Article | September 16, 2021
If you are clued into IT, then most likely, you are aware of the latest trending technology, edge computing data centers.
Edge Computing ensures exceptional speed, with firm privacy and security compared to the conventional cloud methods, thus making edge data centers an imperative option for everyone.
The world is undoubtedly moving faster, thereby perpetually pushing the power of next-generation innovation.
Edge computing data center has emerged as a substitute to cloud computing, that keeps the data processing power at the “edge” of the network.
But, it also comes with a set of challenges to the network.
Edge computing devices that have processing functions are expensive and to operate the older version, additional equipment is required, which incurs extra expenditure.
Despite the challenges, edge computing has turned out to be the biggest technology investment.
So, let’s break it down here with comprehensive details to understand how this latest trending technology is all set to shape the future of the data center.
A Brief on Edge Computing
The word edge refers to the literal geographic distribution that brings computation and data storage nearer to the data sources.
It improves the response duration and saves bandwidth as it runs fewer processes in the cloud and shifts those processes to local destinations such as on a user’s computer, an edge server, or an IoT for that matter.
In a nutshell, edge computing is a topology that enables data to be analyzed, processed, and transferred at the edge of a network, It helps diminish the long-distance communication that takes place between a client and server.
A significant advantage of using edge computing lies in its high speed and better reliability. In addition, it offers improved security by distributing processing, storage, and applications across wide-ranging devices and data centers.
What’s more, it paves the way for a budget-friendly route to scalability as well as versatility, enabling organizations to expand their computing capabilities through an amalgamation of IoT devices and edge computing data centers.
Edge Data Centers and Their Usage!
There isn’t any specific explanation that would describe the idea of an edge data center, considering it isn’t one consistent style of the facility. It instead consists of smaller facilities that serve both edge computing and larger-scale cloud services.
Since they are located closer to the population, they could easily extend the edge of the network to deliver cloud computing resources and cached content to end-users. Typically, they connect to a larger central data center or multiple computer data centers seamlessly.
Latency has forever been a matter of concern for cloud data center managers. In recent times, it has emerged as a key obstacle due to big data, the Internet of Things, cloud and streaming services, and other technology trends.
Moreover, in today’s time and age, end-users and devices demand access to applications and services anytime and anywhere, which leaves no room for latency. Consequently, companies across the spectrum are establishing edge data centers to ensure cost-effective and high-functionality ways to provide customers with content and performance.
A great way to learn more about the data center would be to understand its usage. The following are some of the services that primarily rely on edge computing:
Internet of Things
Internet of Things tools essentially require low latency and reliable connections to the data center to function with high intensity. IoT devices add up a vast number of edge computing utilities; thus using edge computing makes it simple and effective.
Streaming content is one of the most consumed form of infotainment. Users today want their video to get started with a single click that edge facilities help achieve.
While Drones are increasingly getting popular, their features are also massively advancing. For example, with edge computing, drones could be controlled even from far-flung locations without any hitch.
AI is one of the most thriving technologies that have taken over the world with its magnificent scalability, To make AI advantageous to the system, it should be able to access data, process it, and communicate with the end-users effectively and quickly which an edge data center allows.
Virtual Reality needs to get updates as quickly as possible to create an immersive world for the users. Though primarily associated with gaming, VR has also gained recognition for different paradigms such as communication, education, and several other significant uses.
Edge Computing and Data Centers – The Future!
A dedicated 5G Provider
Edge Computing is underway, building mammoth telecommunications capabilities into data center growth trends. These facilities could change the dynamics of 5G providers for enterprise brands and emerge as the dedicated 5G providers for organizations.
Support sustainable business goals
Edge data centers are being looked to as a periphery that can help build more efficient solutions to enable the sector’s sustainability. Edge computing is specifically designed to keep applications and data closer to devices and their users. Therefore, there is little doubt over the impact that edge computing will have on sustainable business goals.
Making way for Robot Security Guards
Evolution in AI and IoT has drastically changed the human staffing needs inside the data centers and made way for Robots. Currently, Robots have been deployed in some of the hyper-scale data centers for specific tasks. Whether it is the automated inspection, faulty disc locating, or disc charging, with Robots at the helm of affairs, everything can be completed seamlessly.
Many data center and robotics professionals are predicting that the next couple of years will be big leaps when it comes to placing more robotics in the data center environment.
Bill Kleyman - now Switch EVP of digital solutions - wrote in 2013.
How Does One Choose a Location For a Data Center?
Data centers are a critical part of any business enterprise operations. Hence, decisions regarding its locations cannot be relegated to an arbitrary choice.
In the past, companies used to set up their edge data centers closer to their offices to maintain the proximity. However, that is swiftly changing now as the equipment administration and monitoring can be achieved remotely.
With the data center industry transforming, performance is no longer the sole consideration.
To create a defining success of the data centers, companies are now looking for different sites for their data centers, primarily focusing on factors like economic, political, social, and geographical.
The current scenario highlights the significance of considering Energy efficiency, business continuity plan, and resource optimization. With so much at stake, the edge data centers should be effortlessly accessible.
Edge computing and data center growth has garnered a lot of interest among the users over the past few years. It will continue to thrive for many more years to come as it meets the eye of the global tech demands and the current and future needs of the users worldwide.
