[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.]  DOLAK1NG [@DOLAK1NG](/creator/twitter/DOLAK1NG) on x 15.7K followers Created: 2025-07-18 12:25:14 UTC In crypto, we’ve become good at scaling. Rollups. DA layers. Shared sequencers. But when it comes to interoperability, we’re still stuck in the past. We rely on multisigs, trusted oracles, and insecure bridges to pass messages between chains despite knowing they're the softest attack surface in crypto. @SuccinctLabs is cutting through that mess. Not by building another messaging layer or L2... But by introducing a new primitive: → A universal proving layer that enables any chain to verify computation from any other chain, using ZK. This flips the model entirely. Instead of trusting 3rd parties to attest something happened on another chain... Succinct gives chains the power to prove it for themselves. Here’s how: The Succinct Stack At its core, Succinct is a modular ZK infrastructure stack made of: - SP1 zkVM – A high-performance, open-source zkVM built from scratch. Optimized for real-world, general-purpose proving, especially light clients and cross-chain verification. - Universal Prover Network – SP1 powers a proving layer that can run arbitrary computations off-chain and produce succinct proofs that can be verified anywhere. - Succinct Gateway – A developer-facing API that abstracts all the ZK complexity and lets teams run trustless computation off-chain without modifying their protocol or smart contracts. And this isn’t vaporware. Succinct is already working with: Base, Arbitrum, and Optimism → to run trustless L2 light clients Solana → Ethereum bridges → using zk-proven block headers EigenLayer AVS projects → that require off-chain proving The thesis is simple: Computation should happen off-chain. Verification should be on-chain. Zero knowledge makes that possible and scalable. @SuccinctLabs ct is laying the groundwork for a world where: X. Bridges don’t need oracles X. L2s don’t need centralized sequencer watchers X. Bitcoin can speak to Ethereum via proof, not trust This is the beginning of a new crypto primitive. In the next post, we break down SP1 zkVM and why it’s the most important part of the puzzle. Tagging Gigachads that might be intrested in this 👇 - @SamuelXeus - @TheDeFISaint - @hmalviya9 - @poopmandefi - @ayyeandy - @DigiTektrades - @zerokn0wledge_ - @LadyofCrypto1 - @milesdeutscher - @1CryptoMama - @Deebs_DeFi - @RubiksWeb3hub - @stacy_muur - @TheDeFinvestor - @splinter0n - @izu_crypt - @belizardd - @eli5_defi - @the_smart_ape - @ViktorDefi - @cryppinfluence - @CryptoGirlNova - @Haylesdefi - @DeRonin_ - @0xAndrewMoh - @defiinfant - @DeFiMinty - @Louround_ - @0xSalazar - @crypthoem - @CryptoShiro_  XXXXX engagements  **Related Topics** [nfts](/topic/nfts) [coins oracle](/topic/coins-oracle) [coins interoperability](/topic/coins-interoperability) [Post Link](https://x.com/DOLAK1NG/status/1946184487941046746)
[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.]
DOLAK1NG @DOLAK1NG on x 15.7K followers
Created: 2025-07-18 12:25:14 UTC
In crypto, we’ve become good at scaling.
Rollups. DA layers. Shared sequencers.
But when it comes to interoperability, we’re still stuck in the past.
We rely on multisigs, trusted oracles, and insecure bridges to pass messages between chains despite knowing they're the softest attack surface in crypto.
@SuccinctLabs is cutting through that mess.
Not by building another messaging layer or L2...
But by introducing a new primitive:
→ A universal proving layer that enables any chain to verify computation from any other chain, using ZK.
This flips the model entirely.
Instead of trusting 3rd parties to attest something happened on another chain...
Succinct gives chains the power to prove it for themselves.
Here’s how:
The Succinct Stack At its core, Succinct is a modular ZK infrastructure stack made of:
SP1 zkVM – A high-performance, open-source zkVM built from scratch. Optimized for real-world, general-purpose proving, especially light clients and cross-chain verification.
Universal Prover Network – SP1 powers a proving layer that can run arbitrary computations off-chain and produce succinct proofs that can be verified anywhere.
Succinct Gateway – A developer-facing API that abstracts all the ZK complexity and lets teams run trustless computation off-chain without modifying their protocol or smart contracts.
And this isn’t vaporware.
Succinct is already working with:
Base, Arbitrum, and Optimism → to run trustless L2 light clients
Solana → Ethereum bridges → using zk-proven block headers
EigenLayer AVS projects → that require off-chain proving
The thesis is simple:
Computation should happen off-chain. Verification should be on-chain. Zero knowledge makes that possible and scalable.
@SuccinctLabs ct is laying the groundwork for a world where:
X. Bridges don’t need oracles
X. L2s don’t need centralized sequencer watchers
X. Bitcoin can speak to Ethereum via proof, not trust
This is the beginning of a new crypto primitive.
In the next post, we break down SP1 zkVM and why it’s the most important part of the puzzle.
Tagging Gigachads that might be intrested in this 👇
XXXXX engagements
Related Topics nfts coins oracle coins interoperability
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