Fhenix, the earliest confidential layer 2 driven by completely homomorphic encryption, has started a collaboration with EigenLayer. The platform announced on its official X account that the partnership with the decentralized [ccpw id=60480] restaking platform deals with the development of an exclusive coprocessor architecture. It also stated that this endeavor is going to open new prospects for further growth.
Fhenix and EigenLayer Work on a Distinctive Coprocessor Architecture in New Partnership
Additionally, Fhenix noted that both entities are embarking on a special journey to explore new blockchain-related opportunities. As per the company, the partnership will also provide considerable attention to enable on-chain secret computing by using FHE. Apart from that, it disclosed that the latest project intends to combine Ethereum’s cryptoeconomic security.
For this purpose, it reportedly leverages EigenLayer as well as the roll-up architecture of Fhenix. In this way, the FHE coprocessor enables the developers to conveniently incorporate encrypted computation. With this, it improves its application logic along with a vibrant adjustment of the cryptoeconomic security. Moreover, it focuses on the elimination of a lengthy scam-proof challenge timeframe.
Fhenix asserted that the respective move denotes a crucial step to turn FHE into a blockchain-agnostic infrastructure. Along with that, it pays substantial heed to set the standard of data security for the open web’s future. EigenLayer mentioned that the coprocessor in partnership with Fhenix plays the role of a big player entering the ecosystem.
The Project Will Swiftly Detect Executions.
EigenLayer provided some details about the FHE coprocessors. According to it, FHE coprocessors operate as efficiently stateless rollups. In addition to this, they depend on scam proofs, contrary to zero-knowledge proofs for effectiveness. The company claimed that FHE rollups will potentially be able to rapidly identify fraud proofs. In this way, the operators of EigenLayer operators reportedly validate executions.