The Edge And Beyond: How Edge Computing Is Becoming A Standard

The Edge And Beyond: How Edge Computing Is Becoming A Standard

Introduction

In the past few years, there has been a lot of talk about “the edge.” You may have heard it in discussions about autonomous vehicles and smart cities. But what is edge computing, exactly? How did we get here? And where are we going next? I’m glad you asked! In this article, I’ll explain how edge computing got started and why it matters for data analytics in the cloud.

What Is Edge Computing?

Edge computing is a distributed computing architecture that allows for data to be processed at the edge of a network where it has been generated, rather than sending all data to centralized servers. The term “edge” refers to the outermost part of any given network, which can be defined in geographic or functional terms–for example, when we talk about an enterprise’s “perimeter.”

Edge computing provides better responsiveness and performance than traditional cloud-based architectures because it eliminates latency issues and reduces bandwidth consumption while allowing organizations to complete tasks faster by using local resources such as CPU power and storage capacity instead of relying on distant servers.

Why Is Edge Computing Important?

Edge computing is important because it helps with data processing. Data is processed near the source of the data, which makes it more efficient and secure.

How Did We Get To Edge Computing?

We’ve all heard about edge computing, but what exactly is it? In short, it’s a new way of doing things.

Edge computing refers to the processing of data at the source where it’s generated (the “edge”) instead of sending it back to central locations for processing. This eliminates latency and can help with security too.

It was only a matter of time before we saw an industry shift toward edge computing; after all, most companies today are generating huge amounts of data from their users–and this trend will only continue into the future.

Where Is Edge Computing Going?

Edge computing is a growing trend, and it’s only going to get bigger.

Edge computing will become the default in the future.

Edge computing will be used in more industries than just automotive and healthcare–it can be applied anywhere there’s an IoT device or sensor that needs to connect to something else. It solves many of the problems created by big data (like latency) and cloud computing (like security).

What Are The Challenges Of Edge Computing?

Edge computing is not without its challenges, however. The most obvious challenge is that edge computing makes the network more vulnerable to attack because you are now relying on individual data centers instead of a centralized cloud. Second, it’s more expensive to deploy and maintain an edge computing environment than it would be to simply use cloud services–which means it may not be feasible for smaller businesses or organizations who don’t have the resources (or budget) to invest in such an undertaking.

Finally, managing all of those devices can be tricky: Each device has its own unique configuration requirements and needs constant attention from IT professionals who understand how each one works best in order for them all work together seamlessly as part of one system

In today’s data-driven world, the edge is where a lot of value lies.

In today’s data-driven world, the edge is where a lot of value lies. The edge is where the data is generated and it’s also where most of the real-time analytics and decision making happens.

Edge computing enables us to do things like:

  • Process data at high speeds on devices close to sources of information (e.g., in your car or home) instead of sending it over long distances back to centralized cloud servers for processing. This can enable faster response times for applications like autonomous driving systems or home monitoring systems that need quick access to information about things like air quality levels or temperature changes inside your house;

Conclusion

It’s clear that edge computing is an important part of the future of technology. The question now is, what will you do with your edge? How can you take advantage of this new opportunity?