fsp 150eg-x - · pdf file• 36 x 10/100baset (mini rj-21) • 10 x 100/1000basex (sfp)...

FSP 150EG-X

Product Overview

Our FSP 150EG-X is an edge gateway purpose-built to deliver cost-effective capacity, scalability and resiliency for Carrier Ethernet 2.0 service aggregation and handover in a central offi ce or other high-density environments. The high-capacity, non-blocking edge gateway provides a central aggregation solution for FSP 150CC Carrier Ethernet demarcation devices. It acts as a timing gateway for synchronization services and includes the termination of circuit emulation services. The FSP 150EG-X enables service providers to scale their Carrier Ethernet 2.0 backhaul offering to address larger applications while providing a manageable, cost-effective platform that is optimized to deliver intelligent services. With 24 slots that accept a variety of module types, the FSP 150EG-X can address different access technologies, including fi ber, PDH and SONET/SDH of various rates. The FSP 150EG-X enables a high degree of resiliency at the service and equipment level for mission-critical Carrier Ethernet 2.0 backhaul applications.

End-to-End Etherjack™ Service Assurance

Our FSP 150EG-X seamlessly integrates into any Carrier Ethernet OAM landscape. ADVA Optical Networking’s Etherjack™ technology enables service providers to offer intelligent service assurance, compliant with the latest OAM standards such as 802.3ah, 802.1ag, Y.1731 and Y.1564 (MEF-compliant). With its ultra-fast, hardware-based processing capabilities, the FSP 150EG-X performs SLA verifi cation with maximum precision and robust scalability. The MEF 2.0-certifi ed UNI / NNI function includes support for hierarchical QoS management.

Syncjack™ Timing Excellence

Its comprehensive Syncjack™ technology for timing distribution, monitoring and timing service assurance opens new revenue opportunities from the delivery of SLA-based synchronization services. Acting as a timing gateway, the FSP 150EG-X simul-taneously supports Synchronous Ethernet and IEEE 1588v2 across packet backhaul networks. Traditional T1/E1- or GPS-based synchronization can be replaced by precise synchronization with nanosecond accuracy and controlled timing over packet.

Ethernet Service Management

Our FSP 150EG-X provides a consistent design model, facilitating scalability and highest service availability in access and backhaul applications. With its integration into our fi eld-proven FSP Service Manager, the FSP 150EG-X facilitates operational effi ciency and high-velocity service rollout for mobile backhaul, wholesale access and business applications. It offers the simplicity to support thousands of Carrier Ethernet 2.0 services and enables service providers to keep pace with the constantly increasing demand for bandwidth and next-generation services.

Carrier Ethernet Aggregation & Service Gateway

Features & Benefi ts

• Optimized for ENNI demarcation, fulfi lling service hand-off requirements in open access, mobile backhaul and business Carrier Ethernet 2.0 applications

• Etherjack™ technology for solid service OAM performance, supporting a large number of monitored services and fl ows

• Comprehensive Syncjack™ gateway technology for timing distribution and delivery of SLA-based synchronization services

• Consistent design model for end-to-end Ethernet service management in combination with FSP 150CC products

• High degree of resiliency at the service and equipment level for backhaul network solutions, enabling highest service availability

Technical Information

For more information please contact an ADVA Optical Networking consultant or visit us at www.advaoptical.com

Data Sheet, version 07 / 2015

System Capacity• 140G centralized, full duplex switch fabric• 24 single-width / 12 double-width data traffic slots• Dedicated slots for switch fabric, shelf controller unit and timing module

Redundancy• Redundant switch fabric, shelf controller and timing module• Dual power supplies• Three modular fan trays

Network Topology• Linear point-to-point, hub-and-spoke, ring and mesh topologies

Traffic Modules• 36 x 10/100BaseT (Mini RJ-21)• 10 x 100/1000BaseX (SFP)• 1 x 10GBaseX (XFP) LAN/WAN-PHY• 4 x OC-3/STM-1 channelized or 1+1 OC-12/STM-4 channelized for EoSONET/SDH• 4 x OC-3/STM-1 channelized or 1+1 OC-12/STM-4 channelized for E1/T1 PWE3/SAToP

Protection and Resiliency• IEEE 802.3ad Link Aggregation – active/standby mode with optional load balancing• ITU-T G.8031 Network Path Protection Switching• ITU-T G.8032 Ethernet Ring Protection Switching• 1+1 SONET/SDH Linear Protection Switching

VLAN Support• 4096 VLANs per port• 2000 VLAN-based EVCs system-wide• IEEE 802.1Q customer-tagged and stacked VLANs (Q-in-Q)• 2-tag management (push / pop / swap) for c-tag and s-tag• IEEE 802.1ad Provider Bridging (c-tag, s-tag)• Configurable TPID for Q-in-Q frames

Traffic Management • Acceptable client frame policy: tagged or untagged• Service classification based on 802.1p, 802.1Q and IP-TOS/DSCP• MEF-compliant policing (CIR / CBS / EIR / EBS) with three-color marking and eight classes of service• Hierarchical queuing and shaping

Ethernet OAM• IEEE 802.3ah EFM-OAM Link Management• IEEE 802.1ag Connectivity Fault Management (CFM)• ITU-T Y.1731 Performance Monitoring• ITU-T Y.1564 Service Activation Testing with MEF-compliant SAT PDUs• Terminal and facility loopbacks on port- and VLAN-level for all interfaces • Cable diagnostics with benchmarks (electrical interfaces only)• MEF-compliant Layer 2 Control Protocol Disposition• Link Loss Forwarding for local link and network path failures

Performance Monitoring• RFC 2819 RMON Etherstats on a per-port and per-service basis• 5-minute, 15-minute and 1-day performance data bins• ITU-T Y.1731 Frame Loss and Delay Measurement• Synthetic Frame Loss and Delay Measurement• Multi-CoS monitoring on EVCs• Threshold-setting and threshold-crossing alerts• Physical parameter monitoring for SFP optics, including TCAs• MEF-35 / 36 SOAM PM collection

Synchronization• ITU-T G.8261 / G.8262 / G.8264 SyncE on all interfaces• Sync Status Message support

• IEEE 1588v2 PTP for Time-of-Day and frequency distribution• ITU-T G.8265.1 and G.8275.1 PTP Telecom Profiles, G.8273.2 Telecom Boundary Clock • Dual BITS-in and BITS-out with BITS Sync Status Messaging• Time-of-day input / output (1PPS, ToD) and 10MHz input / output• Hardware-based time-stamping with nanosecond accuracy• NTP client-mode operation supporting multiple servers

Low-Touch Provisioning• DHCP / BOOTP auto-configuration• IEEE 802.1x port authentication• Text-based configuration files• TFTP / SCP for software image upgrade and configuration file copy

Management and SecurityLocal Management• Serial connector (RS-232 / RJ45) using CLI• Two DCN LAN ports (RJ45) for DCN redundancy• Local LAN port (RJ45) using CLI, SNMP and Web GUI interfaces

Remote Management• Maintains VLAN and MAC-based management tunnels• Interoperability with FSP 150CP via EFM OAM extensions

Protocols• Telnet, SSH (v2), HTTP / HTTPS, SNMP (v1 / v3)

Secure Administration• Configuration database backup and restore• System software download via FTP, HTTPS, SFTP or SCP • Remote authentication via RADIUS• SNMPv3 with authentication and encryption• Access Control List (ACL)

IP Routing• DHCP, RIPv2 and static routes, ARP cache access control

System Logging• Alarm log, audit log and security log

Regulatory and Standards Compliance• MEF CE 2.0 certified• IEEE 802.1Q (VLAN), 802.1p (Priority), 802.1ag (CFM), 802.3ah (EFM), 802.1x• ITU-T Y.1731, G.8010 / Y.1306, G.8011.1+2, G.8012, G.8031 (APS)• MEF-6.1, 9, 10.2, 11, 14, 20, 21, 22.1, 23.1, 25, 26, 30, 33, 35• IETF RFC 2544 (Frame Tests), RFC 2863 (IF-MIB), RFC 2865 (RADIUS), RFC 2819 (RMON)• MEF-compliant ITU-T Y.1564 Service Activation Testing• ANSI C84.1-1989• ETSI 300 132-2, BTNR2511, ETS 300-019/-019-2-[1,2,3] /-753• NEBS Level 3 certified• Telcordia GR-499, GR-63-CORE, SR-332• Safety IEC / UL / EN 60950, 21CFR1040.10, EN 60825, EN 50371, EN 300-386, EN 50160, IEC 60320 / C14• EMI EN 300-386, GR-1089-CORE, ETS 300-132, FCC Part 15, Class B, Industry Canada

Environmental• Dimensions: 10U Chassis, 443mm x 444mm x 277mm / 17.4” x 17.5” x 10.9” (W x H x D), ETSI-compliant• Operating temperature: +0 to +45°C• Storage temperature: -40 to +70°C (GR-63-CORE) • Humidity: 5 to 95%, B1 (non-condensing)• Modular DC-PSU: -36 to -72VDC with over-voltage and over-current protection• Modular AC-PSU: 90 to 264VAC with over-voltage and over-current protection• Maximum power consumption: 950 Watts

Product specifications are subject to change without notice or obligation.

