There is no way for AI communicate data to each other and coordinate processing. Everything has to be done manually and is really expensive.
There is no way to find AI services, nor any way to judge the quality of an AI service without using it. This creates unnecessary risk.
There are few people who can create AI, connect it to others, and take it to market. This makes AI too expensive, and too complicated, for most organizations.
By wrapping each AI algorithm, we create a simple protocol for exchanging data and coordinating processes between AI, solving the communication problem.
The AI to AI economy takes form on the SingularityNET market, where any AI service can be discovered and purchased.
By making it easy for AI services to be linked together, the SingularityNET market can offer automation-in-a-box at ultra low costs.
Sophia, brought to life by our founding partner, Hanson Robotics, is the world's most expressive humanoid robot. Her proprietary software, firmware, and hardware makes her nearly impossible to replicate. With SingularityNET, anyone could access Sophia's mind on demand.
Sophia uses dozens of algorithms, many of which are licensed from third parties. Today, integrating extern AI resources and functionality is slow, costly, and simply too difficult for most organizations. AI developers, including the hundreds that we work with, are demanding better ways to access and integrate AI technologies. SingularityNET is designed to meet that demand, providing the only protocol for AI to AI communication, transaction, and market discovery.
Soon, Sophia's entire mind will live on the network, letting her learn from every other AI in the SingularityNET. And the whole world will be able to talk to her.
The AGI token lets anyone transact AI services globally, without censorship or exclusion.
The AGI token incentivizes network participates to help the best AI services get discovered and improve the network.
The AGI token makes global AI to AI microservices industry come to life, allowing organizations to buy processing on demand.