1. ETX-203AX and ETX-205A Product Introduction, Ver. 4.01 GA April 2011

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

3. ETX Portfolio Performance Scale Ethernet Service Aggregation Platform
ETX-5300A
10GE Interfaces
10GE NTU
10GE Ring
High End MDD
Flow Base Service
Flexible classification
With TDM Services
ETX-220A
High End EDD
Flow Base Service
Flexible classification
ETX-205A
ETX portfolio evolved from port based NTUs such as ETX-102 and ETX-202 to flow based NTUs such as ETX-203A and ETX-204A.
The recently released members of the ETX family include the ETX-205A and new versions of the ETX-203A supporting unique features such as all-in-one capabilities.
These products will be followed later in 2012 with 10G NTU and the ETX-5300 access aggregation platform for a complete solution for Ethernet access.
Basic NTU
Port Base Service
ETX-204A
ETX-203AX/AM
ETX-36
ETX-203A
ETX-202
ETX-102
Scale

4. ETX Characteristics – EDD & MDD
Customer Premises Equipment offering SLA based Ethernet services and mobile demarcation solutions
SLA assurance with traffic management starting at customer premises
Accurate and scalable SLA measurement based on HW-based OAM
Accurate synchronization SyncE and 1588v2 PTP (ETX-205A)
Element and Service management with RADview
Customer Premises
Customer HQ
RADview – EMS & Service Center
FE/GbE
GbE
ETX-203AX
ETX-205A
Service Provider Network GE
ETX-205A GE
ETX-205A GE
RNC/4G gateway
ETX-205A
3G/4G LTE eNB
SLA Assurance, PM management, Resiliency

5. Product Overview

6. Award Winning Ethernet
ETX Awarded Best Carrier Ethernet Demarcation – 3rd Award this Year!
In the past year RAD has won a number of prestigious carrier Ethernet awards including:
Global Carrier Ethernet Demarc price/performance value leadership of the year award from Frost and Sullivan
Best Carrier Ethernet Mobile Backhaul Product in Europe, the Middle East and Africa awarded by Carrier Ethernet World Congress 2011, held in Amsterdam in October.
Best Carrier Ethernet Demarcation Product in Asia-Pacific, was presented at the Carrier Ethernet APAC 2011 in Singapore.
RAD is the only vendor to have won Multiple Carrier Ethernet Awards this year for best demarcation device. The Best Carrier Ethernet awards were determined by panels of judges from leading industry analyst firms Informa, Infonetics and Ovum and presented under the auspices of IIR Telecoms & Technology, organizer of the event, and in the presence of the Metro Ethernet Forum (MEF).

7. ETX-205A Product Introduction
Advanced Carrier Ethernet Demarcation Device for:
SLA-based retail and wholesale Ethernet services
Mobile backhauling Ethernet demarcation
Carrier-grade design
Service and port level redundancy
Redundant power supplies
SyncToP™ synchronization combining:
Synchronous Ethernet
IEEE-1588v2 PTP Transparent Clock
Hardware ready for IEEE-1588v2 Ordinary Clock
MEF compliant EPL and EVPL Ethernet services

8. ETX-205A Physical View 19”, 1U shelf, rack and wall mount
SyntTop™ synchronization ports:
External in/out (T3/T4)
1PPS and ToD
6 FE/GE combo interfaces:
2 Network ports
4 User ports
Management ports
Out of band - Ethernet port
Local craft terminal - RS-232
Redundant power supplies:
AC: 100–240VAC, 50-60Hz
DC: 24/48VDC
19”, 1U shelf, rack and wall mount

9. ETX-203AX Product Introduction
Fixed Carrier Ethernet Demarcation Device for:
SLA-based retail and wholesale Ethernet services
Flexible Network 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
MEF compliant EPL and EVPL Ethernet services

10. ETX-203AX Physical View Dimensions: 1.7 x 8.4 x 5.8 inch 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
Dimensions: 1.7 x 8.4 x 5.8 inch

