Building global, scalable metaverse applications – VentureBeat
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Previously we talked about the trillion-dollar infrastructure opportunity that comes with building the metaverse — and it is indeed very large. But what about the applications that will run on top of this new infrastructure?
Metaverse applications will be very different from the traditional web or mobile apps that we are used to today. For one, they will be much more immersive and interactive, blurring the lines between the virtual and physical worlds. And because of the distributed nature of the metaverse, they will also need to be able to scale globally — something that has never been done before at this level.
In this article, we will take a developer’s perspective and explore what it will take to build global, scalable metaverse applications.
As you are aware, the metaverse will work very differently from the web or mobile apps we have today. For one, it is distributed, meaning there is no central server that controls everything. This has a number of implications for developers:
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These challenges are not insurmountable, but they do require a different way of thinking about application development. Let’s take a closer look at each one.
In a traditional web or mobile app, all the data is stored on a central server. This makes it easy for developers to query and manipulate that data because everything is in one place.
In a distributed metaverse, however, data is spread out across many different servers. This means that developers will need to find new ways to query and manipulate data that is not centrally located.
One way to do this is through the blockchain itself. This distributed ledger, as you know, is spread out across many different servers and allows developers to query and manipulate data in a decentralized manner.
Another way to deal with the challenge of data is through what is known as “content delivery networks” (CDNs). These are networks of servers that are designed to deliver content to users in a fast and efficient manner.
CDNs are often used to deliver web content, but they can also be used to deliver metaverse content. This is because CDNs are designed to deal with large amounts of data that need to be delivered quickly and efficiently — something that is essential for metaverse applications.
Another challenge that developers will need to face is the fact that users and devices are also spread out across many different servers. This means that developers will need to find ways to deliver content to users in a way that is efficient and effective.
One way to do this is through the use of “mirrors.” Mirrors are copies of the content that are stored on different servers. When a user requests content, they are redirected to the nearest mirror, which helps to improve performance and reduce latency.
When a user’s device is not able to connect to the server that is hosting the content, another way to deliver content is through “proxies.” Proxies are servers that act on behalf of the user’s device and fetch the content from the server that is hosting it.
This can be done in a number of ways, but one common way is through the use of a “reverse proxy.” In this case, the proxy server is located between the user’s device and the server that is hosting the content. The proxy fetches the content from the server and then delivers it to the user’s device.
As we mentioned before, each user’s experience of the metaverse will be different based on their location and the devices they are using. This is because not everyone has the same tech setup, and this plays a pivotal role in how the metaverse is experienced by each user.
For example, someone who is using a virtual reality headset will have a completely different experience than someone who is just using a desktop computer. And someone who is located in Europe will have a different experience than someone who is located in Asia.
Though it may not be obvious why geographical location would play a part in something that is meant to be boundless, think of it this way. The internet is a physical infrastructure that is spread out across the world. And although the metaverse is not bound by the same physical limitations, it still relies on this infrastructure to function.
This means that developers will need to take into account the different geographical locations of their users and devices and design their applications accordingly. They will need to be able to deliver content quickly and efficiently to users all over the world, regardless of their location.
Different geographical locations also have different laws and regulations. This is something that developers will need to be aware of when designing applications for the metaverse. They will need to make sure that their applications are compliant with all applicable laws and regulations.
Now that we’ve looked at some of the challenges that developers will need to face, let’s take a look at how they can develop metaverse applications. Since the metaverse is virtual, the type of development that is required is different from traditional application development.
The first thing that developers will need to do is to create a “space”. A space is a virtual environment that is used to host applications.
Spaces are created using a variety of different tools, but the most popular tool currently is Unity, a game engine used to create 3D environments.
Once a space has been created, developers will need to populate it with content. This content can be anything from 3D models to audio files.
The next step is to publish the space. This means that the space will be made available to other users, who will be able to access the space through a variety of different devices, including desktop computers, laptops, tablets, and smartphones.
Finally, developers will need to promote their space. This means that they will need to market their space to users.
Since web 3.0 is decentralized, scalability is usually the biggest challenge because traditional servers are almost impossible to use. IPFS is one solution that can help with this problem.
IPFS is a distributed file system used to store and share files. IPFS is similar to BitTorrent, but it is designed to be used for file storage rather than file sharing.
IPFS is a peer-to-peer system, which means that there is no central server. This makes IPFS very scalable because there is no single point of failure.
To use IPFS, developers will need to install it on their computer and add their space to the network. Then, other users will be able to access it.
To finish off, the technology to build scalable metaverse applications already exists; but a lot of creativity is still required to make it all work together in a user-friendly way. The key is to keep the following concepts in mind:
Clearly, we can’t have an article series about building the metaverse without discussing NFTs. In fact, these might be the key to making a global, decentralized, metaverse work. In our next article, we will explore how NFTs can be used in the metaverse.
By keeping these concepts in mind, developers will be able to create metaverse applications that are both user-friendly and scalable.
Daniel Saito is CEO and cofounder of StrongNode
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