Edge Computing: The Key To Achieving Ultra-Low Latency in 5G Networks
When it comes to enhancing network performance, there are considerable challenges that come with server systems. Top of the list? Latency, the biggest enemy of enjoyable user experience.
In today’s digital environment, every millisecond counts. High latency on an E-commerce website offering juicy Black Friday sales, for instance, can make customers very frustrated or even drive them toward faster competitors.
So, rather than restarting and starting routers every now and then or moving closer to our MiFi devices, more long-lasting solutions are required. This birthed the development of technologies like ethernets, 5G Networks, Content Delivery Networks (CDNs), and others. 5G Networks promise to resolve lagging issues completely, but many still complain that delays persist.
Computing models like edge computing, which was first demonstrated by Brian Noble and his colleagues in 1997, can provide ways for us to enjoy the full potential of the 5G network. To help you understand more, this guide outlines the technology, networking, and strategies needed to achieve ultra-low latency.
Lightning Fast Response Time For Improved Real-Time Gaming
Gamers love their racing games, strategy, or first-person shooter games. However, those hold-ups between pressing a key on the controller and the game’s motion might make all the difference between a flawless gameplay and a bad one. Extremely slow internet speeds might make it difficult for you to follow your casino game online or play at all. These games are synonymous with thrill and emotion, and you certainly do not want your play thwarted by connectivity issues.
When it comes to online gambling, 5G networks are regarded as the finest option for ultra-low latency, high throughput, and several security solutions. According to reports, a good 97% of gamers have experienced ping issues—another word for latency—at one time or the other, playing on different types of platforms. 34% of the population studied revealed that they quit the game completely when this happens.
We have already mentioned that using high-speed internet connections like 5G Networks, fiber optics, ethernet connections, and others can go a long way in improving your gaming experience. You could also try upgrading your hardware and beefing up your servers.
Additionally, for players who like to play with international teams, using a reliable cloud service provider that offers edge computing might be a reasonable solution. Edge compute servers are innately simple to set up and use, typically in a few seconds. This means that not only can you expand to meet an increasing participant base, but load-balancing features can also be used quickly to split traffic flow between a number of servers, improving player experience.
Improved Data Processing
Edge computing in 5G Networks has many advantages. One of them is how it allows you to kiss even the tiniest bit of delays goodbye and get your data processed in real-time. Edge computing places your data literally at the edge of the network as opposed to in the center as we have in traditional computing systems.
Thus, the computing resources are much closer to where the data is derived, leading to faster processing time. And this is why the need for edge computing solutions will continue to be at an all-time high, especially in areas like healthcare, where swift decision-making is valued.
Bandwidth Optimization
Still, doubting the game-changing powers of edge computing in 5G networks? Let us explore what it does for bandwidth optimization. First, it assesses your data and then adds important metadata to your data for easier navigation in large datasets. During this process, useless or redundant data is removed. In fact, data reduction is one of the most exciting features of edge computing as it is what allows for less network traffic and quicker response times.
Also, edge computing scans and processes data locally, allowing time-sensitive and vital information to be sent smoothly to your servers for fast computation.
The architecture of Edge-Computing-Based IoT
The distributed architecture of edge computing allows for three separate layers: The IoT layer, the edge layer, and the cloud layer. These layers contribute to the computing model’s increased security and privacy safeguards. This is because edge devices carry limited and frequently incomplete sets of data that cannot be useful to hackers. Its architecture also helps it reduce lag issues and can be very scalable and flexible to use.
Final Thoughts
Edge computing looks like one of the best ways for us to realize the full promise of 5G networks, especially when it comes to achieving ultra-low latency. Since it stores data closer to end users, all of the time that would have been wasted when the data travels from the devices to the centralized servers is removed. What we are left with is a better user experience, instant responses, and network efficiency.
With all of these benefits, it would not be out of place to say that the integration of edge computing in 5G networks is the future.