Euclid Protocol just went live on Somnia Network. That means Somnia’s gaming-focused blockchain, which executes a million transactions per second with sub-second finality, is now connected to Euclid’s unified liquidity layer across more than 40 chains. Games, social apps and DEXs on Somnia can tap into that liquidity without users touching a bridge or leaving the network.
Euclid is now live on @Somnia_Network ⚡
1 million TPS | Finality in the second second | Built for mass consumer apps.
Now connected to over 40 networks via unified liquidity.
Games, social apps, DEXs. All completely on-chain. All completely liquid. pic.twitter.com/7aT9NyXxAO
— Euclid Protocol (@EuclidProtocol) March 20, 2026
What Somnia actually is
Somnia is a blockchain purpose-built for mass consumer applications, with an emphasis on gaming and entertainment. The technical specifications are built around that use case. One million TPS is not a theoretical ceiling for a white paper.
It’s the throughput target for a chain designed to handle the kind of transaction volume that real gaming applications generate at scale, with every in-game action, item transfer, and player interaction potentially reaching the chain simultaneously.
Sub-second finality means that transactions are confirmed so quickly that users do not notice the underlying blockchain layer. Cost of a penny means the economy works for microtransactions, which are the lifeblood of gaming economies where players are constantly buying, selling and trading low-value items.
Together, these properties describe a chain that is actually useful for consumer applications rather than one that performs well in benchmarks but breaks under real-world usage patterns.
What the Euclid Protocol brings to the table
The Euclid Protocol functions as a consensus layer on liquidity. Euclid pulls fragmented liquidity from multiple blockchains into one unified pool. Any app on a connected network can access it. No manual override. No chain-by-chain integrations.
For Somnia, this changes the economics of construction. A DEX does not have to build liquidity from scratch or remain dependent on the assets on the network. A game with in-game tokens can tap into real market liquidity across more than 40 chains, rather than sitting in its own isolated economy hoping users will show up.
A social application with tokenized features can integrate assets from networks where users already hold funds. Euclid takes care of the cross-chain routing and liquidity aggregation. Somnia provides the execution environment fast enough to make it feel seamless.
Why this integration makes sense
Gaming and consumer applications have always had a liquidity problem in the chain. The users targeted by these applications are not the same users who navigate chain bridges, manage multiple wallets, or monitor liquidity pools across networks. They want to open an app, play, trade and communicate without thinking about which blockchain they are on or where their assets actually reside.
Euclid’s unified liquidity layer addresses the supply side of that problem. Somnia’s infrastructure focuses on the performance side. A gaming application that needs fast, low-cost transactions and access to liquid markets for in-game assets now has both available on one chain through a single integration.
The network reach of over 40 means that Somnia-based applications are not isolated from the broader crypto economy, even though they operate on a chain purpose-built for a specific use case.
What fully on-chain and fully liquid actually means
Euclid and Somnia both use the phrase in their announcement: games, social apps and DEXs that are fully on-chain and fully liquid. Until now, that combination has been really difficult to achieve.
Fully on-chain means that the application logic, assets, and state are all live on the blockchain, rather than relying on centralized servers for performance-sensitive operations. Fully liquid means that the assets within those applications connect to real markets rather than existing in isolated ecosystems with thin order books and limited exit options.
Conclusion
The Euclid integration brings these two features together for developers building on the network. Applications can be built on-chain quickly enough to handle real-world usage, with assets that connect to the broader multi-chain liquidity landscape rather than relying solely on Somnia’s own ecosystem liquidity.
Euclid going live on Somnia connects two layers of infrastructure that solve different but related problems in consumer blockchain adoption. Fast execution comes with deep cross-chain liquidity, and the applications that benefit most from it are precisely those applications, games, social platforms and DEXs, both of which need to work simultaneously.