EDGE Full Form-What is EDGE-Worthy Investment for Your Future ?

EDGE Full Form

EDGE Full Form-What is EDGE? A Worthy Investment for Your Future : Edge computing is a distributed computing paradigm that brings computation and data storage closer to the sources of data.

EDGE Full Form

Enhanced Data-Rates for Global Evolution

FAQs about EDGE 

Here are just a few of the possibilities of the edge computing environment: Service Providers (eg. Cellular, Broadband, Cloud etc.) Augmented Reality Healthcare Industrial Manufacturing Financial Services Manufacturing Migration to Intelligent Edge Edge computing is getting closer to mainstream adoption as industries face a variety of challenges and opportunities. For business, that means the ability to: Store more data in the network edge Easily integrate more applications, data, and devices into an intelligent edge Enable a 360° view of assets Provide a safe, reliable and sustainable operation at the edge The main thing for your business to understand is the edge and how it can solve problems for your organization. Here are just a few examples: U.S.

Cloud computing is essentially a repository of services with the cloud hosting the data. This is possible because of an intricate network infrastructure that makes use of gateways. However, this data must be accessed by multiple users at the same time. When data is stored in the cloud, there are multiple locations where the data is accessed. This is limited to a handful of sites. However, this concept is at the cutting edge of the edge computing field. How Edge Computing Works Edge computing extends data processing to the periphery of a computing network. On the web, this means pushing the data closer to the user for quicker responses. A virtualized edge computing platform can have an unlimited number of virtualized cloud data centers (VDC).

 

Faster response time and reduced latency Reduced power consumption and data usage Elimination of equipment deployments Reduced total cost of ownership The key to achieving this is allowing the edge of the network to be a secure place for data. Edge computing in smart cities will include analytics, the Internet of Things, and data sharing. For example, a smart city could monitor traffic information from a sensor, collect data from internet-connected car data and dispatch buses based on destination preference. The future of IoT is predicted to see the amount of data from smart devices explode by 73 billion exabytes by 2020, up from 33 billion exabytes in 2014. This will be driven by the increasing adoption of smart devices.

Currently, cloud-computing is providing the best computing experience, given the availability of large computing resources in terms of computing power and storage. However, the bulk of internet users' data is still stored on servers out of reach of end-users. In 2017, almost 90 percent of all data was stored on servers, compared to 8 percent on personal computers. Edge computing can address this in several ways. The amount of computation and data in the cloud must be low for the computing to be effective at the edge. On the other hand, the latency and capacity in the cloud must be low to provide the necessary computing and storage. In addition to this, there are significant data management challenges involved in deploying edge computing.

In the next few years, the growth of mobile internet, IoT, 5G network and artificial intelligence, along with the emergence of the cloud computing and data analytics, are expected to drive the demand for edge computing. Therefore, the demand for edge computing solutions is likely to witness strong growth during the forecast period. The increasing adoption of cloud-based services and the proliferation of mobile devices are creating new opportunities for network operators in this domain. Thus, the overall growth of the market is likely to boost the demand for edge computing solutions