RNDR (RenderToken), the coin that helps you lend graphic processing power.

Modified on Wed, 06 Dec 2023 at 01:30 PM

Today’s digital media creation, graphics are what everyone sees first, whether they are images, motion graphics, video games, or movies. However, to create graphics at that level, an indispensable element is the computer that will render or generate these graphics. The more realistic or beautiful the graphics, the more powerful the processing capabilities of the computer need to be. But not every artist can access that level of processing power.

This limitation has led to the creation of the Render Network project. It aims to be a system that allows artists to “borrow’’ computational power from computers around the world to use for their work. In this article, Bitkub Exchange will introduce you to the Render Network.

What is Render Network?

Render Network is a decentralized network for borrowing and renting graphics processing power. It utilizes the RNDR tokens, which are built on the Ethereum blockchain, as the network’s native cryptocurrency.

Render Network was initiated in 2017 with a vision to create a network that supports a wide range of computational tasks, from basic processing to artificial intelligence (AI) operations. 

The founding team saw that some computers, once their owners were done using them, would remain idle without much purpose. Similarly, some GPUs were being used for cryptocurrency mining instead of their intended purposes. So, what if the owners allow people to lend their computer’s processing power to those who need it? This is where Render Network comes in, connecting both lenders and borrowers. It creates an economy where computational power is shared globally, helping to lower the costs of graphics rendering significantly compared to acquiring new computing resources.

What problem does Render Network address?

Nowaday, acquiring high-performance computers comes with significant costs. The more complex and detailed the graphics, the more expensive the rendering process becomes. Render Network was established to tackle this issue and offers solutions in the following three key areas:

  1. Limitless Processing Power: Render Network opens up participation to anyone who owns a computer. Whether it’s a regular work computer or a gaming rig, individuals can lend their unused processing power. This means that those who require substantial processing power, like animation studios or companies producing special effects, can borrow the necessary computational resources according to their needs.
  2. Increased Options: Render Network provides more options for both lenders and borrowers. Lenders have the opportunity to generate income by renting out their unused processing power. On the other hand, borrowers, who are often artists or companies in the graphics field, can access the power they require without the need to invest in expensive hardware. Render Network becomes an alternative way for these groups to access computational power while significantly reducing costs.
  3. Transparency: Being built on blockchain technology, Render Network ensures a high level of transparency. Users can verify relevant information about the lending process, including the credibility of lenders. This can be determined by examining their track record of successfully completed projects. Additionally, Render Network employs a ranking system to assess the credibility of lenders, making it convenient for those seeking to rent processing power.

In essence, Render Network addresses the challenge of accessing and affording high-performance computing resources for graphics rendering. It creates an ecosystem that benefits both those who have unused processing power and those who require it, fostering a more efficient and cost-effective approach to digital media creation.


Was this article helpful?

That’s Great!

Thank you for your feedback

Sorry! We couldn't be helpful

Thank you for your feedback

Let us know how can we improve this article!

Select atleast one of the reasons
CAPTCHA verification is required.

Feedback sent

We appreciate your effort and will try to fix the article