High-Speed Service Demarcation & Aggregation

Product Overview

Our FSP 150CC-XG210 provides a high-capacity 10 Giga-bit Carrier Ethernet aggregation solution enabling cost-effective delivery of Carrier Ethernet 2.0 services and highly accurate synchronization over fi ber-based access networks. The non-blocking design supports traffi c aggregation for up to 16 GbE ports and/or two 10GbE ports provided on hot-swappable access interface modules. Network interface protection, redundant power supplies and the temperature-hardened design ensure highest service availability.

Flexible Deployment Option

Designed for fl exibility and scalability, our FSP 150CC-XG210 can be deployed in point-to-point, hub-and-spoke and resilient access ring topologies. It can be used to provide an intelligent Ethernet service demarcation point and can act as a scalable central aggregation solution for other FSP 150CC devices. With its multitude of carrier-class protection and resiliency options, the FSP 150CC-XG210 supports the delivery of differentiated and highly reliable Carrier Ethernet 2.0 services across all access network topologies. Both LAN PHY and WAN PHY modes support deployment in Ethernet, SONET/SDH and OTN networks.

ADVA ConnectGuard™ Security

Our FSP 150CC-XG210 meets stringent privacy and confi dentiality requirements by encrypting traffi c already at the network edge. ADVA ConnectGuard™ Ethernet technology gives service providers plenty of opportunity for differentiation through service security in addition to end-to-end service level agreements and bandwidth on demand. It supports the increased security requirements imposed on access networks by NFV and meets the privacy requirements of open protocol, NFV-centric networks. For enterprises and government institutions, ADVA ConnectGuard™ Ethernet enables the transformation of traditional leased lines into secure and encrypted connectivity.


Its comprehensive Syncjack™ technology for timing distribution, monitoring, testing and timing service assurance opens new revenue opportunities from the delivery of SLA-based synchronization services. Offering unique fl exibility, our FSP 150CC-XG210 simultaneously supports Synchronous Ethernet and IEEE 1588v2 across packet backhaul networks. With its comprehensive

IEEE 1588v2 implementation, the FSP 150CC-XG210 can be confi gured to operate in Slave, Transparent Clock and Boundary Clock mode to enable highly accurate clock recovery.


The FSP 150CC-XG210 is designed for highest service availability. ADVA Optical Networking’s Etherjack™ demarcation technology enables service providers to offer an intelligent Carrier Ethernet 2.0 service demarcation point, compliant with the latest OAM standards such as 802.3ah, 802.1ag, Y.1731 and Y.1564. The FSP 150CC-XG210 also features synthetic frame loss and delay measurement for multi-point service monitoring. The sophisticated and MEF CE 2.0-certifi ed UNI function includes support for a large number of EVCs, as well as hierarchical QoS management. SLA verifi cation can be performed on a per-service basis to accurately measure latency, jitter and packet delivery performance.

FSP 150CC-XG210


• Optimized for high-speed Carrier Ethernet 2.0 access and aggregation applications supporting up to 40Gbit/s full-duplex capacity

• MEF Carrier Ethernet 2.0-certifi ed UNI/NNI implementation with hierarchical traffi c management scaling up to 1024 Ethernet Virtual Connections simultaneously

• Comprehensive Syncjack™ technology for timing distribution and delivery of SLA-based synchronization services

• Etherjack™ demarcation technology for support of stringent SLAs and integration with a wide range of back-offi ce support tools

• Hardware-based cryptographic methods for delivery of secure high-performance services




Access Capacity• Two slots for access interface modules with hot swap support• 1 x 10GbE XFP module• 1 x 10GbE SFP+ module• 8 x 1GbE (SFP) module• 8 x 1GbE (RJ45) module

Network Interface• Two 10GbE (XFP) ports

Network Interface Redundancy• IEEE 802.3ad Link Aggregation – active/standby mode with optional load balancing • ITU-T G.8031 Network Path Protection Switching• ITU-T G.8032 Ethernet Ring Protection Switching

Synchronization (Optional)• ITU-T G.8261 / G.8262 / G.8264 Synchronous Ethernet on all interfaces• Sync Status Message support• IEEE 1588v2 Precision Time Protocol (G.8265.1 and G.8275.1 PTP Telecom Profiles, G.8273.2 Telecom Boundary Clock)• BITS-in and BITS-out• BITS Sync Status Messaging• Input/output selectable ports for Time of Day, 10MHz clock and Pulse-Per-Second signals (1PPS)• Internal Stratum-3E clock with holdover

VLAN Support• 4096 VLANs (IEEE 802.1Q customer-tagged) and stacked VLANs (Q-in-Q service provider tagged)• 2-tag management (push / pop / swap) for c-tag and s-tag• IEEE 802.1ad Provider Bridging (c-tag, s-tag)• Ethertype translation• 1024 Ethernet Virtual Circuits (EVC)• 9612 byte per frame MTU transparency

Traffic Management• Acceptable client frame policy: tagged or untagged• Service classification based on 802.1p, 802.1Q and IP-TOS /DSCP• MEF-compliant policing (CIR / CBS / EIR /EBS) with three-color marking and eight classes of service• Hierarchical queuing and shaping• Rate shaping on transmit for both client and network ports• Broadcast / multicast rate limiting

Ethernet OAM • IEEE 802.3ah EFM-OAM Link Management• IEEE 802.1ag Connectivity Fault Management (CFM) with hardware assistance• ITU-T Y.1731 Performance Monitoring• ITU-T Y.1564 Service Activation Testing with MEF-compliant SAT PDUs • Terminal and facility loopbacks on port- and EVC-level for all interfaces • Embedded RFC 2544 test generator and analyzer (ECPA)• MEF-compliant Layer 2 Control Protocol Disposition and extensive filter options for Layer 2 packet types• Link Loss Forwarding to signal local link and network path failures• Dying gasp message for power failure alarming (EFM-OAM and SNMP trap option)• Environmental alarm inputs (dry contacts)

ConnectGuard™ Security 1• L2 MACsec encryption at line rate on a per-EVC basis• End-to-end encryption mode with one or two VLAN tags transmitted in the clear• Robust AES encryption algorithm• Key distribution based on IEEE 802.1X• Diffie-Hellmann key exchange process• Tamper resistant and evident enclosure• Full interoperability with all FSP 150 ConnectGuard™-enabled products

Low-Touch Provisioning• DHCP / BOOTP auto-configuration• IEEE 802.1x port authentication• Text-based configuration files• TFTP / SCP for software image upgrade and configuration file copy

1 FSP 150CC-XG210(C)

Performance Monitoring• RFC 2819 RMON Etherstats on a per-port and per-service basis• 15-minute and 1-day performance data bins• IEEE 802.3ah / ITU-T G.8021 PHY level monitoring• ITU-T Y.1731 single- and dual-ended Frame Loss Measurement• Synthetic Frame Loss and Delay Measurement for multi-point service monitoring• Multi-CoS monitoring on EVCs scaling up to 4096 simultaneous flows• Threshold-setting and threshold-crossing alerts• Physical parameter monitoring for XFP / SFP+ optics, including TCAs• Temperature monitoring and thermal alarms• MEF-35/36 SOAM PM collection

Management and Security

Local Management• Serial connector (RJ45) using CLI• Local LAN port (RJ45) using CLI, SNMP and Web GUI interfaces

Remote Management• Maintains in-band VLAN and MAC-based management tunnels• Fully interoperable with FSP 150CM and FSP 150CC products

Management Protocols• IPv4 and IPv6 DCN protocol stacks, including dual-stack operation and 6-over-4 tunnels• Telnet, SSH (v1 / v2), HTTP / HTTPS, SNMP (v1 / v2c / v3)

Secure Administration• Configuration database backup and restore• System software download via FTP, HTTPS, SFTP or SCP (dual flash banks)• Remote authentication via RADIUS / TACACS• SNMPv3 with authentication and encryption• Access Control List (ACL)

IP Routing• DHCP, RIPv2, OSPF and static routes, ARP cache access control


Regulatory and Standards Compliance• MEF CE 2.0 certified• IEEE 802.1Q (VLAN), 802.1p (Priority), 802.1ag (CFM), 802.3ah (EFM), 802.1x• ITU-T Y.1731, G.8010/Y.1306, G.8011.1+2, G.8012, G.8031 (APS)• MEF-6.1, 9, 10, 11, 14, 20, 21, 22.1, 23.1, 25, 26.1, 30, 33, 35• IETF RFC 2544 (Frame Tests), RFC 2863 (IF-MIB), RFC 2865 (RADIUS), RFC 2819 (RMON)• MEF-compliant ITU-T Y.1564 Service Activation Testing• ANSI C84.1-1989• ETSI 300 132-2, BTNR2511, ETS 300-019, ETS 300-019-2-[1,2,3], ETS 300-753• NEBS Level 3 certified• Telcordia GR-499, GR-63-CORE, SR-332• Safety IEC / UL / EN 60950, 21CFR1040.10, EN 60825, EN 50371, EN 300-386, EN 50160, IEC 60320/C14• EMI EN 300-386, GR-1089-CORE, ETS 300-132, FCC Part 15, Class A, Industry Canada

