Norbert Vadas

Cross-chain infrastructure has a vocabulary problem. The word "Atomic" appears in bridge protocols, HTLC swaps and interoperability solutions of every kind. It's being used to describe mechanisms that deliver fundamentally different guarantees, and the industry isn't being precise enough about the difference. > Economic atomicity is what most bridges and cross-chain swaps deliver. The smart contract guarantees an all-or-nothing outcome at the application layer, but both legs still settle on separate chains through separate consensus mechanisms. The guarantee depends on both parties behaving rationally within timelock windows that are measured in hours. When a validator gets compromised, a chain reorgs, an attacker locks counterparty capital and simply waits, the smart contract can't protect against any of it. The window of exposure between two separate settlement events is where the damage happens. > Consensus-level atomicity is what Zenith delivers. Both legs of a transaction are processed within the same single consensus mechanism as one indivisible operation. There is no window and no timelock. The protocol itself guarantees that both legs commit together or neither does, regardless of what either party does or what the infrastructure beneath them does. For consumer applications that distinction is manageable, but for institutional finance moving real capital across chain boundaries, it's the difference between infrastructure you can depend on and infrastructure that works until something goes wrong. The EVM execution adds a few hundred milliseconds to Canton's native finality time, that's the entire overhead. Compared to timelock windows measured in hours, the latency difference alone changes what's possible to build. We wrote the full breakdown about two flavours of atomic that are worth understanding clearly before you build on either: https://t.co/ZJGhRXsPfi Zth.

You are raising an important point. Actually all Zenith Stack chains, including Zenith EVM, the reference instance operated by Zenith, are designed to be cross-composable and can settle atomically to Canton. This is possible because all Zenith Stack chains have their Daml contract on Canton, which registers incoming txs triggering an EVM event on the specific instance, calls out to the Solidity contracts deterministically using the external_call() primitive we built in Daml, triggers native EVM execution, receives results, and settles the new state root. Since all EVM events for all instances are routed through Canton, when you have a tx between two Zenith instances, Canton will also act as the coordinator. The Canton validators hosting instance A's Daml contract and instance B's Daml contract will all be involved as parties in the tx. The native Canton tx including the EVM payloads can have multiple external calls in its operation tree, and therefore the two legs on the two EVM instances will be executed and settled atomically within the same single Canton tx. This way you can actually have composability and atomic settlement on Canton across Zenith instances as well.

We are hiring a Head of Security and a BizDev Associate. We’re a small team who need to punch way above our weight. Every single person owns their section of the business and has full authority to figure out how we can reach our goals. If that sounds like you go ahead and apply.