[GUEST ACCESS MODE: Data is scrambled or limited to provide examples. Make requests using your API key to unlock full data. Check https://lunarcrush.ai/auth for authentication information.]  OLUWATOSIN [@icetosin](/creator/twitter/icetosin) on x 4246 followers Created: 2025-07-15 05:09:49 UTC Zkgm my fellow @union_build Armies, For the past few months, I’ve been breaking down various components that make up the @union_build ecosystem. In the last two days especially, I’ve shed more light on two vital parts that work side by side: The Union Trusted Setup Ceremony and Multi-Party Computation (MPC). If you followed my post yesterday, you’d remember I promised to explain exactly how these two complement each other so here we go! Within Union Labs’ (@union_build) ZKP-powered interoperability layer, the Trusted Setup Ceremony and MPC work hand-in-hand to secure the entire process. The Trusted Setup Ceremony generates the cryptographic parameters needed for Union’s Galois ZK Consensus Proving system. Meanwhile, MPC ensures this process stays decentralized by splitting the complex computations among multiple participants so no single party ever holds the entire secret, removing any single point of failure. MPC essentially powers the Trusted Setup by dividing the “secret” generation, guaranteeing decentralization and trustlessness. Even if some participants were to act maliciously, the system stays secure as long as at least one participant remains honest. This perfectly aligns with Union’s mission to build a robust, trust-minimized cross-chain bridge. In practice, Union’s Testnet X is proof of this approach in action it uses MPC during the Trusted Setup to lock in ZKP parameters that reduce proof times and boost transaction security across Cosmos, EVM, and Move chains. By combining MPC with the ceremony, Union avoids centralization risks and keeps its ZKP system tamper-resistant. In the end, the synergy between MPC and the Trusted Setup Ceremony is what keeps Union’s bridging layer decentralized, secure, and scalable all while minimizing the level of trust required from its community. Summary: The Trusted Setup Ceremony relies on Multi-Party Computation (MPC) to safely produce the cryptographic parameters for Union’s ZKP-based interoperability protocol. MPC ensures the process remains decentralized, trust-minimized, and resilient against malicious actors, delivering secure ZKP parameters that make cross-chain transactions faster and more secure. This crucial synergy demonstrated in Testnet X reinforces Union’s commitment to robust, trustless interoperability.  XXXXX engagements  **Related Topics** [diving](/topic/diving) [Post Link](https://x.com/icetosin/status/1944987744758907013)
[GUEST ACCESS MODE: Data is scrambled or limited to provide examples. Make requests using your API key to unlock full data. Check https://lunarcrush.ai/auth for authentication information.]
OLUWATOSIN @icetosin on x 4246 followers
Created: 2025-07-15 05:09:49 UTC
Zkgm my fellow @union_build Armies,
For the past few months, I’ve been breaking down various components that make up the @union_build ecosystem. In the last two days especially, I’ve shed more light on two vital parts that work side by side: The Union Trusted Setup Ceremony and Multi-Party Computation (MPC). If you followed my post yesterday, you’d remember I promised to explain exactly how these two complement each other so here we go!
Within Union Labs’ (@union_build) ZKP-powered interoperability layer, the Trusted Setup Ceremony and MPC work hand-in-hand to secure the entire process. The Trusted Setup Ceremony generates the cryptographic parameters needed for Union’s Galois ZK Consensus Proving system. Meanwhile, MPC ensures this process stays decentralized by splitting the complex computations among multiple participants so no single party ever holds the entire secret, removing any single point of failure.
MPC essentially powers the Trusted Setup by dividing the “secret” generation, guaranteeing decentralization and trustlessness. Even if some participants were to act maliciously, the system stays secure as long as at least one participant remains honest. This perfectly aligns with Union’s mission to build a robust, trust-minimized cross-chain bridge.
In practice, Union’s Testnet X is proof of this approach in action it uses MPC during the Trusted Setup to lock in ZKP parameters that reduce proof times and boost transaction security across Cosmos, EVM, and Move chains. By combining MPC with the ceremony, Union avoids centralization risks and keeps its ZKP system tamper-resistant.
In the end, the synergy between MPC and the Trusted Setup Ceremony is what keeps Union’s bridging layer decentralized, secure, and scalable all while minimizing the level of trust required from its community.
Summary: The Trusted Setup Ceremony relies on Multi-Party Computation (MPC) to safely produce the cryptographic parameters for Union’s ZKP-based interoperability protocol. MPC ensures the process remains decentralized, trust-minimized, and resilient against malicious actors, delivering secure ZKP parameters that make cross-chain transactions faster and more secure. This crucial synergy demonstrated in Testnet X reinforces Union’s commitment to robust, trustless interoperability.
XXXXX engagements
Related Topics diving