Environmental• Dimensions: 1U compact chassis, 439mm x 43mm x 269mm / 17.3” x 1.75” x 10.6” (W x H x D), ETSI-compliant• Operating temperature: -40 to +65°C (hardened environment)• Storage temperature: -40 to +70°C (GR-63-CORE)• Humidity: 5 to 95%, B1 (non-condensing)• Modular AC-PSU: 90 to 264VAC (47 to 63Hz) with over-voltage and over-current protection• Modular DC-PSU: -36 to -72VDC or +18 to +30VDC with over-voltage and over-current protection• Maximum power consumption: 100 Watts


Multi-Functional Ethernet Service Demarcation

Product Overview

Optimized for mobile backhaul applications, our FSP 150CC-GE206 enables cost-effective delivery of Carrier Ethernet 2.0 services and highly accurate synchronization over fi ber-based access networks. With six Ethernet service ports plus two expansion slots for personality modules, the FSP 150CC-GE206 is capable of supporting multiple customers or service confi gurations. The optional personality module slots support additional Ethernet ports or circuit emulation modules for T1/E1 or OC-3/12 and STM-1/4 services. Network interface protection, redundant power supplies and the temperature-hardened design ensure highest service availability.


Its comprehensive Syncjack™ technology for timing distribution, monitoring and timing service assurance opens new revenue opportunities from the delivery of SLA-based synchronization services. Offering unique fl exibility, our FSP 150CC-GE206 simultaneously supports Synchronous Ethernet and IEEE 1588v2, and has a built-in GPS receiver. Traditional T1/E1-based synchronization can now be replaced with highly accurate synchronization and controlled timing over packet. The internal Stratum-3 clock is capable of holdover to support remote site, head-end and feeder applications.


Our FSP 150CC-GE206 is designed for highest service availability. ADVA Optical Networking’s Etherjack™ demarcation technology enables service providers to offer an intelligent Carrier Ethernet 2.0 service demarcation point, compliant with the latest OAM standards such as 802.3ah, 802.1ag, Y.1731 and Y.1564. The FSP 150CC-GE206 also features synthetic frame loss and delay measurement for multi-point service monitoring. The sophisticated and MEF-certifi ed UNI function includes support for a large number of EVCs and hierarchical QoS management. SLA verifi cation can be performed on a per-service basis to accurately measure latency, jitter and packet delivery performance.

Real-Time Performance Data and Live Analysis

High-performance trading applications drive per-formance management functions that go well beyond traditional Ethernet service demarcation. They include the ability to monitor service performance in real time and to analyze critical transactions at microsecond level. Our FSP 150CC-GE206 provides enhanced real-time streaming of performance data to react in microburst traffi c conditions. In addition, data of interest can be fi ltered and mirrored to dedicated destinations for remote analysis in real time.

FSP 150CC-GE206


• Optimized for intelligent mobile backhaul Carrier Ethernet 2.0 applications and seamless migration from 3G to 4G radio access

• MEF 2.0-certifi ed UNI/NNI implementation with hierarchical traffi c management for advanced service defi nition and low-latency forwarding

• Comprehensive Syncjack™ technology for timing distribution and delivery of SLA-based synchronization services

• Etherjack™ demarcation technology for support of stringent SLA monitoring, including real-time streaming of performance data

• Traffi c mirroring with truncation and highly accurate timestamp options for sub-microsecond analysis of critical data transactions




Access Capacity• Six 100/1000BaseX (SFP) ports or three 10 / 100 / 1000BaseT ports, plus three 100 / 1000BaseX (SFP) ports• Optional 16 or 32 T1/E1 circuit emulation ports• Optional four STM-1 / 4 or OC-3 / 12 circuit emulation ports • Optional four or eight GbE port expansion module

Network Interface• 2 ports 100 / 1000BaseX (SFP)

Network Interface Redundancy• IEEE 802.3ad Link Aggregation – active / standby mode with optional load balancing • ITU-T G.8032 Ethernet Ring Protection Switching

Synchronization• ITU-T G.8261 / G.8262 / G.8264 Synchronous Ethernet on all interfaces• ITU-T G.8275.1 Telecom Profile• Sync Status Message support• IEEE 1588v2 Precision Time Protocol• BITS-in and BITS-out• BITS Sync Status Messaging• External time-of-day input and 10MHz input / output (1PPS, ToD)• Internal Stratum-3 clock with holdover• Built-in GPS receiver

T1 / E1, OC-3 / 12 and STM-1 / 4 Circuit Emulation• Un-channelized (SAToP)

VLAN Support• 4096 VLANs (IEEE 802.1Q customer-tagged) and stacked VLANs (Q-in-Q service provider-tagged)• 2-tag management (push / pop / swap) for c-tag and s-tag• IEEE 802.1ad Provider Bridging (c-tag, s-tag)• Ethertype translation

Traffic Management• Acceptable client frame policy: tagged or untagged• Service classification based on 802.1p, 802.1Q and IP-TOS/DSCP• MEF-compliant policing (CIR / CBS / EIR / EBS) with three-color marking and 8 classes of service• Hierarchical queuing and shaping• Port shaping on transmit for both client and network ports

Ethernet OAM • IEEE 802.3ah EFM-OAM Link Management• IEEE 802.1ag Connectivity Fault Management (CFM) with hardware assistance• ITU-T Y.1731 Performance Monitoring• Y.1564 Service Activation Testing• Terminal and facility loopbacks on port- and EVC-level for all interfaces • Cable diagnostics with benchmarks (electrical interfaces only)• Embedded RFC 2544 test generator and analyzer (ECPA)• MEF-compliant Layer 2 Control Protocol Disposition and extensive filter options for Layer 2 packet types• Link Loss Forwarding to signal local link and network path failures• Dying gasp message for power failure alarming (EFM-OAM and SNMP trap option)

Performance Monitoring• RFC 2819 RMON Etherstats on a per-port and per-service basis• 15-minute and 1-day performance data bins• IEEE 802.3ah/ITU-T G.8021 PHY level monitoring• ITU-T Y.1731 single- and dual-ended Frame Loss Measurement• Synthetic Frame Loss and Delay Measurement for multi-point service monitoring• Multi-CoS monitoring on EVCs scaling up to 512 simultaneous flows• Threshold-setting and threshold-crossing alerts• Physical parameter monitoring for SFP optics, including TCAs• Temperature monitoring and thermal alarms

Enhanced Diagnostics and Real-Time Performance Management• Port-based traffic mirror with frame truncation and highly accurate timestamp options to facilitate sub-microsecond analysis• Enhanced TWAMP-like service monitoring with 10 millisecond granularity and real-time streaming for instantaneous performance analysis

Low-Touch Provisioning• DHCP/BOOTP auto-configuration• IEEE 802.1x port authentication• Text-based configuration files• TFTP for configuration file copy

Management and SecurityLocal Management• Serial connector (RJ45) using CLI• Local LAN port (RJ45) using CLI, SNMP and Web GUI interfaces

Remote Management• Maintains in-band VLAN and MAC-based management tunnels• Fully interoperable with FSP 150CM and FSP 150CC products

Management Protocols• IPv4 and IPv6 DCN protocol stacks, including dual-stack operation and 6-over-4 tunnels• Telnet, SSH (v1 / v2), HTTP/HTTPS, SNMP (v1 / v2c / v3)

Secure Administration• Configuration database backup and restore• System software download via FTP, HTTPS, SFTP or SCP (dual flash banks)• Remote authentication via RADIUS/TACACS• SNMPv3 with authentication and encryption• Access Control List (ACL)



Regulatory and Standards Compliance• MEF CE 2.0 certified• IEEE 802.1Q (VLAN), 802.1p (Priority), 802.1ag (CFM), 802.3ah (EFM), 802.1x• ITU-T Y.1731, G.8010/Y.1306, G.8011.1+2, G.8012, G.8032• MEF-6.1, -9, -10.2, -11, -14, -20, -21, -22.1, -23.1, -25, -26.1, -30, -33, -35, -36• IETF RFC 2544 (Frame Tests), RFC 2863 (IF-MIB), RFC 2865 (RADIUS), RFC 2819 (RMON)• MEF-compliant ITU-T Y.1564 Service Activation Testing• ANSI C84.1-1989• ETSI 300 132-2, BTNR2511, ETS 300-019, ETS 300-019-2-[1,2,3], ETS 300-753• NEBS Level 3 certified• Telcordia GR-499, GR-63-CORE, SR-332• Safety IEC / UL / EN 60950, 21CFR1040.10, EN 60825, EN 50371, EN 300-386, EN 50160, IEC 60320 / C14• EMI EN 300-386, GR-1089-CORE, ETS 300-132, FCC Part 15, Class A, Industry Canada



Wholesale Carrier Ethernet Service Demarcation

Product Overview

Optimized for mobile backhaul and large-scale wholesale Ethernet applications, the FSP 150CC-GE201 enables cost-effective delivery of Carrier Ethernet 2.0 services and highly accurate synchronization over fi ber-based access networks. All interfaces are copper and fi ber combo ports with Fast and Gigabit Ethernet multi-rate capability. Network interface protection, redundant power supplies and the temperature-hardened design ensure highest service availability.


