IP application accelerators are used to increase the performance of IP applications by routing traffic over an optimized network. These networks have been optimized using numerous techniques to reduce redundancy and optimize protocols. Though the behind-the-scenes technology and methodology that powers IP application accelerators is complex, the results are astounding. IP application accelerator users experience faster load times, better performance, and fewer errors. If your company must deliver applications to users around the world, IP application accelerators can improve speed and reliability.
Today's businesses deliver IP-enabled applications over the Internet all the time. Using the Internet to deliver Web-conferencing, virtual desktops, remote email, cloud-based apps such as Microsoft Office 365 or Amazon Web Services, and other client-server applications allows for anytime, anywhere access. While the Internet is commonly used to carry all of this network traffic back and forth, it's not the most efficient method. In addition, the Internet is a mishmash of servers, nodes, and tunnels controlled by various entities, making it difficult to predict performance let alone do anything about it.
IP application accelerators use private networks controlled - and optimized for performance - by their respective service providers. These networks are constantly monitored and optimized to create the most efficient routes for network traffic.
One of the ways that IP application accelerators improve speed is by reducing the amount of data flowing through each "pipe." For example, redundant data can be detected and stripped away. By reducing the input, there's less congestion to cause bottlenecks. Thousands of private network servers are used to balance loads while various IP optimization techniques such as compression, route optimization, delivery points of service, caching, and dynamic mapping are employed to ensure efficiency. IP application accelerators are also highly scalable.
Why use IP application accelerators instead of the public Internet to deliver Web and IP applications? IP application accelerators can improve webpage display by up to ten times and increase overall speed by up to ten to one hundred times compared to using the public Internet.
By improving IP-based application performance, you also improve user satisfaction which in turn can increase user adoption. With improved availability, productivity improves as unplanned downtime is minimized.
Choosing IP application accelerators using a delivery as a service-type model also means that you can increase speed and performance without a massive investment in IT infrastructure. If your organization supports a mobile workforce or mobile user base, IP application accelerators can dramatically improve application performance, availability, and delivery to mobile devices as well.
In addition to all of these benefits, IP application accelerators can reduce origin loads and bandwidth consumption. There are fewer demands on server resources because there are fewer open TCP connections, enabling you to support a larger user base without having to increase server capacity.
IP application accelerators deliver numerous benefits to organizations that rely on Web and IP-based applications. When speed and performance are a must, IP application accelerators are the answer.
As an expert in solving network performances for distributed enterprise, Maxwell Pierce, he obtain much of his research from sources such as http://www.aryaka.com/products/application-delivery-as-a-service.