Networks and Technology

WAN-resource

Multi WAN Broadband

Broadband may be defined as high-speed Internet access over Fiber, coaxial cable, wireless or copper wires. Multi(Multiple) WAN Broadband has lately been in vogue with guaranteed reliability and speed, provided superior access products such as routers and good communication modes are used.

Businesses use the Internet for many purposes. Wide usage of the Internet calls for impeccable connectivity with technology such as multi-WAN Broadband. Even if one connection is “down”, the others work, resulting in un-interrupted service. However, it is also dependent on employing appropriate devices that assure dependable connectivity. Businesses that run mission-critical wide area network applications require a common, ubiquitous communication platform, and options such as multi-WAN Broadband provides this. Business continuity, a significant component of the health of any business, is largely dependent on a robust Wide Area Network. The robustness of WANs is determined by this multiple wide area network connectivity that is reliable and secure.

Multi-WAN Broadband has come at a time where businesses are increasingly dependent on the Internet for information, data sharing, and everyday communication. Broadband services offering higher bandwidth also have the higher speeds. Usually, it is not a constraint for large enterprises and businesses whose principal concern is one of un-interrupted service that supports business continuity and data sharing. Hence there is a demand for these multiple wide area network connections.

The very concept of this technology evolved when need arose for better connectivity and speed in data transmission. Equipped with multi WAN Broadband, it is easier for the user to effectively access the Internet and perform the required functions; it accelerates productivity and increases efficiency. A recent Gartner research report states that by 2012, 17 countries world over would have broadband penetration rates of 60% or more.This highlights the necessity for dependable and secure multi-WAN Broadband connectivity. With the increasing demands for a secure connection that is always “on” service providers consider it imperative to offer these multi-WAN Broadbands depending on the clientele.

Latency or response time is a crucial issue, which impedes effective user experience. Gartner refers to this as a “silent killer of application performance.” Users and providers are unable to derive the complete benefits of their wide area network connections due to the hindrance caused by latency. Accelerating the performance and optimizing this technology is the ideal solution; this sets the platform for business continuity in the technological arena.

A strategic player in business continuity through WAN redundancy is FatPipe Networks. It offers excellent technological solutions and its array of WAN redundancy products is a one-stop source for WAN optimization, reliability, security, and bandwidth management. Providing flexible solutions for WAN redundancy and dynamically load balancing both inbound and outbound traffic, FatPipe positions itself on the leading edge of innovation. FatPipe technology easily and cost effectively provides a solution to WAN redundancy using multi-WAN broadband connections.

Multiple WAN Broadbands require tools that enhance speed and reliability, which eventually helps customers meet their business continuity requirements. Cutting edge technology such as those utilized by FatPipe Networks, enable high speed data transfer through multiple lines, multiple WAN Broadband, and others. It seamlessly integrates all the components that ensure un-interrupted Internet access and also optimizes and secures connectivity.

Continuous Internet Connectivity

Over the last ten years we have seen the emergence of the global phenomenon, the Internet, which has revolutionized normal living and transformed our business lifestyle. Dependency on the Internet and other Wide Area Networks (WAN) has increased to the extent that the Internet has become indispensable. Owing to its ubiquitous nature and information availability, businesses gain much benefit from a continuous Internet connection. The quality of ‘always on’ connectivity ensures the core component in businesses – Business continuity.

Video Optimization

Multimedia content is rapidly gaining popularity and necessitates SEO techniques to produce the best output. Compelling video content has the potential to allow for site traffic, boost brand awareness, and attract targeted visitors. Optimization of Video is an imperative in enhancing the performance of online videos and enhancing viewership. The trend of watching videos online is climbing exponentially. An ever increasing number of users nowadays prefer to watch online videos over television. While predictions of the total demise of television may be premature, viewership is certainly on a decline.

WAN Optimization

The growth of global networks and the popularity of Wide Area Network (WAN) shows no sign of abating and holds the key to unlocking the information pathway that connects the entire globe. A stable WAN infrastructure is now considered to be an imperative. To maximize the utility of WANs, optimization techniques have to be adopted to downplay the inherent weaknesses in network architecture while boosting the performance of WAN networks substantially.

Network Infrastructure

The Internet is a revolutionary instrument that has capacitated instantaneous communications, and management at all spheres of life and business. Internet integration has enabled aggregation of applications and thereby accelerates performance. It becomes proficient with a sound network infrastructure.

Networking may be defined as interconnection of computing devices in order to share data. The network infrastructure is built with a combination of computer hardware and software. Network Interface Cards (NICs), Bridges, Hubs, Switches, and Routers are some of the basic hardware components used to interconnect the key elements of the computer network. Interlinked with the proper communication paths, networks link to other networks and also contain sub networks. The Internet, which is a “network of networks”, depends on the network infrastructure for effective Internet integration. Based on the OSI reference model, the network architecture is divided into seven layers namely, Physical, Data-Link, Network, Transport, Session, Presentation, and Application layers. A layer may be defined as an aggregation of similar functions, which provide services to the layer above and receives service from the layer beneath it.