- SWAN chain handles Filecoin’s Commit2 ZK-Snarks using GPU-powered off-chain computing and efficient sealing proof verification.
- The ZK-UBI pool distributes ZK-SNARK workloads to providers, allowing scalable file coin calculations with automated task allocation.
Behind distributed data storage processes, it is said that “continuously unable to post”, but there is actually a serious backend work. One of them: ceiling. And at this point, the Swan Chain appears as a new player, and will help you complete Filecoin’s Commit2 process using ZK-SNARK technology. In short, Swann helps with heavy lifting of the Philicoin, but does it off-chain.
Swan’s Zk-ubi pool turns heavy proofs into shared workloads
Uniquely, this process involves not only a single data center, but a distributed network of computing providers. These providers complete the proof of calculation and send the final result to Filecoin for verification.
This not only saves time, but also makes the process more scalable. By leveraging widely available GPU infrastructure, you can increase efficiency without building new hardware. For a single 32GB sector, imagine the Commit2 process can consume up to 275GB of memory. If you are using a home laptop, you may crash from the first minute.
. The @swan_chain process processes zk-snark workloads such as commit2 across a network of computing providers.
These providers complete the sealing proof off-chain and submit the verified results to Filecoin.
This system applies the existing GPU infrastructure to protocol tasks. pic.twitter.com/nma2ieoq0l
– Filecoin (@filecoin) July 18, 2025
Additionally, Swan has also designed a task delivery system called the Zk-UBI pool. This is a kind of auto-labor market of ZK Proof that coordinates workloads based on provider capabilities. So there’s nothing like the server is exhausted on one side, but the other is idle.
In addition to being efficient, they also provide incentives to those who successfully complete the task. This model is similar to freelance work, but specializes in proofing encryption.
Furthermore, Swann is not stopped at Filecoin. It also expands its reach to other systems such as Aleo, Scroll and Starknet. This means that it could become a ZK-SNARK processor for various Web3 networks in the future.
Meanwhile, at the time of reporting, FIL has changed its hands at about the time of reporting. $2.70top 9.67% Over the past 7 days 16.08% The past 30 days.
Filecoin becomes the backbone of transparent AI storage
Interestingly, the trend in consolidation between AI and persistent storage is also becoming increasingly apparent about Filecoin. Earlier this month, CNF reported that Cryptomodels has begun permanently storing AI models in its Filecoin network.
These models can be run directly on the user’s device without telemetry or central monitoring. Therefore, there is no sudden deletion or unilateral shutdown of the AI model.
Similarly, Recall integrated the AgentRank Scoring System, and AI integrated the data into Filecoin. They aim to make the matchmaking process between AI agents transparent and publicly auditable. By storing data in a distributed infrastructure, results cannot be tampered with.
Then, in June, a joint project between Filecoin and Theoriq began. They built an AI agent that is fully verifiable on-chain, from the model to the decisions it makes. Everything is stored and tracked through Filecoin’s public repository, providing a solid foundation for future autonomous agents who can collaborate with each other to autonomously perform complex tasks.
But of all these developments, the swan chain remains a highlight as it brings new energy to demanding processes that were previously feasible and costly. The ZK-SNARK process usually requires a tedious and highly technical process, but Swan opens up a way to contribute to anyone with GPU and bandwidth.
This is not just about efficiency. It also opens up opportunities for true decentralization. Here, rather than focusing on the hands of one party, heavy lifting can be shared among many.
