Edge Computing is becoming an increasingly important part of the IT ecosystem, as there is a greater need than ever for computing power to be available, accessible, and ready to use immediately.
Even if different organizations, plants, or even hospitals move at least a portion of their daily computing processes from a centralized cloud to the periphery, edge computing is still a mysterious concept for many. For clarity and insight, TechNewsWorld has spoken to several experts to explain in detail what edge computing is, why it is needed, and where it is going?
“An edge is a strategy “Putting traditional cloud computing on top of your head. While traditional cloud deployments are about centralizing on a single infrastructure that can be scaled to meet business needs, the edge focuses on geographic scaling,” said Nick Barcet, Red Hat is the senior director of technology strategy at Red Hat.
According to Barcet, edge computing is essentially “the latest IT footprint.” It shuffles pieces of previous footprints to create an infrastructure designed to address the special needs of customers that traditional IT models cannot.
Raffi Elliott, head of Mutable, explained that “the edge computing is a distributed computing architecture that addresses some of the inherent shortcomings of the current cloud computing infrastructure, namely high latency and bandwidth costs, by bringing computing as close as possible to end users at the edge of the network.
*) The specialist added that by shifting remote computing resources toward those who use them, the edge cloud reduces the distance that data has to travel between the user’s device and the data center, which is a key requirement for latency-sensitive applications while reduces the bandwidth load on networks
The edge is anywhere this can be where computing power is needed immediately and without error. “The last year or two has seen the emergence of applications that literally push enterprise IT to the brink, such as from self-driving vehicles to artificial intelligence to huge sensor networks that rely on 5G for instant connectivity and emergency response time. The intention to bring IT resources closer to the end user has never been more appropriate, “Barcet pointed out.
As the pandemic pressed to different edges of structures, thus increasing the demand for edge computing. “Although edge computing has been known for some time as the next step in the development of cloud computing, the Covid-19 pandemic has greatly accelerated its rise and demonstrated its need. The types of Internet applications we envision in the near future, such as AI-based manufacturing, telemedicine , self-driving cars and the Internet of Things are quite data-intensive and require a huge amount of computing power, and both are limited on most devices today, “said Elliott.
The edge computing is largely driven by the need for cost savings, especially in uploading and downloading large amounts of data.
“It seems that the need for edge computing today to process data as it arises simply because there is not enough bandwidth to upload to the cloud.Even if there was enough bandwidth, probably em would be cost effective to send so much data to the cloud. A great example of this is on-site video analysis, “said Amar Kapadia, co-founder and CEO of Aarna Networks.
Almost every industry has its own specific edges. They look for where they are and build local processing power where it is most needed. “Flanges can come in a variety of forms, such as data center flanges, 5G MECs or telco flanges, which are small extreme clouds deployed by mobile operators, and IoT flanges, which have computing capabilities in an IoT device. they have capacity. There may be industry-specific flanges, such as retail, medical, manufacturing, or toy flanges, to meet the industry-specific computing and workload needs of a particular application, “said Raj Nair, CEO of Avesha.
Another driver of edge computing is the need for consistent processing, even in the event of power, Internet, or other disruptions. A well-designed perimeter network can also thrive redundancy and minimize possible single failure points if a catastrophic event occurs at one location. Edge computing devices can form a distributed private network for the right emerging technologies, such as blockchains, “said Doug Slattery, CEO of SYBor.
The edge is likely to become a stronger place. , from which AI and machine learning are useful and related to real-time problems.
“The demand for edge computing will only increase as workloads in the most remote parts of the network increase. they become more complex and computationally intensive. With connected cars, intelligent manufacturing plants, drone delivery systems and more, the importance of the edge is becoming more and more solidified. The next step is for the edge computing ecosystem to continue to innovate in terms of accessibility, scalability, and security, reduce entry barriers for organizations looking to build an edge strategy, and improve the overall security position of edge footprints against growing threats. It’s not just about delivering software, it’s also about providing the capabilities needed to scale software, ”said Barcet.
“ We believe that the future of edge computing lies in autonomous infrastructure, where computing is hyperlocal, will be distributed and ubiquitous. Managing such distributed infrastructures, scaling them correctly, and analyzing the root causes is a challenge that companies face, ”Raj Nair explained on TechNewsWorld.
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