Its comprehensive Syncjack™ technology for timing distribution, monitoring and timing service assurance opens new revenue opportunities from the delivery of SLA-based synchronization services. Offering unique fl exibility, the FSP 150CC-GE201 simultaneously supports Synchronous Ethernet and IEEE 1588v2 across packet backhaul networks. Traditional T1/E1- or GPS-based synchronization can now be replaced with highly accurate synchronization and controlled timing over packet.


The FSP 150CC-GE201 is designed for highest service avail-ability. ADVA Optical Networking’s Etherjack™ demarcation technology enables service providers to provide an intelligent Carrier Ethernet 2.0 service demarcation point, compliant with the latest OAM standards such as 802.3ah, 802.1ag, Y.1731 and RFC 2544. The FSP 150CC-GE201 also features synthetic frame loss and delay measurement for multi-point service monitoring. The sophisticated and MEF-certifi ed UNI function includes support for a large number of EVCs, as well as hierarchical QoS management. SLA verifi cation can be performed on a per-service basis to ensure strong latency, jitter and packet delivery performance for mission-critical applications.

Scalability for Wholesale Deployment

As Carrier Ethernet networks scale, low-touch pro-visioning capabilities become essential to ensure cost-effi cient service rollout and to signifi cantly reduce the need for truck rolls. With the extensive set of standards-based auto-confi guration functions and remote OAM capabilities built into the FSP 150CC-GE201, unskilled craft personnel can install and turn-up services without onsite provisioning. Combined with the FSP 150CM, a modular ENNI demarcation and aggregation solution, the FSP 150CC-201 is ideal for large-scale wholesale and open-access service offerings of intelligent Carrier Ethernet 2.0 services.

FSP 150CC-GE201


• Optimized for large-scale access network deployments in intelligent mobile backhaul and wholesale Carrier Ethernet 2.0 applications

• MEF-certifi ed UNI implementation with hierarchical traffi c management for advanced service defi nition and low-latency forwarding

• Comprehensive Syncjack™ technology for timing distribution and delivery of SLA-based synchronization services


• Low-touch provisioning capability to ensure that unskilled craft personnel can install and turn-up services without any onsite provisioning




Access Capacity• One port 10/100/1000BaseT or one port 100/1000BaseX (SFP)

Network Interface• 2 ports 10/100/1000BaseT or 2 ports 100/1000BaseX (SFP)

Network Interface Redundancy• LAG Active / Standby• ITU-T G.8031 Linear Protection Switching

Synchronization (optional)• ITU-T G.8261 / G.8262 / G.8264 Synchronous Ethernet on all interfaces• Sync Status Message support• IEEE 1588v2 Precision Time Protocol for Time of Day• BITS-in and BITS-out• BITS Sync Status Messaging

VLAN Support• 4096 VLANs (IEEE 802.1Q customer-tagged) and stacked VLANs (Q-in-Q service provider tagged)• 2-tag management (push/pop/swap) for c-tag and s-tag• IEEE 802.1ad Provider Bridging (c-tag, s-tag)• Ethertype translation• 128 Ethernet Virtual Circuits (EVC)• 9612 Byte per frame MTU transparency

Traffic Management• Acceptable client frame policy: tagged or untagged• Service classification based on 802.1p, 802.1Q and IP-TOS/DSCP• MEF-compliant policing (CIR/CBS/EIR/EBS) with 3-color marking and 8 classes of service• Hierarchical queuing and shaping• Port shaping on transmit for both client and network ports

Ethernet OAM • IEEE 802.3ah EFM-OAM Link Management• IEEE 802.1ag Connectivity Fault Management (CFM)• ITU-T Y.1731 Performance Monitoring• Terminal and facility loopbacks on port- and EVC-level for all interfaces • Cable diagnostics with benchmarks (electrical interfaces only)• Embedded RFC 2544 test generator and analyzer (ECPA)• MEF-compliant Layer 2 Control Protocol Disposition and extensive filter options for Layer 2 packet types• Link Loss Forwarding to signal local link and network path failures• Dying gasp message for power failure alarming

Performance Monitoring• RFC 2819 RMON Etherstats on a per-port and per-service basis• 15-minute and 1-day performance data bins• IEEE 802.3ah/ITU-T G.8021 PHY level monitoring• ITU-T Y.1731 single- and dual-ended Frame Loss Measurement• Synthetic Frame Loss and Delay Measurement for multi-point service monitoring• Multi-CoS monitoring on EVCs scaling up to 512 simultaneous flows• Threshold-setting and threshold-crossing alerts• Physical parameter monitoring for SFP optics, including TCAs• Temperature monitoring and thermal alarms

Low-Touch Provisioning• DHCP/BOOTP auto-configuration• IEEE 802.1x port authentication• Text-based configuration files• TFTP for configuration file copy


Remote Management• Maintains in-band VLAN and MAC-based management tunnels• Full interoperable with FSP 150CM and other FSP 150CC products

Management Protocols• Telnet, SSH (v1/v2), HTTP/HTTPS, SNMP (v1/v2c/v3)



System logging• Alarm log, audit log and security log

Regulatory and Standards Compliance• IEEE 802.1Q (VLAN), 802.1p (Priority), 802.1ag (CFM), 802.3ah (EFM), 802.1x• ITU-T Y.1731, G.8010/Y.1306, G.8011.1+2, G.8012, G.8031 (APS)• MEF-6.1, -9, -10.2, -11, -14, -20, -21, -22.1, -23.1, -25, -26.1, -30, -33, -35• IETF RFC 2544 (Frame Tests), RFC 2863 (IF-MIB), RFC 2865 (RADIUS), RFC 2819 (RMON)• ANSI C84.1-1989• ETSI 300 132-2, BTNR2511, ETS 300-019, ETS 300-019-2-[1,2,3], ETS 300-753• NEBS Level 3 certified• Telcordia GR-499, GR-63-CORE, SR-332• Safety IEC/UL/EN 60950, 21CFR1040.10, EN 60825, EN 50371, EN 300-386, EN 50160, IEC 60320/C14• EMI EN 300-386, GR-1089-CORE, ETS 300-132, FCC Part 15, Class A, Industry Canada


Compact Carrier Ethernet Service Demarcation

Product Overview

Designed for intelligent service demarcation at the edge of the network, our FSP 150CC-GE110 2.0 series enables cost-effective delivery of assured fi ber-based Carrier Ethernet services for mobile backhaul and wholesale Ethernet applications. The series of ultra-compact fi rst-mile demarcation devices provides a full range of multi-rate-capable Ethernet interfaces. The temperature-hardened design with no moving parts and optional network link protection ensures the highest service availability even in harsh environments.

Scalability for Large-Scale Deployment

As Carrier Ethernet networks scale, low-touch provisioning capabilities become essential to ensure cost-effi cient service rollout and to signifi cantly reduce the need for truck rolls. With the extensive set of standards-based auto-confi guration functions and remote OAM capabilities built into our FSP 150CC-GE110 series, unskilled craft personnel can install and turn up services fast and fl exibly without onsite provisioning. Combined with our FSP 150EG-X, an edge gateway device purpose-built for service aggregation and handover in central offi ce environments, the FSP 150CC-GE110 is ideal for large-scale mobile backhaul and wholesale offerings of intelligent Carrier Ethernet 2.0 services.

End-to-End Etherjack ™ Service Assurance

Our FSP 150CC-GE110 series is designed for highest service availability. Our Etherjack™ demarcation tech-nology enables service providers to offer an intelligent Carrier Ethernet 2.0 service demarcation point at customer premises and cell site locations. It is compliant with the latest OAM standards such as 802.3ah, 802.1ag, Y.1731 and Y.1564. The FSP 150CC-GE110 also features synthetic frame loss and delay measurement for multi-point service monitoring. SLA verifi cation functions are implemented in hardware and can be performed on a per-service basis to accurately measure latency, jitter and packet delivery performance.

Syncjack ™ Timing Excellence

Including comprehensive Syncjack™ technology for timing distribution, monitoring and timing service assurance, our FSP 150CC-GE110 series opens new revenue opportunities from the delivery of SLA-based synchronization services. Offering unique fl exibility, the series optionally supports Synchronous Ethernet and IEEE 1588v2. Traditional T1/E1- or GPS-based synchronization can now be replaced with highly accurate synchronization and controlled delivery of timing information across packet backhaul networks.

