Bring the cloud closer to end users in a metropolitan area


In an increasingly connected world, the demand for access to our devices and applications is 24/7. Real-time immersive experiences such as virtual desktops, AR / VR, smart cities, smart manufacturing, connected vehicles, real-time multiplayer, and more are on the rise. The companies that deliver these devices and applications need real-time responsiveness for their end users. To achieve such a feat, they need cloud services and infrastructure close to their customers. More businesses are looking to leverage the cloud closer to where their data and customers are located, including in major metropolitan areas. What if your business could access cloud infrastructure and services for these scenarios without the need to invest in expensive data centers or place compute and storage in colocation facilities and edge locations?

Take, for example, the world’s leading streaming entertainment service, Netflix, whose artists need graphics-intensive virtual desktops for rendering 3D models and animations. Content creators and artists typically require less than five milliseconds of latency between their desktops and satellite locations, allowing them to handle workloads like live production and video editing while providing jitter-free experience on both sides. With multiple artists having to work on a render or animation at the same time, they need ultra-low latency access to their desktops to deliver the best creative experience. Using cost-effective, Intel-powered AWS compute resources in local AWS Zones, Netflix can deploy reliable, low-latency Virtual Desktop Infrastructures (VDI) closer to their artists’ homes. As a result, Netflix was able to migrate parts of its content creation process to local AWS Zones, while providing a different user experience for its artists.


In major urban areas, your business can leverage the infrastructure and cloud services located near your end users to deliver ultra-low latency applications using AWS Local Zones. It’s easier to think of a local zone as an extension of AWS Regions: they use the same AWS Elastic Compute Cloud (EC2) infrastructure that is available in the cloud and have the same Intel Xeon Scalable processors, as well as other cloud services. AWS. Applications deployed in a local area can also be configured to automatically scale as needed to meet demand, allowing your team to focus on creating new and differentiated customer experiences. Now, you can efficiently use infrastructure and cloud services at the edge to deliver your applications using compute, storage, database, and other AWS services. Suddenly, theoretical transactions and interactions become possible.


AWS local zones open the door to new possibilities. They allow you to deliver innovative applications and services, such as interactive gaming experiences that require single-digit latency in milliseconds. As a leading provider of game hosting services, Edgegap can deliver the best online experience for gamers by deploying game servers even closer to where gamers are located, elevating the gaming experience to new heights. For some of their clients, like Triple Hill Interactive and their fighting game Die by the blade, being able to run a global 1-on-1 online tournament in the best possible way is something they just couldn’t do with traditional service providers. For others, like Agog and their fast-paced arena shooter Brutal motives, each match must be deployed in the best place so that all players provide a fair environment. AWS Local Zones give Edgegap the flexibility to improve the player experience for their game publisher customers in all of these scenarios.

Local areas can also support augmented reality / virtual reality (AR / VR) applications by performing calculations and analysis close to your end users. With backward connectivity to your other workloads and the full range of services in the region, you can manage everything through the same APIs and toolsets. Likewise, organizations can run compute-intensive simulations such as earth science explorations, genomics, financial risk modeling, and ship design close to local resources and end users. Each industry has its own requirements for low latency and local data processing. Together, these two elements deliver rich and engaging experiences to end users with the lowest possible latency.


Another use case for low latency cloud infrastructure and services in large metropolitan centers is to facilitate enterprise cloud migrations. It may not be possible to immediately shut down your data center and run everything from the cloud. Data privacy, residency, or sovereignty issues, or even legacy database architectures, may require some on-site presence. But there are solutions that can help you get started. Moving your web front-end to the cloud using AWS on-premises zones will provide high-bandwidth, secure, low-latency access to core databases in your data center. This reduces the data center footprint needed for the front-end of your stack and gives your business the ability to start the process of modernizing your applications and migrating to the cloud.


AWS Local Zones are a type of AWS infrastructure deployment that places compute, storage, database, and other select services near cities, industries, and densely populated data centers. This means you can take advantage of AWS infrastructure and services closer to where your applications need to be deployed. On-premises zones give you all the elasticity, scalability, and security benefits of the cloud directly, allowing you to deploy latency-sensitive applications closer to your end users and pay only for the resources you use. and a reliable AWS experience. What opportunities will you free up with the edge?

Learn more about Hybrid Cloud at AWS Powered by Intel

AWS powered by Intel

AWS and Intel’s 15-year relationship is continuously dedicated to developing, building, and supporting services designed to manage costs and complexity, accelerate business results, and scale to meet current and future IT needs. . AWS hybrid solutions seamlessly extend the same AWS infrastructure, computations, services, and tools into the cloud, on-premises, and at edge locations. Intel processors are the foundation for many hybrid cloud computing services deployed on AWS. Amazon EC2 instances powered by Intel Xeon Scalable processors have the greatest scope, global reach, and compute instance availability in all AWS geographies.

Leave A Reply

Your email address will not be published.