flexible classification: • Port, VLAN-ID, P-bit, TOS-DSCP, EtherType, MAC SA/DA and IP SA/DA • Hierarchical-QoS (HQOS) with flow level TM: • CIR/EIR Policing per flow for differentiated services • Assuring SLA in congested links - shaping per EVC or EVC.cos • Up to 8 queues per flow with Strict Priority and WFQ scheduling • Simplifying operation with powerful bandwidth profiles

25. The value of advanced TM • Increased revenues using ‘Intelligent’ over subscription • Multiple services from same port - EVC • Higher bandwidth utilization - EIR • Better utilization of network resources allows • Maintain customer satisfaction with differentiated services • Different Drop probability, delay and jitter at different cost • Reduce churn by ensuring SLA • Per service shaping ensures bandwidth per customer (EVC, EVC.CoS)

26. Summary of available Ethernet OAM mechanisms Robust Service ManagementEthernet OAM Hardware OAM

27. Hardware OAM vs. Software OAM

28. Ethernet OAM features • Standard CFM OAM per 802.1ag-D8: • End-to-end OAM for Continuity Check • Continuous; 3 msec to 10 sec intervals • Loopback (non intrusive) – On demand/permanaet • Simplified configuration per “My MAC” and “My IP” • Link Trace – On demand • Fault propagation based on CFM OAM Messages • 802.3ah Active mode • Recognize and propagate “Dying gasp” messages from remote device notifying the operator of CPE failure • Allows remote devices to be managed through user port

29. Ethernet OAM – PM • Performance Monitoring defined per service (EVC+CoS) • Allows for in-service, end-to-end SLA monitoring of: • Frame Delay • Frame Delay Variation • Frame Loss • Availability • Configurable performance objectives inline with SLA for: • Proactive end-to-end SLA monitoring • On going statistics • Traps upon SLA objectives crossing

30. One-way delay measurement • One way delay measurement based on 1588v2 • Accurate and reliable results • Carriers can assure their committed KPI • Customers can measure conformance to carrier KPI Customer Premises ETX-205A/PTP CO Service Provider L2/L3/MPLS Network ETX-205A/PTP Wholesale Packet Network PE ETX-205A/PTP Accurate one-way delay measurement based on 1588v2 time stamping

31. Fault management - Loopback Options for Service Verification • Network troubleshooting and throughput testing: • Simultaneous loopbacks of many flows on both network and user sides • Flexible criteria, per service and CoS (EVC.cos) • Non-Intrusive “always on” operation with no need to configure the remote end • Line rate performance • L2 and L3 loopbacks • MAC & IP Address swapping • Multiple independent SLA monitoring and test instances per unit Network “Loopback packets which have VID 100 & IP SA 117.155.160.13 + perform IP & MAC swap” “Send a packet with VID 100 and IP SA 117.155.160.13 12 and wait for a reply Tester

32. RFC-2544 Measurements to Ensure Service Parameters Traffic Generation and loopback per RFC-2544 Branch A Real Time Headquarters ETX PE • Used before service is commissioned to ensure service parameters • Measures Latency, Loss and Throughput • Up to 8 sessions simultaneously UNI EVC Priority Data Best Effort Real Time PE ETX Priority Data EVC 1 PSN Best Effort Branch B EVC 2 Real Time IP DSLAM Real Time ETX EVC Priority Data Priority Data Best Effort Best Effort UNI

33. RFC-2544 standard enhancements • Configurable test duration - from 2 to 60 minutes • Binding tests to flows for service oriented bandwidth configuration • Combination of standard and user configurable frame size to verify data integrity • Text and graphical result views