FSP 150CC-GE110 Series


• Designed for intelligent service demarcation at the edge of your network

• Ideal for large-scale mobile backhaul and wholesale Carrier Ethernet service deployment

• Flexible and advanced creation of SLA-backed and MEF-certifi able Carrier Ethernet 2.0 services

• Low-latency forwarding and high measurement resolution to ensure real-time services


• Comprehensive Syncjack™ technology for timing distribution and delivery of SLA-based synchronization services

• Power over Ethernet (PoE) for power sourcing multiple remote devices




Access Capacity• Two 1 / Four 2–6 10/100/1000BaseT or 100/1000BaseX (SFP) ports• Power over Ethernet (PoE) on all four access ports (IEEE 802.3at and 802.3af) 5

Network Interface• Two 10/100/1000BaseT or 100/1000BaseX (SFP) ports• One network port can be defi ned as an additional access port

Network Interface Redundancy• IEEE 802.3ad Link Aggregation – active/standby mode with optional load balancing • ITU-T G.8032 Ethernet Ring Protection Switching

Synchronization 3,6

• ITU-T G.8261 / G.8262 / G.8264 Synchronous Ethernet on all interfaces• ITU-T G.8275.1 Telecom Profi le• Sync Status Message support• IEEE 1588v2 Precision Time Protocol for Time of Day• BITS-in and BITS-out• BITS Sync Status Messaging• 1 PPS in / out• 10 MHz

VLAN Support• 4096 VLANs (IEEE 802.1Q customer-tagged) and stacked VLANs (Q-in-Q service provider tagged)• 2-tag management (push / pop / swap) for c-tag and s-tag• IEEE 802.1ad Provider Bridging (c-tag, s-tag)• Ethertype translation• 16 1 / 32 2–6 Ethernet Virtual Circuits (EVC)• 9612 byte per frame MTU transparency

Traffi c Management• Acceptable client frame policy: tagged or untagged• Service classifi cation based on IEEE 802.1p, 802.1Q and IP-TOS / DSCP• VLAN tag priority mapping (IEEE 802.1ad PCP encoding)• MEF-compliant policing (CIR / CBS / EIR / EBS) with three-color marking and eight classes of service• Port shaping on transmit for both client and network ports

Ethernet OAM • IEEE 802.3ah EFM-OAM Link Management• IEEE 802.1ag Connectivity Fault Management (CFM) with hardware assistance• ITU-T Y.1731 Performance Monitoring• ITU-T Y.1564 Service Activation Testing• Terminal and facility loopbacks on port- and EVC-level for all interfaces • Cable diagnostics with benchmarks (electrical interfaces only)• Embedded RFC 2544 test generator and analyzer (ECPA)• MEF-compliant Layer 2 Control Protocol Disposition and extensive fi lter options for Layer 2 packet types• Link Loss Forwarding to signal local link and network path failures• Dying gasp message for power failure alarming (EFM-OAM and SNMP trap option)

Low-Touch Provisioning• DHCP / BOOTP auto-confi guration• IEEE 802.1x port authentication• Text-based confi guration fi les• TFTP / SCP for software image upgrade and confi guration fi le copy

Performance Monitoring• RFC 2819 RMON Etherstats on a per-port and per-service basis• 15-minute and 1-day performance data bins• IEEE 802.3ah/ITU-T G.8021 PHY level monitoring• ITU-T Y.1731 single- and dual-ended Frame Loss Measurement• Synthetic Frame Loss and Delay Measurement for multi-point service monitoring

• Multi-CoS monitoring on EVCs scaling up to 64 1 / 128 2–6

simultaneous SOAM fl ows• Threshold-setting and threshold-crossing alerts• Physical parameter monitoring for SFP optics, including TCAs• Temperature monitoring and thermal alarms

Management and SecurityLocal Management• Serial connector (RJ45) using CLI• Local LAN port (RJ45) using CLI, SNMP and Web GUI interfaces• 3G / LTE USB interface

Remote Management• Maintains in-band VLAN and MAC-based management tunnels• Fully interoperable with FSP 150CM, FSP 150EG-X and other FSP 150CC products

Management Protocols• IPv4 and IPv6 DCN protocol stacks, including dual-stack operation and 6-over-4 tunnels• Telnet, SSH (v1 / v2), HTTP / HTTPS, SNMP (v1 / v2c / v3)

Secure Administration• Confi guration database backup and restore• System software download via FTP, HTTPS, SFTP or SCP (dual fl ash banks)• Remote authentication via RADIUS / TACACS• SNMPv3 with authentication and encryption• Access Control List (ACL)



Regulatory and Standards Compliance• MEF CE 2.0 certifi ed• IEEE 802.1Q (VLAN), 802.1p (Priority), 802.1ag (CFM), 802.3ah (EFM), 802.1x• ITU-T Y.1731, G.8010/Y.1306, G.8011.1+2, G.8012, G.8032• MEF-6.1, -9, -10.2, -11, -14, -20, -21, -22.1, -23.1, -25, -26.1, -30, -33, -35, -36• IETF RFC 2544 (Frame Tests), RFC 2863 (IF-MIB), RFC 2865 (RADIUS), RFC 2819 (RMON)• MEF-compliant ITU-T Y.1564 Service Activation Testing• ANSI C84.1-1989• ETSI 300 132-2, BTNR2511, ETS 300-019, ETS 300-019-2-[1,2,3], ETS 300-753• NEBS Level 3 certifi ed• Telcordia GR-499, GR-63-CORE, SR-332• Safety IEC / UL / EN 60950, 21CFR1040.10, EN 60825, EN 50371, EN 300-386, EN 50160, IEC 60320 / C14• EMI EN 300-386, GR-1089-CORE, ETS 300-132, FCC Part 15, Class A, Industry Canada

Environmental• Dimensions: 1U compact chassis, 220mm x 44mm x 212mm / 8.7” x 1.75” x 8.4” 1–3, 439mm x 44mm x 212mm / 17.3” x 1.75” x 8.4” (W x H x D) 4–6, ETSI-compliant• Operating temperature: -40 to +65°C (hardened environment)• Storage temperature: -40 to +70°C (GR-63-CORE)• Humidity: 5 to 95%, B1 (non-condensing)• Integrated PSU 1–3 / Redundant Modular PSU 4–6: 110/240 VAC, -48 to -72VDC or +24 to +30VDC with over-voltage and over-current protection• Maximum power consumption: 20 Watts 1–4,6 / 200 Watts 5• Dry alarm contacts 4–6

Product specifi cations are subject to change without notice or obligation.

2 FSP 150CC-GE114 1 FSP 150CC-GE112 3 FSP 150CC-GE114S 4 FSP 150CC-GE114H 5 FSP 150CC-GE114PH 6 FSP 150CC-GE114SH

Intelligent Carrier Ethernet Service Demarcation

Product Overview

The FSP 150CC-825 provides Carrier Ethernet service extension over fi ber for service providers looking to deploy intelligent and differentiated services. The device can work with ADVA Optical Networking’s aggregation platform, with industry-standard data switches and routers and in book-ended applications. With fi ve Ethernet service ports and advanced service defi nition capabilities, the FSP 150CC-825 is capable of supporting multiple customers and multiple services over a shared network connection. Network interface protection and redundant power supplies ensure highest service availability.

Service Intelligence

The sophisticated and MEF-certifi ed UNI function is designed for highest performance and provides the service intelligence necessary to offer a differentiated Carrier Ethernet service portfolio. Rate limitation, scheduling and shaping per EVC and CoS allows service providers to maintain QoS commitments and ensure fair bandwidth distribution even when network resources are over-subscribed or congested. The FSP 150CC-825 supports a large number of EVCs and hierarchical QoS management to support all E-Line, E-LAN and E-Tree applications. It enables service providers to deliver Ethernet services that can be remotely confi gured, monitored and managed.


The FSP 150CC-825 is designed for highest service availability and scalability. ADVA Optical Networking’s patent-pending Etherjack™ demarcation technology enables service providers to provide an intelligent Carrier Ethernet service demarcation point, compliant with the latest OAM standards such as 802.3ah, 802.1ag, Y.1731 and RFC 2544. SLA verifi cation can be performed on a per-service basis to ensure high latency, jitter and packet delivery performance for mission-critical applications. With its in-service and out-of-service loopback testing capability, service verifi cation can be performed at turn-up and on-demand without service interruption.

Scalability for Wholesale Deployment

As Carrier Ethernet networks scale, low-touch provisioning capabilities become essential to ensure cost-effi cient service rollout and to signifi cantly reduce the need for truck rolls. With the extensive set of standards-based auto-confi guration functions and remote OAM capabilities built into the FSP 150CC-825, unskilled craft personnel can install and turn-up services without onsite provisioning.

