For years Lanner has been solving customers’ problems and fulfilling requests by adopting the latest technologies such as Crypto acceleration and DPI, with the aim of integrating more innovative features into our industry-leading hardware appliances; and doing so has in turn facilitated the development of a mutually beneficial synergy between Lanner and the internet security industry heavyweights.
Lanner Electronics, a premier provider of tailored, high-capacity carrier telecommunication platforms, is announcing its HybridTCA™ (Hybrid Telecommunications Computing Architecture) hardware platform to carrier and enterprise customers.
A cloud storage gateway is a network appliance located on customer premises to bridge cloud storage APIs such as REST and storage protocols like iSCSI or fiber channel. The use of cloud storage gateway brings cost efficiency and eliminates security concern for stored data. Cloud storage gateways rely on standard network protocols to bridge incompatible cloud devices and storage systems and integrate available applications. Some feature-rich gateways provide data backup, caching, duplication, provisioning and data encryption.
The driving force of the network by moving VNF’s from the core infrastructure towards the edge and the introduction of packaged services introduces specific requirements to sustain the control and data plane traffic with reduced latency at the edge deployment.
As the European Telecommunications Standards Institute (ETSI) led initiative in its adoption phase, the requirements to roll out new services to the edge in the network have coined and there are several deployments and business models for the Mobile Edge Computing (MEC) platforms. Ultimately, processing, storage, media streaming and security functions have been migrated to the edge for mobile deployments.
To achieve carrier-grade NFV required by telecom service providers, the network infrastructure requires high-availability, high-redundancy and NEBS-compliant hardware platforms as the base during the deployment process in order to host VNFs. In the mean time, hardware resources like CPU, DRAM, NIC modules and storage devices are accessible and controllable by network applications to drive the efficiency of VNFs. In other words, the telecom version of NFV is the transformation of network infrastructure that integrates virtualized network with carrier-grade hardware.
SD-WAN is one of the most widely applied SDN concepts implemented to address obstacles in conventional enterprise WAN infrastructures such as packet congestion or loss. By replacing MPLS (Multi-Protocol Label Switching) with software-defined network components, SD-WAN help enterprises simplify WAN setup for branch offices, SME setting, head office and data centers by virtualization. In short, the WAN management is shifted to the software-defined cloud. An intelligently capable SD-WAN shall support multiple connection types and network services including VPN, firewalls, WAN optimization and application delivery.