11. ETX version 4.01 Main Features
SLA assurance with advanced traffic management (TM)
Comprehensive monitoring and diagnostics capabilities
Fast and reliable protection at link level and service level
Fast and simple provisioning of large scale networks with Zero- touch provisioning capabilities
Synchronization in any packet networks
Synchronous Ethernet (ETX-205A only)
IEEE1588v2 PTP Transparent Clock (TC)
SLA assurance with advanced traffic management (TM) provides HQOS capabilities for multiple services per port and per unit.
Comprehensive monitoring and diagnostics capabilities offer SLA monitoring throughout the life cycle of the system:
Before a service is implemented it can be tested with hardware based OAM and embedded RFC-2544 analyzer
While the service is running, accurate SLA measurement and performance monitoring are constantly monitoring the SLA and generate in case of SLA violation
Loopback and other OAM features are used to quickly locate failures when they occure.
Fast and reliable protection at link level and service level provide carrier class behavioure and include:
LAG and dual homing for link protection
G.8031 for service level protection
Fault propagation for fast failure detection by end user
Fast and simple provisioning of large scale networks with Zero-touch provisioning capabilities enable large scale deployemnts
Synchronization in any packet network integrating:
SyncE at physical interface levels
1588v2 PTP based TC for synchronization over packet networks
The next parts of the presentation will describe these features in more details.

12. Target Customers and Applications

13. Carrier Ethernet Market Segments
Retail & Business Services
Inter-office connectivity, Internet access, Storage, Banks
E-Line, E-LAN, E-Tree
Wholesale services
Transport services for service providers, E-NNI
Mobile Backhaul - Wholesale/internal
2G, 3G, 4G-LTE Mobile Backhauling
CES, Synchronization, E-Line, E-LAN, E-Tree

14. 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
Customer Premises
RADview-EMS & Service Center
ISP
ETX-205A
GbE
Service Provider L2/L3 Network
ETX-203AX
FE/GE
Customer HQ
ETX-203AX/205A
SONET/
SDH
GbE
EoPDH
ETX-205A

15. Service Provider L2/L3/MPLS Network
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
Customer Premises
ETX-205A
ISP
Wholesale
Packet Network PE
ETX-203AX
RNC/4G Gateway
Service Provider L2/L3/MPLS Network
ETX-205A PE
Wholesale
TDM Network
ETX-203AX/205A
SONET/
SDH
EoPDH
GbE
ETX-205A

16. Mobile Demarcation with ETX-205A
Clock recovery based on or Synchronous Ethernet
Sync-E Clock
Source
IEEE
Grandmaster Clock TC
ETH
ETX
IP NodeB
External Clock
Source
PoP Site PE PE
ETH
Transport
Network:
ETH/IP/MPLS
ETX
IP NodeB
RNC/
4G Gateway
ETX-205 units are specially designed for mobile backhauling applications where they act as the mobile demarcation devices.
When implemented as mobile demarcation, the operator benefits not only from the advanced TM and per flow SLA measurement capabilities but also from telecom grade synchronization.
(Click) When the operator uses Sync-E as the synchronization reference, ETX-205A uses the network port signal to synchronize the equipment that is connected to any one of the user ports.
(Click) It is also equipped with External Clock input, enabling synchronization to a local reference clock and generation of Sync-E signal by that reference.
(Click) When 1588 is used in the networks, ETX-205A implements Transparent Clock functionality, capable of totally canceling its’ induced jitter. This apability is also supported by ETX-203AF.
Sync-E
IEEE (1588v2)
ETH
ETX
IP NonedB
Mobile Demarcation Device – Timing Gateway & Demarcation
Per-flow SLA measurements
Multiple synchronization over packet standards

17. Main Features

18. Connectivity Options with ETX
Carrier Ethernet Network CE
UNI
Point-to-Point EVC
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)
Carrier Ethernet Network CE
UNI
Point-to-Multipoint EVC
Carrier Ethernet Network CE
UNI
Any-to-any EVC

19. 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

20. 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)

21. Robust Service Management Ethernet OAM
Hardware OAM
Summary of available Ethernet OAM mechanisms
OAM Technology
End-End/Last Segment
Performance Monitoring
Type
Fault Propagation
IEEE (formerly 802.3ah)
Single Segment No
Link
IEEE 802.1ag
End-to-End
Connectivity
ITU-T Y.1731
Yes
Service