FSP 150CC-825


• Optimized for MEF-certifi able business Ethernet and Internet access services with advanced service intelligence for integrated service delivery

• MEF-certifi ed UNI implementation with hierarchical traffi c management for advanced service defi nition and low-latency forwarding


• Low-touch provisioning capability to ensure that unskilled craft personnel can install and turn-up services without any onsite provisioning

• Network interface protection and redundant power supplies match requirements for highest service availability




Access Capacity• 4 ports 10/100BaseT ports plus 1 port 10/100/1000BaseT or 100/1000BaseX (SFP)

Network Interface• 2 ports 100/1000BaseT or 100/1000BaseX (SFP)

Network Interface Redundancy• LAG Active / Standby

VLAN Support• 4096 VLANs (IEEE 802.1Q customer-tagged) and stacked VLANs (Q-in-Q service provider-tagged)• 2-tag management (push/pop/swap) for c-tag and s-tag• IEEE 802.1ad Provider Bridging (c-tag, s-tag)• Ethertype translation

Traffic Management• Acceptable client frame policy: tagged or untagged• Service classification based on 802.1p, 802.1Q and IP-TOS/DSCP• MEF-compliant policing (CIR/CBS/EIR/EBS) with 3-color marking and 8 classes of service• Hierarchical queuing and shaping• Port shaping on transmit for both client and network ports

Ethernet OAM • IEEE 802.3ah EFM-OAM Link Management• IEEE 802.1ag Connectivity Fault Management (CFM)• ITU-T Y.1731 Performance Monitoring• Terminal and facility loopbacks on port- and EVC-level for all interfaces • Cable diagnostics with benchmarks (electrical interfaces only)• Embedded RFC 2544 test generator and analyzer (ECPA)• Multi-vendor SLA monitoring with UDP/ICMP echo and ICMP timestamp (ESA)• MEF-compliant Layer 2 Control Protocol Disposition and extensive filter options for Layer 2 packet types• Link Loss Forwarding to signal local link and network path failures• Dying gasp message for power failure alarming

Performance Monitoring• RFC 2819 RMON Etherstats on a per-port and per-service basis• 15-minute and 1-day performance data bins• IEEE 802.3ah/ITU-T G.8021 PHY level monitoring• ITU-T Y.1731 single- and dual-ended Frame Loss Measurement• Multi-CoS monitoring on EVCs• Threshold-setting and threshold-crossing alerts• Physical parameter monitoring for SFP optics, including TCAs• Temperature monitoring and thermal alarms

Low-Touch Provisioning• DHCP/BOOTP auto-configuration • 802.1x port authentication• Text-based configuration files• TFTP for configuration file copy


Remote Management• Maintains in-band VLAN and MAC-based management tunnels• Full interoperability with FSP 150CM and FSP 150CC products

Management Protocols• Telnet, SSH (v1/v2), HTTP/HTTPS, SNMP (v1/v2c/v3)



Regulatory and Standards Compliance• IEEE 802.1Q (VLAN), 802.1p (Priority), 802.1ag (CFM), 802.3ah (EFM), 802.1x• ITU-T Y.1731, G.8010/Y.1306, G.8011.1+2, G.8012, G.8031 (APS)• MEF-6, MEF-9, MEF-10.1, MEF-11, MEF-14, MEF-21• IETF RFC 2544 (Frame Tests), RFC 2863 (IF-MIB), RFC 2865 (RADIUS), RFC 2819 (RMON)• ANSI C84.1-1989• ETSI 300 132-2, BTNR2511, ETS 300-019, ETS 300-019-2-[1,2,3], ETS 300-753• NEBS Level 3 certified• Telcordia GR-499, GR-63-CORE, SR-332• Safety IEC/UL/EN 60950, 21CFR1040.10, EN 60825, EN 50371, EN 300-386, EN 50160, IEC 60320/C14• EMI EN 300-386, GR-1089-CORE, ETS 300-132, FCC Part 15, Class A, Industry Canada

Environmental• Dimensions: 1U compact chassis, 439mm x 43mm x 269mm / 17.3” x 1.7” x 10.6” (W x H x D), ETSI-compliant• Operating temperature: 0 to +50°C• Storage temperature: -40 to +70°C (GR-63-CORE) • Humidity: 5 to 95%, B1 (non-condensing)• Modular AC-PSU: 90 to 264VAC (47 to 63Hz) with over-voltage and over-current protection• Modular DC-PSU: -36 to -72VDC or +18 to +30VDC with over-voltage and over-current protection• Maximum power consumption: 25 Watts

3ADVA FSP 3000 CloudConnect™

Terascale Transport for the Cloud of Tomorrow

ADVA FSP 3000 CloudConnect™


Consumer habits, business practices and bandwidth consump-tion trends are ever changing, and so must the networks that serve them. The two biggest trends in bandwidth consump-tion have been a shift to mobile access and cloud service. This has led to the rise of successful Internet Content Providers (ICPs) and Data Center Operators (DCOs). And with their rise has come an eagerness to question the way their underlying networks are architected and built. No longer satisfi ed to re-use telecommunications equipment designed for the internet of old, they have spearheaded efforts to create Data Center Interconnect (DCI) networks that better meet their needs.

From Telecom to Datacom

The very fundamental architecture of how data is transported is undergoing a sea of change. Where content is located, and how it is delivered is changing. And we purveyors of optical transport must change with it, or risk being obsoleted.

To understand where networks are headed, one must fi rst un-derstand where they have been with telecommunication. These tended to be redundant, protection switched physical rings with add/drop nodes at each city passed. Packets were encap-sulated into OTN containers, with OTN switches used for fi ner granularity add/drop. The shipping lanes on fi ber paths were controlled via a network controller with the goal of optimiz-ing said paths, with little to no optimization of what might be contained within the containers. Physical transport and data transport were iso-lated entities. While routers used vari-ous protocols to try their best to optimize packet throughput, they were at the mercy of what the OTN network could and couldn’t do. As bandwidth consumption became more mobile and real-time, the only way IP/OTN networks could keep up was with heavy overprovisioning beyond all reason. And overprovisioning leads to waste, the bane of Data Centers’ existence.

A Better Way

Seeing the shortcomings in their early networks, ICPs and DCOs developed a better way. Data distributed across a load-balanced cloud is already redundant many times over, so out went fi ber level protection switching, including the redun-dant fi ber rings required. The switching granularity of optical wavelengths and OTN containers is too coarse for their needs, so out went wavelength and OTN switching. There was little value in trying to optimize fi ber, OTN, and transport paths, as what was really needed was optimization of end-to-end mul-tilayer fl ows, so out went any intelligent controllers. Instead, everything is tied to a common orchestration layer.

Times have changed. The enemy is no longer longevity of equipment, with a focus on how many decades the equipment can be milked for revenue. The enemy is now technology ob-solescence, with a focus on how quickly can equipment be in-stalled and removed, while in-service. The emphasis is no lon-ger minimizing truck rolls and the cost they entail, but rather minimizing power consumption and footprint. The competition is no longer who can have the most stalwart network, but who has the newest, most bleeding-edge network.

How DCI is Different

Yes, a new age has dawned in networking. All the world’s information resides in mega data centers around the globe,

in massive leaf-and-spline horizontal arrays of servers. These data centers themselves are interconnected with massive DCIs, both be-tween themselves, and to local content cach-ing sites. The fi ber op-tic links are encrypted in-fl ight to protect the value of the informa-tion being carried. The

equipment may be at owned or leased sites, private or shared. The optical transport gear and the associated network ele-ments are fully open, both the hardware and software. Rather than make decisions best for local conditions, the transport network now defers to an orchestration layer with full visibility of multilayer packet fl ows and asset utilization.

The Rise of DCI Networks

How the Network has Changed• The intelligence to optimize traffic no longer resides in network layer• Traffic has shifted from packets to flows• Horizontal traffic now dominates vertical• Global caching makes encryption everywhere necessary• Closed network management systems no longer tolerated

Co-Lo Sites

Smaller Edge Sites

Mega Data Center

128 Channels37.5GHz

Fully Open API’s

In-FlightEncryption

8Tbit/s Transport80 100G ClientUp to 800 10G 10x10GbE: 1-100GbE

RESTCONF

NETCONFCLI REST

2.8Tbit/s Transport28 100G ClientUp to 280 10G

Open OpticalLine System

2 3ADVA FSP 3000 CloudConnect™

ICPs’ and DCOs’ needs are unique, so why should they settle for anything less than DCI optimized optical transport gear? They need something small and effi cient today, yet will scale indefi nitely for tomorrow. They have to fi t into smaller shared co-location facilities, yet they would like the same equipment to form the backbone of their network. They want to minimize the number of inventoried items, yet still maintain fl exibility to support new client interfaces as they arise. They want their network managers to have full visibility of the network, includ-ing the transport gear, yet they don’t want to have to deal with archaic physical network managers. In other words, they need the ADVA FSP 3000 CloudConnect™.

