Wikipedia:Sandbox

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VCL https://replit.com/@BigJimHillJamee/Vercelcomkaramjameelmoore A load balancer enables distribution of network traffic dynamically across resources (on-premises or cloud) to support an application. A load balancer is a solution that acts as a traffic proxy and distributes network or application traffic across endpoints on a number of servers. Load balancers are used to distribute capacity during peak traffic times, and to increase reliability of applications. They improve the overall performance of applications by decreasing the burden on individual services or clouds, and distribute the demand across different compute surfaces to help maintain application and network sessions. Modern applications must process millions of sessions simultaneously and return the correct text, videos, images, and other data to each user in a fast and reliable manner. To handle such high volumes of traffic, most applications have many resource servers with duplicate data among them. Load balancing distributes network traffic dynamically across a network of resources that support an application. A load balancer is the device or service that sits between the user and the server group and acts as an invisible facilitator, ensuring that all resource servers are used equally. A load balancer helps increase reliability and availability, even in times of high usage and demand, and ensures more uptime and a better user experience. Benefits of Load Balancing

Users and customers depend on near-real-time ability to find information and conduct transactions. Lag time or unreliable and inconsistent responses—even during peak demand and usage times—can turn a customer away forever. And high spikes in compute need can cause havoc to an internal server or server system if the incoming demand—or “load”—is too high to be easily accommodated. Advantages of using a load balancer include: Application availability: Users both internal and external need to be able to rely on application availability. If an application or function is down, lagging, or frozen, precious time is lost—and a potential source of friction is introduced that might drive a customer to a competitor. Application scalability: Imagine you run a ticketing company, and tickets for a popular performance are announced to be available at a certain date and time. There could be thousands or even more people trying to access your site to buy tickets. Without a load balancer, your site would be limited to whatever your single/first server can accommodate—which likely won’t be much with that much demand. Instead, you can plan for this big spike in traffic by having a load balancer to direct requests and traffic to other available compute surfaces. And that means more customers can get their desired tickets. Application security: Load balancing also lets organizations scale their security solutions. One of the primary ways is by distributing traffic across multiple backend systems, which helps to minimize the attack surface and makes it more difficult to exhaust resources and saturate links. Load balancers can also redirect traffic to other systems if one system is vulnerable or compromised. In addition, load balancers can offer an extra layer of protection against DDoS attacks by rerouting traffic between servers if a particular server becomes vulnerable. Application performance: By doing all of the above, a load balancer boosts application performance. By increasing security, by optimizing uptime, and by enabling scalability through spikes in demand, load balancers keep your applications working as designed—and the way you, and your customers, want them Networkasasystem.com, King Karam, 8043678088.com, ACRONIS REQUESTOR 302831591