Introduction
Edge computing is a term that’s being used more and more in the tech world. It refers to a new approach to networking that moves compute power and storage closer to where it’s needed most. The term ‘edge’ refers to both physical locations and the logical location of resources in a network. So while an edge device could be located at the edge of a city (and thus have physical proximity to people), it could also be located somewhere inside your home or office building, or even embedded in your own laptop or phone!
Edge Computing is a new approach to computing that involves moving some or all of the compute power and data storage from centralised systems to the physical edges of computing networks.
Edge computing is a new approach to computing that involves moving some or all of the compute power and data storage from centralised systems to the physical edges of computing networks.
Edge computing is also known as fog computing, cloud edge compute, distributed cloud or hybrid cloud.
The term ‘edge’ refers to both physical locations and the logical location of resources in a network.
The term ‘edge’ refers to both physical locations and the logical location of resources in a network. Edge computing is a new approach to networking that moves compute power and storage closer to where it’s needed most, often at the edge of your organization’s network (or even outside).
The goal of fog computing is to offload some of the work done by traditional cloud data centers onto other devices closer to end users–for example:
- A video surveillance camera could process images locally rather than sending them back home over long distances before using them on your application or website;
- An industrial robot arm could communicate its position via wireless signal instead of relying on an Ethernet cable;
Edge Computing is also known as Fog Computing, Cloud Edge Compute, Distributed Cloud or Hybrid Cloud.
Edge Computing is also known as Fog Computing, Cloud Edge Compute, Distributed Cloud or Hybrid Cloud.
The term “Fog” was coined by Cisco Systems in 2015 to describe a network architecture where compute resources are located closer to the edge of the network than traditional data centers. This model provides quicker access times and lower latency for users while reducing costs compared with centralized cloud services (like Amazon Web Services).
Microsoft uses the term “Cloud Edge Compute” to describe its Azure IoT service which provides secure remote access to connected devices through hybrid clouds. Google uses “Distributed Cloud” as part of its Cloud Platform suite of products which allows developers to create applications using multiple distributed locations around the world instead of just one location like most other providers do today; this helps mitigate risk so if something happens at one site it won’t take down everything else at once due too much reliance on centralized systems such as AWS/Azure etc.. Finally Amazon uses Hybrid Cloud which combines public clouds such as AWS with private ones like Microsoft Azure so customers can mix-and match depending on what makes sense for their particular needs rather than having all their eggs in one basket (e..g., Amazon Web Services).
Edge computing is a new approach to networking that moves compute power and storage closer to where it’s needed most.
Edge computing is a new approach to networking that moves compute power and storage closer to where it’s needed most.
The edge of a network refers to the location where the network meets your physical world, whether that be at home or in your office building or on top of an autonomous car driving down a highway. It’s also where data enters or leaves the network, as well as where processing takes place–for example, if you’re downloading an app from Apple’s App Store onto your smartphone while waiting at an airport gate, then all three things are happening at once: data (in this case an app) is entering into another party’s network (Apple), being processed by them before being sent back out again (to you).
Conclusion
Edge computing is a new approach to networking that moves compute power and storage closer to where it’s needed most.