DCI’s Sweet Spot

With all the hype around 1RU monolithic “pizza box” style transport products, one would think that smaller must be bet-ter. But ADVA Optical Networking did not assume anything. We worked in close association with Internet Content Provid-ers (ICPs) and Data Center Operators (DCOs) and asked them what was best. Their answer? Something around 4RU.

Turns out there are problems with 1RU and monolithic prod-ucts. 1RU products require too many chassis to manage, as for each chassis, there are redundant power supplies, power connections, fan modules, and management interfaces to deal with. They are a great place to start a transport service, but once bandwidth demand outgrows the chassis capacity, scaling becomes awkward. Making an undersized chassis monolithic (fi xed ports) only compounds the problem, as now a differ-ent chassis variant must be stocked for every port type. And as new client types are introduced, existing chassis must be ripped out and replaced with new ones.

The ADVA FSP 3000 CloudConnect™ was designed by and for DCI customers. The 4RU chassis is in the “Goldilocks zone”, as it is large enough to both scale and reduce inventory sprawl, but still small enough to squeeze into available rack space while minimizing co-location leasing costs. Where needed, it functions as a monolithic chassis, with the majority of commons equipment inte-grated; but also where need-ed, it acts as a blade chassis, with redundant, removable shelf controllers, data ports on line cards, and rear ac-

cessible redundant power supplies and connections. In this case, multiple personalities equals optimal confi guration. And for DCI customers who have committed to blade server archi-tectures and want a similar transport solution, the FSP 3000 is also available in an ETSI 300mm deep 12RU chassis.

FSP 3000 QuadFlex™ Card

The DCI application requires unprecedented levels of fl exibility, and the FSP 3000 QuadFlex™ line card delivers. The single slot line card offers an astounding 800Gbit/s of capacity, shared among 4 client ports and 2 network ports, while drawing only typically 140 Watts. The 4 client ports are each 100Gbit/s QSFP28 interfaces supporting 100Gbit/s Ethernet and OTU4 protocols, as well as SR4, LR4, CWDM4, and AOC reaches.

The dual network ports can be confi gured a variety of ways to optimize distance vs bandwidth tradeoff, as well as grow incrementally from 100Gbit/s to 400Gbit/s transport capacity. At the lower end, a single QSFP28 may be populated and a single net-work port used for 100Gbit/s transport over 3500 kilometers! This capacity may be doubled with no reach penalty. At the high end, all 4 QSFP28 cli-ents are used with both network ports to create a pair of 200Gbit/s channels that can reach up to 800 kilometers. Unique to the ADVA FSP 3000 CloudConnect™ solution, the line card may also be confi gured for an in-between 300Gbit/s transport capacity. When thus confi gured, 3 QSFP28 clients are used in conjunction with a pair of network ports running 150Gbit/s per channel, for dis-tances up to 1500 kilometers.

A Complete Solution, OLS Included

What good is having a small 1RU transponder chassis, if it has to connect to a huge Optical Line Shelf (OLS)? The ADVA FSP 3000 CloudConnect™ includes channel multiplexers, optical amplifi ers, all the equipment necessary for end-to-end trans-port in most DCI applications. In fact, a key part of the solution is a 1RU channel multiplexer that will grow from a single 100Gbit/s channel all the way to 128 200Gbit/s channels, with-out the need for unsightly rats’ nests of cabling.

Another important part of the ADVA FSP 3000 CloudConnect™ solution is a single slot width EDFA optical amplifi er that great-ly simplifi es the total DCI solution. All that is needed is simple cabling between the mux and amplifi er. The output of the am-plifi er is ready for your fi ber pair.

The ADVA FSP 3000 CloudConnect™ Solution

The ADVA FSP 3000 CloudConnect™ Solution• Best-in-class metrics: 1.4Tbit/s per Rack Unit; 2Tbit/s per kW• Multiple chassis configurations available, including 4RU and 12RU• Same line cards may be used across all chassis configurations• Scales from a single 100Gbit/s to 128x200Gbit/s• Chassis configurations include optical line shelf components


While the word “Terabits” gets thrown around a lot in DCI these days, the truth is that Terabits is more of an end goal. For many ICPs and DCOs, today’s requirements can be as little as 100Gbit/s. And just because ICPs and DCOs are growing like crazy does not mean they are willing to waste money, power, or space. The price, power, and space margins are ra-zor thin in DCI, and an optical transport solution must deliver from the fi rst Gigabit to the last Terabit. The ADVA FSP 3000 CloudConnect™ was designed by ICPs and DCOs to meet their needs of today, while being able to scale seamlessly for their needs of tomorrow.

From that First 100Gbit/s Port

The minimum system confi guration of the ADVA FSP 3000 CloudConnect™ is a single chassis with a single FSP 3000 QuadFlex™ line card. Since the line card will support a single 100Gbit/s QSFP28 client feeding into a single 100Gbit/s net-work port, that is the minimum confi guration. For customers who wish to start out with a 400Gbit/s network channel plan, the line card may be fully confi gured for maximum capacity and throughput, and pay-as-you-grow pricing plans are avail-able, making the transition to 400Gbit/s networks as painless as possible. For customers who have the opposite problem and are not ready for 100Gbit/s granularity, 10Gbit/s multiplexing line cards are available.

This minimal confi guration is able to grow from that fi rst 100Gbit/s port to a total of 28x100Gbit/s client ports. This is suffi cient bandwidth to fi ll up 14x200Gbit/s WDM channels. An interesting midway point is 3 line cards and an amplifi er, providing 1.2Tbit/s of optical transport, enough to join the Terabit club.

Filling an Existing C-Band System

The majority of WDM transport networks today operate over a 40 channel plan in the C-band on 100 GHz grid spacing. For many customers, they want to move to the latest DCI op-tical transport technology, but they want to operate over their existing 40 channel grid. For this customer set, the ADVA FSP 3000 CloudConnect™ can be confi gured as 3 stacked 4RU chassis with a 40CSM channel multiplex-er and single amplifi er line card. This confi guration provides 8Tbit/s of optical transport over an existing 40-channel WDM grid.

Scaling to 25.6Tbit/s over a Single Fiber Pair

But some ICPs and DCOs are building global scale computing clouds. For these customers, they can nev-er have enough transport bandwidth between data centers. The performance of their compute cloud is direct-ly proportional to the inter-connection bandwidth, and they could use 100 Terabits today if available. For these customers, the same ADVA FSP 3000 CloudConnect™ solution that begins at a sin-gle 100Gbit/s port can scale all the way to 256x100G cli-ents, for total of 25.6Tbit/s transported over a single fi ber pair. What’s more, the 25.6Tbit/s fi ts into a single 19” rack, including channel multiplexers and amplifi ers.

The Price, Power, Size They Need Today with the Scale They Will Need Tomorrow

FSP 3000 Cloud Connect™:Unprecedented Scalability

100G Clients QuadFlex™ Line Cards WDM Channels Capacity (Tbit/s) Rack Units

1 1 1 0.1 4

4 1 2 0.4 4

12 3 6 1.2 4

28 7 14 2.8 4

80 20 40 8 14

256 64 128 25.6 40

ADVA FSP 3000 CloudConnect™ 5

Data Centers have state-of-the-art management software. Server loads are monitored and optimized, with loads contin-ually being balanced across all available resources within their walls. However, what happens when the same is tried between Data Centers, outside their walls? A roadblock is hit. Tradition-al network management software is not compatible with Data Center software, thus preventing the latter from truly optimiz-ing end-to-end multilayer packet fl ows. DCI optimized optical transport such as the ADVA FSP 3000 CloudConnect™ removes that roadblock, allowing the optical transport piece to fi t ef-fortlessly and seamlessly into existing management systems, allowing global optimization of resource allocation.

Direct APIs to NE for Simple Connectivity

The level of sophistication required by DCI customers varies widely. For simple connectivity of point-to-point networks, of-ten direct APIs are the right choice. In this case, network ele-ments are provisioned using Command Line Interfaces (CLI), sometimes with scripting routines. One advantage of CLI is that it is human readable text, as opposed to encoded SNMP. The ADVA FSP 3000 CloudConnect™ CLI is similar to popular rout-er interfaces. If someone can provision a router, then they will have no trouble provisioning Terabit transport networks. Basic Representational State Transfer (REST) interfaces can be used here, as well.

Network-level APIs for Meshed Networks

When networks move beyond simple point-to-point links, and into more complex meshed network elements, then net-work-level APIs are required. The aforementioned RESTful inter-face is one example. Another is Network Confi guration Protocol (NETCONF) and uses an Extensible Markup Language (XML) to communicate to net-work elements. NET-CONF is already pop-ular with routers and switches. RESTCONF attempts to combine the best attributes of both REST and NETCONF, by using a RESTful interface running over HTTP for accessing data stored in NETCONF.