22. Hardware OAM vs. Software OAM
Feature
Software OAM
Hardware OAM
Benefits of Hardware-Powered OAM
OAM agility X √
OAM rate only limited by line speed
Multi-flow monitoring
Monitor multiple concurrent flows simultaneously (large number of MEPs)
Fast detection of connectivity failure
Fast failure restoration <50msec
Measurements of real frames as well as synthetic frames
Detects loss of even a single frame
Accurate measurement of delay and delay variation
Provides accurate FD/FDV measurements (nano second resolution)
Loopback at line rate
Allow line rate loopback for all MTU sizes, plus PRBS support
MIP Support
Fully participate as a maintenance intermediate point (MIP) between MEPs
We have spoken quite a bit about OAM, but it is important to note that OAM implementations vary with most of the switches, routers and demarcation devices implementing S/W-based OAM where OAM messages are typically forwarded to the CPU for processing. More powerful platforms such as RAD’s ETX demarcation device and EXFO’s verifier implement ultra-fast H/W powered OAM processing that provides the following benefits:
• Scalable, flow-level monitoring, where hundreds of OAM sessions can be monitored concurrently
• Immediate detection of loss of continuity (LOC), ensuring under 50 ms protection switching
• Highly accurate frame loss measurements with live traffic testing
• Loopback testing at line rate.

23. 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
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

24. 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

25. One-way delay measurement
One way delay measurement based on integrated GPS receiver in ETX-205A
Accurate and reliable results
Carriers can assure their committed KPI
Customers can measure conformance to carrier KPI
GPS antenna
GPS antenna
Customer Premises
ETX-205A/GPS CO
Service Provider L2/L3/MPLS Network
ETX-205A/GPS
Wholesale
Packet Network PE
ETX-205A/GPS
Accurate one-way delay measurement based on GPS time stamping

26. 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
“Loopback packets which have VID 100 & IP SA perform IP & MAC swap”
“Send a packet with VID 100 and IP SA and wait for a reply
Network
Tester

27. RFC-2544 Measurements to Ensure Service Parameters
Branch A
Traffic Generation and loopback per RFC-2544
Headquarters
Real Time PE
ETX
UNI
EVC
Priority Data
Best Effort
Real Time
ETX PE
Priority Data
EVC 1
PSN
Best Effort
EVC 2
Branch B
Real Time
Real Time
IP DSLAM
ETX
EVC
Priority Data
Priority Data
Best Effort
Best Effort
Layer 1 Loopback –
Out of service – disrupts service
Cannot traverse Ethernet bridge
Supported on any ETX port
Layer 2/3 Loopback – IP & MAC swap
Performed per VLAN (or EVC)
In Service- during service
Can traverse Ethernet bridges (L2)
Can traverse Ethernet bridges & routers (L3)
UNI
Used before service is commissioned to ensure service parameters
Measures Latency, Loss and Throughput
Up to 8 sessions simultaneously

28. 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
Layer 1 Loopback –
Out of service – disrupts service
Cannot traverse Ethernet bridge
Supported on any ETX port
Layer 2/3 Loopback – IP & MAC swap
Performed per VLAN (or EVC)
In Service- during service
Can traverse Ethernet bridges (L2)
Can traverse Ethernet bridges & routers (L3)

29. 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/yy hh: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] | | | | | | | |
Theoretical maximum [fps] | | | | | -  | | |
Throughput [fps] | | | | | | | |
success [%] | | | | | | | |
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
Latency [ms] | | | | | -  | | |

30. RFC-2544 Reports on RADview
Frame loss
Delay Measurement
Throughput
Note for the presenter: the test scenario in this case is of a single node with a 25M policed and shaped service. The packet loss is due to policing and shaping and the DM and throughput refer to the same case.

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

32. 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
PSN
Single homing
CPE
Dual homing
CPE
PSN

33. Ethernet Linear Protection based on G.8031
Automatic Protection Switching (APS)
Automatic Protection Switching (APS)
Local Customer Premises
Remote Customer Premises
CPE
NTU PE PE
NTU
CPE
CC OAM
Ethernet 1
CC OAM 2
RDI on CC message
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
G.8031 provides fast service level protection across the network. EVCs are assigned to protection groups (up to 4 protection groups per unit, each carries multiple EVCs.).
A pair of protection group entities at opposite sites are connected via two links (typically two VLANs) and the APS mechanism sets one as active and one as protecting. All traffic is assigned to the active connection whicle OAM messages continously monitor both active and protection path.
In case of failure in the active path, the traffic is autmatically diverted to the protection path. This is achived in under 50msec for a single proteection group and up to 200msec in the case of 4 protection groups.

