{"slug":"risc-zero","name":"RISC Zero","domain":null,"best_rank":2,"categories":1,"brief":{"category":"best-zkvm-for-verifiable-offchain-compute","title":"Best zkVM for verifiable offchain compute","rank":2,"of":6,"top":"SP1","day":"2026-07-18","why":[{"t":"most battle-tested general-purpose choice","m":["ChatGPT","Claude","Gemini"],"q":"The most battle-tested general-purpose choice"},{"t":"mature Rust workflow","m":["ChatGPT","Claude","Gemini"],"q":"a mature Rust workflow"},{"t":"independent audits","m":["ChatGPT","Claude"],"q":"independent audits"},{"t":"Boundless decentralized prover market","m":["Claude","Gemini"],"q":"the Boundless decentralized prover market to easily scale variable proving workloads"}],"gap":[{"t":"fast CPU/GPU proving","m":["ChatGPT","Claude","Gemini"],"q":"fast CPU/GPU proving"},{"t":"built-in precompiles","m":["ChatGPT","Claude","Gemini"],"q":"built-in precompiles for common cryptographic operations"},{"t":"near-real-time Ethereum block proving","m":["Claude"],"q":"near-real-time Ethereum block proving"}],"fix":[{"t":"slower or more resource-intensive","m":["ChatGPT","Claude","Gemini"],"q":"Proving is commonly slower or more resource-intensive than SP1 and newer performance-focused systems."},{"t":"costlier per cycle","m":["Claude","Gemini"],"q":"Generally slower and costlier per cycle than SP1 on compute-heavy workloads"},{"t":"unsuitable for latency-sensitive applications","m":["Gemini"],"q":"making it unsuitable for latency-sensitive applications"}]},"entries":[{"slug":"best-zkvm-for-verifiable-offchain-compute","title":"Best zkVM for verifiable offchain compute","rank":2,"of":6,"score":12,"appearances":3,"modelRanks":{"ChatGPT":2,"Claude":2,"Gemini":2},"reason":"The most battle-tested general-purpose choice, with a mature Rust workflow, strong documentation, explicit privacy semantics, recursive receipts, transparent STARK foundations, independent audits, Bonsai proving, and substantial real-world integration evidence.","reasons":[{"model":"ChatGPT","reason":"The most battle-tested general-purpose choice, with a mature Rust workflow, strong documentation, explicit privacy semantics, recursive receipts, transparent STARK foundations, independent audits, Bonsai proving, and substantial real-world integration evidence."},{"model":"Claude","reason":"The most battle-tested zkVM — longest production history, multiple third-party audits, a formally specified RISC-V circuit, mature dev tooling (Bonsai, Steel for EVM state proofs), and the Boundless proving marketplace for offchain capacity; R0VM 2.0 closed much of the raw speed gap. Best pick when correctness assurance and ecosystem maturity outweigh peak benchmark numbers; near-tie with SP1, ranked second mainly on raw prover throughput."},{"model":"Gemini","reason":"Offers the most mature, battle-tested codebase, stable RISC-V implementation, and comprehensive SDK, backed by the Boundless decentralized prover market to easily scale variable proving workloads."}],"fixes":[{"model":"ChatGPT","fix":"Proving is commonly slower or more resource-intensive than SP1 and newer performance-focused systems."},{"model":"Claude","fix":"Generally slower and costlier per cycle than SP1 on compute-heavy workloads, so at large scale the proving bill is the trade-off for its conservatism."},{"model":"Gemini","fix":"Higher base proving overhead and slower local CPU proving times than SP1, making it unsuitable for latency-sensitive applications unless developers strictly optimize trace-level code or pay market premiums for outsourced proving."}],"updated":"2026-07-18","api":"https://modelsagree.com/api/v1/best/best-zkvm-for-verifiable-offchain-compute.json"}],"page":"https://modelsagree.com/product/risc-zero","check":"https://modelsagree.com/check?q=RISC%20Zero","updated":"2026-07-18T15:34:13.852Z","attribution":"modelsagree.com, CC BY 4.0"}