Comprehensive, award winning CFP2 family for a broad range of applications
100G/200G/400G variants
Support for Ethernet/OTN clients, and line-side transmission of 100Gbps QPSK modulation up to 400Gbps 16QAM
Supports an expansive list of interoperability modes including OpenROADM MSA, CableLabs, and the Optical Internetworking Forum (OIF)
Supports DCI, access aggregation, wireless 5G backhaul, metro and long haul.
Increase bandwidth
with pay-as-you-grow model
Simplify Network
by plugging into high-density switch and router client ports
00G CFP2 Pluggable Coherent Optical Module
Access aggregation | Wireless backhaul | Metro/long haul data center | Service provider network | Interconnects
Key Features
Greylock DSP ASIC, based on 7nm CMOS technology
Silicon photonic integrated circuit (PIC)
Interoperability
Supports OpenROADM, OpenZR+, OIF 400ZR, and CableLabs
Specifications
Line Side Capacity
100G/200G/300G/400G
Client Formats
100GbE/200GbE/400GbE/
OTU4/OTUCn
100G/200G CFP2 Pluggable Coherent Optical Module
Access/Remote PHY aggregation | Wireless backhaul | Metro/long haul service provider | Data center network interconnects
Features and Benefits
Supports interoperable line-side transmission
High-performance transmission mode
Incorporates Meru DSP ASIC, based on 16nm CMOS technology, and silicon PIC
Interoperability
Supports 100G standards in carrier-centric OpenROADM MSA and CableLabs.
Specifications
Line Side Capacity
100G/200G
Client Formats
100GbE/200GbE/OTU4
CFP2 Pluggable Coherent Bi-Directional Optical Module
Access/Remote PHY | Wireless backhaul
Features and Benefits
Designed to transmit and receive data in both directions on a single fiber for 100G and beyond
Provides an operationally efficient and cost-effective way for telecommunications and cable operators to increase capacity in fiber-limited networks
Interoperability
Supports OpenZR+ mapping modes
Silicon Photonics
High-speed highly compact and scalable optical integrated circuits in silicon
Digital Signal Processing
Industry leading innovative low power and high optical performance DSP design
