Cisco Cisco ASR 1000 Series 40Gbps SPA Interface Processor Scheda Tecnica

Page 2 of 7

Applications

Service providers need to deliver timing efficiently to cell sites, base stations, Node-Bs, access equipment, as well

as pre-aggregation, aggregation, and time-division multiplexing (TDM) equipment in their networks. Packet

networks, being nonsynchronous by nature, pose a challenge to service providers who plan migration to an all-

packet architecture. The requirements of such service providers include:

●

Synchronous Ethernet within Metro Ethernet networks, as an example, for Mobile Backhaul networks

●

Circuit Emulation Service (TDM over pseudowires)

●

Packet-based frequency delivery to base stations or TDM pseudowire nodes

●

Precise time distribution for performance measurement with IP Service Level Agreements (SLAs) or EOAM

(for example, ITU-T Y.1731)

●

Precise phase distribution for TDD base stations

Service providers who have migrated to packet networks often use an external TDM circuit to provide timing to

remote network elements. Such external TDM circuits are an expensive solution when there are many remote

network elements that need timing, especially for mobile operators who have thousands of cell sites and for whom

timing is crucial for the radio interface. The Cisco 2-Port Gigabit Synchronous Ethernet SPA with integrated

synchronization capabilities deployed at such service providers will result in a simplified network topology and

efficient device management of network elements.

Cisco 2-Port Gigabit Synchronous Ethernet SPAs work with multiple applications, including:

●

Layer 1 clock frequency distribution: In this mode, the Cisco 2-Port Gigabit Synchronous Ethernet SPA can

recover the received SyncE clock, synchronizing to a source traceable to PRC/PRS via ESMC/SSM, and

use it to transmit physical layer frequency signals to the next node.

●

Layer 2 and Layer 3 timing (time, phase, and frequency) are supported through IEEE 1588-2008 functions

and protocol.

●

External timing interfaces: These interfaces provide connections to external timing devices, such as

Synchronization Supply Unit (SSU) or Building Integrated Timing Supply (BITS), and can be used as an

input of a frequency clock source, or as an output to clean up accumulated wander on a system that

receives clocking from the PHY layer.

●

GPS timing interfaces: These interfaces can be used for external Global Navigation Satellite Systems

(GNSSs) or LORAN receiver devices as an input reference and can be selected as output references for

some other equipment (for example, a PON with OLT, DSLAM, multiservice node, or test equipment). The

interfaces support:

◦

Connections to external frequency, phase, and time sources

◦

Translation of the received clock to IEEE 1588-2008 messages

◦

Transmission to external equipment of recovered frequency, phase, and time