34. RFC-2544 CLI reports Test ID : <ID> Tested by : User Name Product Name : <HW product name and version> Version Number : <firmware name and version> Serial Number : <serial number here > Date & Time : <Test time, format: day, dd/mm/yyhh:mm:sec> Profile Name : <e.g. - RFC 2544 Throughput Test - Per Port Binary Search> Number of Trials : < number of trials> Test Duration : <hh:mm:ss> Test Parameters ------------------------------------------------------------------------------------------------------------- Bind: MD:<MD id>, MA <MA id>, MEP <MEP id>, p-bit <pbit>, VLAN <vlan> Maximum Theoretical Rate: <Maximal defined Rate> [FPS] Duration: <Duration> Pattern: <Frame Pattern>, Frame Type <frame type> Opcode <Opcode>, mode <mode> Search resolution <Search resolution>, Tolerance <tolerance>, Trials <Number of trials> Learning Frames: Number of frames <number of frames>, Frequency <Frequency> Throughput Report < Trial #>: ======== Status: SUCCESS { or FAIL – Link down, OAM connectivity failure } Duration: <HH:MM:SS> Frame Size [bytes] | 64 | 128 | 256 | 512 | 1024 | 1280 | 1518 | Theoretical maximum [fps] |10000 | 5000 | 2500 | 1250 | -  | - | 500 | Throughput [fps] |9500 | 4900 | 2490 | 1250 | - | - | 500 | success [%] | 95 | 98 | 99.6 | 100 | - | - | 100 | Packet Loss report: <Trial #> ============= Status: SUCCESS Frame Size <64> Maximum theoretical rate <10000> Throughput of max | 100% | 90% | 80% | 70% | 60% | %success | 80% | 87% | 93% | 99% | 100% | Latency Report < Trial #>: ======== Status: SUCCESS { or FAIL – Link down, OAM connectivity failure } Duration: <HH:MM:SS> Frame Size [bytes] | 64 | 128 | 256 | 512 | 1024 | 1280 | 1518 | Latency [ms] |50 | 45 | 42 | 37 | -  | - | 24 |

35. RFC-2544 Reports on RADview Frame loss DelayMeasurement Throughput

36. Service Management Summary: Managing the Service Lifecycle Connectivity Verification Performance Monitoring Fault Detection & Isolation • Ethernet OAM - 802.1ag • Continuity Check • MAC Ping • Ethernet OAM – 802.1ag • Continuity Check • Loopback • Link Trace • Ethernet OAM – Y.1731 • Frame Delay, Frame Delay, Frame Loss • Service availability (G.826) SLA Threshold Reporting Diagnostic Loopbacks Fault Propagation & Notification • Defining SLA objectives and proactively notified when crossed • Alarms and traps on management system • Loopbacks • L1 physical interface loopback • L2/L3 Loopback per flow with MAC/IP swap (up to line rate) • Ethernet OAM – Y.1731 • Per EVC ‘Forward’ and ‘Backward ’ Alarm Propagation (AIS and RDI) • Dying Gasp indication to active - 802.3ah • Per port Alarm Propagation SLA Verification Testing Statistics Collection Reporting Resiliency & Repair • RFC-2544 based tests • Throughput, Loss and Delay tests • Data integrity tests (BERT) • Delay Measurement • Collecting SLA statistics • Statistics collection via SNMP or FTP • Statistics can be used to generate SLA reports • Linear Protection ( “EVC Protection”) -G.8031 • Ethernet Ring Protection - G.8032 • port protection based on Link Aggregation - 802.3 (formerly 802.3ad)

37. PSN PSN Link Protection • Link Aggregation Redundancy (802.3ad based) • Redundant connection to a single upstream device via two ports which form a singe logical port • Link Aggregation Control protocol used to sync LAG members and identify failures • Dual homing • 1:1 connectivity to two different upstream devices for node redundancy • Switch criteria: • Loss Of Signal (LOS) indication • Manual commands Single homing CPE Dual homing CPE

38. Ethernet Linear Protection based on G.8031 Automatic Protection Switching (APS) Automatic Protection Switching (APS) • Protection as per ITU-T G.8031 • Bidirectional 1:1 mode using APS messages • Triggers - Port Signal loss, CCM LOC, ETH-AIS • Protection time • Under 50ms protection time for a single protection group (multiple EVC per group) • Up to 200ms protection time for 4 protection groups Local Customer Premises Remote Customer Premises CPE CPE NTU NTU CC OAM Ethernet PE PE 1 2 CC OAM RDI on CC message

39. Fault PropagationBased on OAM Loss Of Connectivity Receive RDI State LOC • Network failure propagation to user ports • User ports are turned off upon Loss-of Connectivity (LOC) or Remote Defect Indication (RDI) • Customer equipment senses the failure and immediately reroutes to alternative path • Shortens restoration time by triggering restoration much faster than native routing protocols Local Customer Premises Remote Customer Premises CPE CPE NTU NTU CC OAM Ethernet PE PE 1 2 CC OAM RDI on CC message

