The market requirements for broadband access lead to development of a platform that supports higher throughput, new applications, protocols and interfaces without implementing a special new silicon. Combining Ethernity Networks efficient ENET architecture with FPGA create a family of products tailored to the needs of access aggregation and interworking platforms. Ethernity’s ENET access flow processors have the best available combination of performance, feature set, flexibility, and price.

ENET NIC vCPE Acceleration Solution >> ENET NIC vEPC Acceleration Solution >> ENET SD-WAN Switch >> The shift toward network function virtualization (NFV) and software-defined networks (SDN) represents the most transformative architectural network trend in nearly 20 years. Communication service providers are taking a page from SDN and NFV world to allow the new services […]


 

Mobile backhaul experiences a major paradigm shift from current PDH and ATM transport to Ethernet based networks. The two main factors driving this transition are the dramatic increase in bandwidth demand and pressure on mobile operators to reduce costs. This is true also for two types of network elements that any mobile backhaul network requires: Cell Tower Gateway and Network Edge Aggregator. Ethernity’s access processors provide the best solution for designing efficient and cost effective CTGs and NEAs

Carrier grade Ethernet services support a range of applications more easily, efficiently and cost-effectively than other network services. Ethernet services will undoubtedly evolve to take advantage of Ethernet technology and provide innovative new service features. It is clear that Ethernet services will continue to provide the benefits of simplicity, cost effectiveness and flexibility that are unmatched for a wide range of applications. Ethernity’s ENET access flow processors (AFP) are the first devices in the industry implemented on a low cost FPGA.

Wireless transmission is achieved today by two main technologies such as point-to-point line-of-sight communications or Wireless Local Area Network (WLAN). Ethernity offers a unique packet transmission solution for carrier grade scalable 10G mesh wireless backbone in point-to-point and mesh network based on the off-the-shelf wireless technology with maximum availability and scalability. As a result the scalable solution provides dramatic CAPEX and OPEX reduction

The primary function of load balancing is to distribute a workload across multiple computers or a computer cluster, network links, CPUs or other resources. Load balancing helps to achieve maximized application availability, optimized resource utilization, maximized throughput, minimized response times and of course avoiding application server overload. Ethernity’s ENET platform combines load balancing with switch, router, traffic management per VM, wirespeed NAT/APT, timing and traffic monitoring functionality on a single FPGA.

                                            Virtual CPE
       


 

Avionics Secured Switch extends standard Ethernet to provide high data integrity and deterministic timing. Ethernity optimizes FPGA End System and switch SoC for Avionics. Ethernity’s ENET provides the fragmentation inherent feature to enable transmission of shorter packets, which results in less overall latency and jitter. Hierarchical queuing and hierarchical shaping supports scheduling requirements of VLs. Jitter buffer functionality in ENET allows the user to gain end-to- end control of jitter in the entire ADN.