Network Hypervisor for Abstraction, Virtualization and Multi-Tenancy

When full optimization of end-to-end multilayer data fl ows is desired, then a greater level of intelligent control is required. The DCI transport network must become part of the overall re-sources being optimized, but this is prevented by the complexity inherent in optical transport. The solution is to add an additional hypervisor, a transport network hypervisor that abstracts the entire transport network and presents it to the orchestration layer in a format that it can understand. The ADVA FSP 3000 CloudConnect™ solution includes a transport network hypervi-sor with fully open Northbound interfaces. It can control any-thing, or be controlled by anything. It is not a network controller itself, but rather a translator that lets anyone or anything query and control the transport network. It sounds straightforward, but the end result is very powerful. For example, now an or-chestration application attempting to load balance across virtu-al machines at different geographically dispersed locations can include the transport network in its optimization. No longer are higher layer applications held hostage to the transport network.

Another example of the power of abstracting the transport network with a network hypervisor is multi-tenancy. A typi-cal Service Provider will use a common transport network to serve multiple clients. Currently, each of these clients may have bandwidth connectivity, but they must go through the Service Provider for all network management. A multi-tenancy capable network hypervisor allows each client to have their own virtual transport network, based upon the real physical assets avail-able. Each client sees their own and only their own portion of the network and can confi gure it within pre-determined confi g-uration rules. The Service Provider maintains visibility of the en-tire network. This greatly facilitates a Service Provider selling as many services over a single infrastructure as possible. Custom-

ers who would have demanded their own manageable network can now be sold a shared network.

DCI Software Needs Are Unique

Network Hypervisor

CLI, REST

Centralized Network Intelligence provides network-level APIs

REST, NETCONF, RESTCONF

REST, NETCONF / RESTCONF

Network Hypervisor for Abstraction, Virtualization, and Multi-Tenancy

YANG

SNMP, WebSockets

SNMP, WebSockets

YANG

YANG

Increasing level of abstraction

Topo Path Service Alarms

Direct APIs to NE for simple connectivity

ADVAData Model

Open,Generic

Data Model

Fully Open and Programmable APIs• Transport SDN is gradually turning from ‘OpenFlow Hype’ towards Open Programmable Networks based on YANG models• Customized APIs depending on customer requirements• Direct APIs (CLI, REST) at NE level for point-to-point network • Network level APIs (Topology, Service, Path Computation) for simple mesh networks• Network Hypervisor for Network Abstraction, Virtualization, and Multi-Tenancy

5

For More Information

ADVA Optical Networking SECampus MartinsriedFraunhoferstrasse 9 a82152 Martinsried / MunichGermany

ADVA Optical Networking North America, Inc.5755 Peachtree Industrial Blvd.Norcross, Georgia 30092USA

ADVA Optical Networking Singapore Pte. Ltd. 25 International Business Park#05–106 German CentreSingapore 609916

[email protected]

About ADVA Optical Networking

At ADVA Optical Networking we’re creating new opportuni-ties for tomorrow’s networks, a new vision for a connected world. Our intelligent telecommunications hardware, software and services have been deployed by several hundred service providers and thousands of enterprises. Over the past twen-ty years, our innovative connectivity solutions have helped to drive our customers’ networks forward, helped to drive their businesses to new levels of success. We forge close working relationships with all our customers. As your trusted partner we ensure that we’re always ready to exceed your networking expectations. For more information on our products and our team, please visit us at: www.advaoptical.com.

ADVA Optical Networking © All rights reserved.

Version 06 / 2015

Optical+Ethernet Innovation • Speed for Customers • Trusted Partner

FSP 3000Scalable Optical Transport

Product Overview

The FSP 3000 is a scalable WDM transport solution specifi cally designed for service providers and large enterprises looking for fl exibility and cost-effi ciency in transporting, multiplexing, switching and protecting high-speed data, storage and video applications. The FSP 3000 facilitates bandwidth scale and service fl exibility in access, backhaul, metro and long-haul networks, while supporting the creation of new revenue opportunities for high-speed OTN, Ethernet, storage and managed wavelength services.

Effi cient Transport

To minimize transport cost and optimize effi ciency in all network areas, the modular architecture of the FSP 3000 comprises a family of hot-swappable modules to meet network application requirements and make convergence practical. In addition to its unique optical layer design supporting CWDM and DWDM, it offers our CoherentExpress technology optimized for 100G+ agile optical core networking. Up to 96 wavelengths per fi ber pair and a wide range of high-density transponder options optimize the spectral effi ciency in the transmission fi ber, eliminate fi ber exhaust and reduce power and space consumption.

Superior Network Flexibility

The FSP 3000 supports static and confi gurable photonic components, including tunable lasers and multi-degree ROADM technology for colorless, and directionless wavelength routing. To achieve superior fl exibility, service multiplexing options include innovative OTN with add/drop and switching capability, Ethernet and SONET/SDH technology. Along with ADVA ConnectGuard™ optical network encryption and ultra-low latency modules optimized for enterprise applications, the FSP 3000 provides the most cost-effective optical transport solution.

Network Automation

In combination with the FSP Network Manager and FSP Service Manager, the FSP 3000 greatly reduces operational costs through service-centric provisioning. The embedded RAYcontrol™ GMPLS control plane en-ables automated on-demand delivery and management of any mix of services, therefore simplifying network operations and improving network resiliency. It enables service providers and enterprises to introduce new levels of effi ciency in the operation of optical transport networks and to substantially increase customer satisfaction.


• Fixed or reconfi gurable optical layer for long-haul, metro and access applications supporting DWDM and CWDM

• Colorless and directionless multi-degree ROADM functionality with GMPLS-based control plane for real-time provisioning and service restoration

• Multi-service, sub-wavelength aggregation and switching supporting Ethernet, OTN, SONET/SDH, storage and video services up to 100Gbit/s

• Erbium and Raman amplifi cation option for non-regenerated transmission over distances exceeding 2,000km and up to 50dB single- span loss

• High-density design for smallest footprint and lowest power consumption, resulting in operational cost savings




Wavelengths per Fiber Pair• Up to 96 wavelengths for dynamic, meshed topologies

Topology• Point-to-point, point-to-multipoint, add/drop, ring and mesh

Optical Protection• Several levels of line and path protection, Fast Wavelength Restoration (FWR)

Link Reach• Non-regenerated distances exceeding 2,000km

Services • Ethernet 100Mbit/s, 1, 10, 40 and 100Gbit/s (LAN and WAN)• Fibre Channel/FICON 1, 2, 4, 8, 10 and 16Gbit/s• InfiniBand HP NonStop™ ServerNet Cluster• OC-3, -12, -48, -192 and -768• STM-1, -4, -16, -64 and -256• OTU-1, -2, -3 and -4• Uncompressed video• CPRI up to 10G• Any rate interface ranging from 125Mbit/s to 2.7Gbit/s

Optics• CWDM according to ITU-T G.694.2• DWDM channel spacing 50/100GHz according to ITU-T G.694.1• Extensive support for pluggable SFP/SFP+/XFP/CFP interfaces on both client and network ports• Tunable interfaces on network ports• Support for all types of client interface optics

Modules• Core transponders (WCC)• Access transponders (WCA)• Enterprise transponders (WCE)• Packet transport 1HU subshelf (SH1PCS)• Core muxponders (xTCC)• Access muxponders (xTCA)• Enterprise muxponders (xTCE)• ODU cross-connect (xWXC)• Optical amplifier modules (EDFA, Raman)• Dispersion compensation modules (DCM)• Protection modules (PM)• Filter modules (CLSM, xGSM, xCSM+/-)• Optical supervisory channel modules (OSCM, OSFM)• Reconfigurable Optical Add Drop Multiplexers (ROADM) with dynamic channel equalization• Splitter modules (SM)• Controller modules (NCU, SCU)• Versatile switch and optical line monitoring modules (OPPM)• Optical time domain reflectometry module (OTDR)• ADVA ConnectGuard™ encryption module for data and storage services (AES)

Management & Control Plane• RAYcontrol™ GMPLS-based control plane for real-time optical channel provisioning, dynamic recovery and resource discovery• OSPF-based DCN routing and constraint-based traffic routing• SNMP and TL1 management protocol• FSP Network Manager and FSP Service Manager• Integration into OEM partner network management systems

Environmental• Standard temperature (operating): +5°C to +40°C • Extended temperature (operating): -33°C to +55°C• Relative humidity (operating): 5% to 85% (non-condensing)• Relative humidity (short-term): 5% to 90% (non-condensing)• Outdoor enclosures for passive components

Regulatory• NEBS Level 3, ETSI and VCCI• CE, FCC, UL and cUL

Laser Safety Classification• Hazard Level 1M Product: IEC 60825-1 and 60825-2• Class 1 Laser Product: 21 CFR 1040.10 and 1040.11

Power• Voltage: -36VDC to -72VDC or 120/230VAC• Typical power consumption: 200W per shelf

Physical• Mounting brackets for 19”, ETSI and 23” ANSI/NEBS racks• Back-to-back ETSI compliant

Shelf Options• 1U (active and passive), 7U and 9U


fsp 150eg-x - · pdf file• 36 x 10/100baset (mini rj-21) • 10 x 100/1000basex (sfp)...

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