Frequently Asked Questions
What are the benefits of edge computing?
One of the top benefits of edge computing is its quick response time and low latency period across all devices. It also simplifies the bandwidth and creates less risk in corporate security.
What are the drawbacks of edge computing?
A significant drawback of edge computing is the need of a huge storage capacity. The security challenge is also relatively high due to the massive amount of data stored in it. Moreover, the expensive cost factor is also a disadvantage of it.
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Article | September 16, 2021 |
Telecommunications conglomerate Verizon has partnered with 3D development platform Unity to create entertainment applications and enterprise toolkits that can render 3D environments almost instantaneously, without the need for expensive hardware.
In a press release, Verizon said products from this collaboration will address the demand for instantaneous content in industries such as gaming, retail, and sports, where emphasis is placed on real-time digital immersion.
“We are entering an era of technology-led disruption where 5G and MEC will not only transform the full enterprise lifecycle, it will change the way consumers experience gaming and entertainment,” said Verizon Chief Executive Officer Tami Erwin.
These products will utilise 5G and Mobile Edge Computing (MEC) technology, taking the best of both worlds to enhance the digital experience for consumers.
The concept of edge computing has actually been around for roughly three decades, but it wasn't until recently that we've been able to apply it to Internet of Things (IoT) devices. Edge architecture reduces latency by moving computer services closer to the source — the "edges" — of the data. This not only decongests the centralised cloud of information, but also decreases the distance the data needs to cover to reach user terminals.
Meanwhile, 5G is the highly anticipated next generation broadband network that promises to deliver high speeds with just millisecond latencies. Despite the pandemic, its rollout hasn’t slowed down at all, with countries like China, South Korea, and the US getting a first taste of the technology.
The promise of lightning-fast connections, however, comes at a steep cost: 5G stations consume plenty of energy to work.
Though much of 5G's advantages come from its streamlined digital routing capabilities, it's also underpinned by a powerful network of hardware components — more precisely, printed circuit boards (PCBs). To answer the demand for more energy, engineers use ties to meet PCB requirements for solving the challenges that come with powering a standard board. These include considerations like signal paths and planar delays, among others. Placing the net ties at the right junctions distributes energy more evenly, thus providing efficient power delivery to 5G networks.
Despite all the touted capabilities of 5G, experts have flagged cybersecurity as one major concern. As a new innovation, 5G is still fairly unregulated, leaving loopholes and security gaps that cyber criminals can exploit. For instance, the expansion of bandwidth coverage actually opens up vulnerabilities and additional avenues for cyber attacks. Furthermore, the hyper connected nature of IoT devices makes it easier for hackers to gain access to different networks, both private and public; and unwitting users can potentially expose their contacts to virtual attackers.
Because of these threats, experts urge telecom companies to lay down a solid bedrock for 5G security before finalising the pivot towards it. For now, it remains to be seen how legislators and regulators will implement standards to guide the public in its use of 5G.
Amid this concern, Verizon and Unity are hopeful that their collaboration — and the marriage of 5G and MEC technology — will be a game changer in the gaming, retail, and entertainment industries.
“We know the world is demanding high-speed, AAA content, whether it’s an educational augmented reality application or a robot running a simulation of a digital twin,” Unity Vice President for Solutions Ryan Peterson said.
“5G is the key piece for us to facilitate these real-time 3D experiences broadly and to better meet the demands of the real-time economy.”
Article | September 16, 2021
Trials of 4G and 5G Open RAN will commence in the UK, Germany, Spain and Brazil this year after Telefónica confirmed a “strategic ecosystem collaboration” with Altiostar, Gigatera Communications, Intel, Supermicro and Xilinx, Inc. Telefónica said the partnership will examine design and developments, integration efforts, operational procedures and testing activities required to deliver Open RAN across its global footprint. This work will specifically include development, optimisation, testing and industrialisation of Open RAN technologies. In a statement, the firm said: “Open RAN represents a paradigm change in network technology where radio baseband hardware is based on standard servers, interfaces between network equipment are open and standardized by the O-RAN Alliance, and the baseband software runs in the Telco Cloud by adopting the Automation and Zero-Touch capabilities that the NFV/SDN paradigm can bring.”
Article | September 16, 2021
In tandem with the deployment of 5G networks is the emergence of edge computing and edge clouds – placing data processing and storage in close proximity to where it’s needed on the enterprise edge. Moving computing closer to the enterprise edge improves network performance and reduces cost as traffic no longer needs to be routed to central clouds.
5G networks and edge computing are creating new business opportunities and richer consumer experiences. Many mobile service providers are planning to shift their network delivery from a few mega-capacity central clouds to thousands of edge clouds that support more agile, customizable services. Without integration, the new 5G network edges are where the new security challenges will likely occur.
The performance of 5G networks has to be matched by the associated security and computing components. Without strategic security planning, the necessary security solutions could inadvertently create bottlenecks that negate the value of edge computing. Enabling applications to perform at 5G speeds to ensure expected user experience is one thing, but ensuring that this happens securely, across more network access points than ever before, presents an entirely new set of very serious challenges. Organizations need to be prepared today with stronger, broader, integrated and automated security foundations.