Multiple WAN Port Router
Our network-reliant world is endowed with a plethora of advanced technological gadgets and applications. The Wide Area Network (WAN) offers plenty of options to gratify the increasingly complex networking needs of a broad business customer base. The advances in technology continue to offer more WAN options. WAN communications efficiency is influenced by two major factors: bandwidth and latency. In order to ensure their effectiveness, various technological choices are analyzed and the best is adopted.
A WAN Port is used to establish a connection to the Internet. A WAN port is the socket present in a networking device, which is wired to the Internet or any such external network. In many cases, large enterprise business applications employ multiple WAN ports that are connected to a T1 line or other WAN connectivity options such as DS3. These WAN ports may make use of a V.35, RS-232 or RS-530 connections. The reason behind utilizing multiple WAN ports or multiple WAN port routers in these large companies is that the core of business operations (Business Continuity) is crucial and necessitates continuous WAN uptime and integrity. In the Small and Medium Businesses (SMBs), where inter-networking is used for internal communications, an Ethernet port on the router is connected to a similar port on a cable or DSL modem.
As companies of all sizes became increasingly reliant on WANs to conduct business operations, the need arose for more than one WAN connection in order to avoid network outages. Dual WAN connections and subsequently multiple WAN connections brought about a radical change in the WAN application business scenario. Multiple WAN connections can yield continuous connectivity and ensure speed if they are connected by a router-clustering device, or something similar. They enabled ‘always on’ connectivity, which guaranteed business continuity in enterprises and other organizations.
Multiple WAN Ports and connections improve WAN performance across applications and provide redundancy in connectivity to the Internet. Wide Area Network throughput is also considerably increased with Router multiple WAN IP, which aggregates network traffic.
In the networking structure, the role of routers, switches, ports, and other hardware devices is indispensable. While a router is committed to the task of routing messages between an internal network and the Internet, a dual port WAN Router (or Router dual port WAN) combines two WAN connections and one LAN connection, routing and forwarding data to both internal and external networks. Generally, a WAN Router forwards data packets to an outside network like the Internet. A Router dual port WAN is used by companies to connect two T1 Internet data lines concurrently. It also offers functionality such as basic load balancing, line failover, and several custom routing rules. However, a drawback is that router dual port WAN require BGP programming, which is complex. A dual port WAN Router also is a single point of failure; should the router fail, all connectivity will be shut down. These encumbrances can be overcome by using superior technology developed by innovators in WAN optimization technology such as FatPipe Networks.
Using Router multiple WAN IP yields many advantages over a conventional single WAN connection, as well as a dual port WAN Router. In addition, it is possible to have enhanced Quality of Service (QoS) settings, which will enable granular bandwidth allocation control over services that should get priority when the network traffic is high.
Another solution for businesses is to utilize a Multi WAN port solution. A Multi WAN port device is one that is connected to multiple WAN connections from the same or separate ISPs. Employing a multiple WAN port router or a FatPipe router clustering device is advantageous since it can considerably clear network traffic and route specific data through disparate WAN connections. Basic features of a FatPipe router clustering device include dynamic load balancing of inbound and outbound traffic, QoS, and Virtual Private Network (VPN)/IPSec capabilities. The Demilitarized zone (DMZ), virus filter on content, Web content filter, and Intrusion detection, and all other web applications are ably supported by multi WAN port routers and router clustering devices.
Load balancing is a well-known feature of multiple WAN port routers and other multiple WAN port devices, where network traffic can be diligently managed. Network congestion is avoided as a multi WAN port router effectively routes network traffic to the external network. This brings about maximum bandwidth utilization and also effectuates outbound traffic aggregation, which is crucial for superior connectivity.
One of the few leading-edge solutions providers, FatPipe Networks, provides a comprehensive suite of WAN optimization solutions via its multi Port Router design of its router clustering devices. FatPipe offers a broad range of products that can equip businesses with high levels of WAN optimization, reliability, security, and bandwidth management. While a multiple WAN port Router can connect multiple WANs, FatPipe technology enables varied connections to ISPs. FatPipe devices can take disparate connections and perform dynamic load balancing and failover functions. FatPipe technology can intelligently sense the active link, when a line is down due to WAN component, line or service failure, and then route the network traffic in that direction. FatPipe devices do not use BGP programming. They ensure redundancy, reliability, and speed, which are the crucial components for companies to meet their business continuity standards.