40. Fault Propagation Based on OAM Remote User Failure • User port failure propagation to remote end: • Remote end port is turned off upon alarm indication from local end • Customer equipment senses the failure and immediately reroutes to alternative path • Shortens restoration time by triggering restoration much faster than native routing protocols Local Customer Premises Remote Customer Premises CPE CPE NTU NTU CC OAM Ethernet PE PE 1 2 CC OAM

41. Layer 2 Protocol Tunneling (L2PT) Local Customer Premises Remote Customer Premises • Allowing full transparency to L2 control Protocols using different configurations: • Peer-supported L2 Protocols Data Units (PDU) frames • Discard the L2 control protocol frames • Tunnel: Pass through Layer-2 control frames • Including Vendor Specific L2CP frames Ethernet CPE CPE NTU NTU L2 PDU L2 PDU 1 2 PE PE [Eran:]

42. Integrated E1/T1 Circuit Emulation PW Tunnel PW Tunnel Carrier Ethernet and IP/MPLS ETX-205A ETX-205A NxE1/T1 NxE1/T1 NxE1/T1 Legacy Service Pseudowire Circuit Emulation Legacy Service • 4 Framed or unframed E1/T1: • Unframed E1/T1 with SATOP • nxDS0 circuits with CESoPSN • 16 PWE per port (for CESoPSN) • Traverses IP-MPLS and Carrier Ethernet networks: • UDP/IP encapsulation • MEF8 (CESoETH) encapsulation • Clock performance • Jitter and wander per G.823/G.824 • Frequency accuracy better than 16 PPB • Diverse clocking options • Adaptive Clock Recovery (ACR) independent of network timing • Loopback Timing – transmit by Rx timing • System clock: derived from SyncE, IEEE1588v2 and BITS-IN interface

43. PSN Zero-Touch Provisioning NMS and FTP Server • Simplifies installation and device replacement: • DHCP Client acquires address from centrally-managed server • Automatic association with FTP server • Central configuration management via TFTP/SFTP • Automatic association with network management • Enables Auto-discovery by NMS DHCP Server ETX w/ DHCP Client CPE

44. Synchronization in ETX-205A • Simultaneous support of Synchronous Ethernet (SyncE) and IEEE-1588v2 Precision Time Protocol

45. Synchronous Ethernet (Sync-E) • Synchronization derived from physical layer – best performance • Supported on all Ethernet ports: • GbE and FE rates • Optical and Copper interfaces • Full support as per G.8261 and G.8262 • Clock redundancy via clock selection mechanism (primary and secondary) as per G.871 • Stratum 3 or 3E holdover – allows up to 4 ppb per day • Support of ESSM messages – To choose in case of more than one clock source

46. IEEE 1588v2 Support Clock recovery based on 1588-2008 or Synchronous Ethernet IEEE 1588-2008 Grandmaster Clock Sync-E • 1588v2 provides clock distribution over any packet network • Accurate timing - frequency lock ±16ppb • 1588v2 slave for phase and frequency • 1588v2 encapsulation over IP\UDP with telecom profile IEEE 1588-2008 (1588v2) Transport Network: ETH/IP/MPLS PoP Site PE PE TC RNC/ 4G GW ETH ETX IP NodeB

47. Management

48. RADview-EMS Key Features & Benefits GUI vs CLI Network Inventory and Discovery Performance Management and SLA SLA Assurance System Real time PM, utilization and threshold management. Premium services , trending and analysis Intuitive GUI, visual Topology, Visual status indication , data validation. Saves 50% time in configurations Real time device inventory, location, port count. CAPEX saving and capacity planning

49. RADview-EMS Key Features & Benefits Fault Management Zero-touch Job Automation Active and History alarms, correlation to customer and services. Easy fault localization, cuts network troubleshooting to half Automatic device configuration upon its connection to the network. OPEX savings Automation of network backup, mass configuration update and software update for easy network maintenance

50. ETX Management Capabilities • Local management via management interfaces: • RS-232 DCE • Dedicated out-of-band (OOB) management port • Remote management via network or user port using: • Telnet SSH • SNMPv3 based management system • RADView NMS (version 3.10) • Command Line Interface (CLI) • Easily apply scripts of commonly used commands • Easily apply them to multiple units