Web3: What Will The Internet Look Like In The Future?

Our connection with the web is changing as a result of dispersed cloud computing, decentralised data, and developing spatial technologies. Wondering what is Web3, we’ll get it explained.

What is Web3?

Web3, often known as web 3.0, is widely acknowledged as the most recent progression in the structure and application of data found on the online.

The fundamental changes in our information and our interactions with it brought about by a multitude of new technologies are difficult to sum up in a single characteristic. This can invite to many cybersecurity threats.  Its multileveled impact must be highlighted in order to be defined.

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Fundamentally, we’ve switched to the blockchain paradigm for data storage, and we’re automating more of the way we access and analyse this data by using AI.

As we continue to generate data at an astounding rate, the importance of automation made possible by AI and ML has increased. For instance, IoT devices are enabling us to see the bigger picture by supplying the wealth of data required to model large systems. The computing itself is transitioning from a simple cloud to a distributed cloud as we move higher. The ability to deploy on any environment—cloud, hybrid, on-premises, or the edge—is a benefit of modern systems.

Converting the cloud to a decentralised, serverless computing model. Then, in terms of how we view and access this information, technologies like AR and VR are fusing the actual world with the digital realm, shifting our attention away from screens and toward a stronger connection with it.

Advanced spatial computing, which is what Web3 is also known as, is what is causing changes in simulation technology. IT has long been used to represent and analyse physical objects, with computer-aided design programmes serving as a notable early example. These simulations were able to develop and become more complicated thanks to advances in computing capacity, but ultimately, the fundamental structure stayed the same.

Due to the availability of new platforms and tools that function in harmony with one another, Web3 represents a significant change in this framework.

Think about how the development of IoT devices has altered machine design and monitoring in manufacturing. Our simulations can become living, breathing copies by giving a mechanism to measure and gather enormous volumes of real-time data. 

They may be put under duress and optimised to work more effectively, with IoT devices offering previously unattainable insight.

Similarly, we can see these simulations from entirely new angles. For many years, BIM (Building Information Modelling) has been a mainstay of architecture and urban design. We can now virtually walk around them even before they are constructed thanks to VR technology. Alternately, you can project features onto existing constructions using augmented reality. These modifications constitute a whole new strategy; they are neither incremental enhancements or examples of streamlining.

However, these novel technologies have a cost and present new difficulties. For starters, they only want ongoing access to powerful computing resources. They demand the appropriate kind of computing, second. A computation platform must be able to support this since time-sensitive features on something like a digital twin are frequently best evaluated at the edge to avoid latency issues. IoT and AI/ML generate enormous amounts of data, therefore applications must be scalable enough to handle the demand.

Data processing for the web was done in on-premise systems for a while. Although the cloud gave IT more flexibility and efficiency, even this is starting to become decentralised. With distributed cloud, an organisation can allow any hybrid, on-premises, public, private, or edge environment for its IT operations. Instead of needing to select a lowest common denominator, each component of your infrastructure can be mapped to the one that best fits its needs.

What exactly does web3’s endgame look like then?

The future won’t appear overnight since it is a massive network of interconnected components, much like the web itself. However, there are a few fundamental pillars that will characterise it, including distributed cloud, blockchain, and AI/ML. In order to be as prepared as possible, our foundational infrastructure must be equipped to handle all web3 has to offer. We require scalable, secure computation that can benefit from an exciting future.