Global server load balancing (GSLB) is a method of distributing Internet traffic to a network of servers across the globe, creating a faster and more reliable user experience.
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Global server load balancing or GSLB is the practice of distributing Internet traffic amongst a large number of connected servers dispersed around the world. The benefits of GSLB include increased reliability and reductions in latency.
Imagine a store that sells shoes through the mail to customers all over the world. If that shoe store operates out of a single location, it will take a very long time for faraway customers to submit orders and receive their shoes. During busy shopping seasons, the store might get overloaded with orders and lose the ability to fill all their customers’ orders quickly.
Now imagine that the shoe store opens several more locations all over the world. This means customers can order shoes from a nearby location, cutting down on shipping times and reducing the possibility of one store getting overloaded with orders. This is exactly what GSLB does for web sites and services, making it one of the most popular load balancing solutions for companies with a global user base.
Load balancing is the practice of distributing traffic among two or more servers. Some load balancing technique utilize a ‘dumb’ load balancing strategy, based on randomizing the distribution of traffic. For example round-robin DNS, a randomized DNS load balancing technique, sends each request to a different server than the last. There are also ‘smart’ load balancing techniques that analyze data in order to decide which is the best server to handle a request. Anycast routing, for example, picks a server based in part on the quickest travel time between the client and the server.
Even before an origin server overloads and stops fulfilling requests, high amounts of traffic to that server can still cause significant latency issues. A GSLB system can distribute that traffic among several different locations, ensuring that no single location is handling so many requests that it causes delay.
Additionally, GSLB can greatly reduce the travel time of requests and responses between users and servers. If a user is in Los Angeles and they are using a web service with a Paris-based origin server, then both the requests and responses will have to travel a very long distance, cut up into smaller travel segments called ‘hops’. This can cause significant delays in load time.
Using GSLB, a worldwide pool of servers ensures that each user can connect to a server that is geographically close to them, minimizing hops and travel time. In the example above, if the Paris-based company was utilizing GSLB, the Los Angeles user could connect to a server within 100 miles of their location, resulting in a much snappier user experience.
One of the easiest and most cost-effective ways to implement GSLB is through a content delivery network (CDN), such as the Cloudflare CDN. A global CDN service will take data from their customers’ origin servers and cache it on a geographically distributed network of servers, providing fast and reliable delivery of Internet content to users around the world.
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