34. Fault Propagation Based on OAM Loss Of Connectivity
Receive RDI
State LOC
Local Customer Premises
Remote Customer Premises
CPE
NTU PE PE
NTU
CPE
CC OAM
Ethernet 1
CC OAM 2
RDI on CC message
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

35. Fault Propagation Based on OAM Remote User Failure
Local Customer Premises
Remote Customer Premises
CPE
NTU PE PE
NTU
CPE
CC OAM
Ethernet 1
CC OAM 2
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 35

36. Layer 2 Protocol Tunneling (L2PT)
Local Customer Premises
Remote Customer Premises
CPE
NTU PE
Ethernet PE
NTU
CPE
L2 PDU
L2 PDU 1 2
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

37. Zero-Touch Provisioning
NMS and
FTP Server
DHCP
Server
ETX w/
DHCP
Client
CPE
PSN
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

38. Synchronization in ETX-205A
Simultaneous support of Synchronous Ethernet (SyncE) and IEEE-1588v2 Precision Time Protocol
Physical Interface
Functionality
RJ-45 (EXT-CLK)
T3/T4 Clock E1 or T1 or 2 Mhz
Mini-BNC (EXT-CLK)
Clock out 2 MHz and 2Mbps
Mini-BNC (1 PPS)
1 PPS output or input configurable
RJ-45 (ToD/1PPS)
1PPS in or out configurable
TOD Rx & Tx (HW ready)

39. 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

40. Clock recovery based on 1588-2008 or Synchronous Ethernet
IEEE 1588v2 Support
Clock recovery based on or Synchronous Ethernet
IEEE
Grandmaster Clock
Transport
Network:
ETH/IP/MPLS
PoP Site PE PE
RNC/
4G GW TC
ETH
ETX
IP NodeB
1588v2 provides clock distribution over any packet network
Accurate timing - frequency lock ±16ppb
ETX product line offers Transparent Clock (TC) with HW- based time stamping
ETX-205A is HW ready for 1588v2 slave and Time of Day (ToD) functionalities
1588v2 encapsulation over IP\UDP
Sync-E
IEEE (1588v2)

41. Management

42. RADview-EMS Key Features & Benefits
GUI vs CLI
Network Inventory and Discovery
Performance Management and SLA
ETX-205A and ETX-203AX are managed via RADview 3.10.
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
SLA Assurance System
Real time PM, utilization and threshold management.
Premium services , trending and analysis

43. 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

44. 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

45. ETX Management Features
Trap Synchronization preventing loss of traps
Security ensuring communication privacy user authentication
SNMPv3
RADIUS (client authentication)
TACACS+ (client authentication)
SSH for Secure Shell communication session
Syslog used for logging system events
SFTP and TFTP for enabling different levels of file transfer security

46. Ordering Information

47. ETX-205A Ordering Information
Model
Description
ETX-205A/AC/19/SYE
6 combo GE ports, single AC power supply, 19” metal enclosure, Sync-E support.
ETX-205A/ACR/19/PTP
6 combo GE ports, 2 AC power supply (redundant), 19” metal enclosure, Sync-E support, HW ready for 1588v2.
ETX-205A/DCR/19/GPS
6 combo GE ports, 2 DC power supply (redundant), 19” metal enclosure, Sync-E support, integrated GPS receiver for one-way delay measurement
Note: ETX-205A can be provided with one or two, AC or DC power supplies

48. ETX-203AX Ordering Information
Model
Description
ETX-203AX/2SFP/4UTP
6 FE ports (2 SFP network ports, 4 UTP user ports), 2 shaped services, AC/DC power supply in ½ 19” plastic enclosure
ETX-203AX/2SFP/2SFP2UTP
6 FE ports (2 SFP network ports, 2 SFP and 2 UTP user ports), 2 shaped services, AC/DC power supply in ½ 19” plastic enclosure
SW options
Description GE
Upgrade all ports to GbE
GE30
Upgrade all ports to GbE, allow 30 shaped services

49. ETX Value Proposition Increase Revenues Reduce Costs
Address market demand by supporting SLA-backed Carrier Ethernet services for business, wholesale and mobile backhaul
Increase offering appeal by providing differentiated QoS to meet diverse customer needs
Reduce Costs
Lower OpEx with a rich set of multi-flow E-OAM testing and PM monitoring tools; eliminate unnecessary truck rolls and simplify operations throughout the service lifecycle
Save on CapEx by combining timing synchronization and demarcation functionalities in a single device
Reduce inventory costs with SFP/UTP combo ports and all-in-one device
Enhance Performance
Deliver end-to-end QoS and optimize network performance with sophisticated traffic management form the service hand-off
Ensure service resiliency with a variety of redundancy and protection schemes