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add README.md (#39) * Initialize the README.md with a sketch of the structure * add warning and draft diagram * add authors & years to schemes, add a pre-sketch of the 'development' section * Readme: add link to Carlos talk on folding schemes * readme: sketch sections: offchain & onchain decider, add todo for references * readme: add example of FCircuit & folding * Readme: add lib pipeline diagram, add decider code example * add cyclefold-nova-diagram.png, decider-onchain-flow-diagram.png * polish cli descriptions * small update in the Warning box * add sonobe naming * add folding-main-idea-diagram.png * missing sonobe renaming * migrate part of the README.md to sonobe-docs * rm imgs/, load them from sonobe-docs * tiny update * chore: start update README * add acknolwedgments links and text, small polishing of the overall text * extend folding introduction & sonobe overview * img text alignment * chore: update readme * chore: typos, bits of reformulation, centering images * chore: remove btc example since can not be used as is * rm .vscode dir * readme: merge the duplicated sections into a single one adapting the texts * add Docs badge with link, update acknowledgments * add ci & license badges * fix cli link, add solc mention in solidity-verifiers/readme * small polishing * fix img alignment * rm badges, the reasoning is: - The License badge is not needed since there are already many links to the license both in the readme and in the GitHub UI - The CI checks badge, already appears in the GitHub UI in the last commit preview at the main repo page. Furthermore, after some months of inactivity, the badge would be 'gray' as 'inactive'. - The only badge that I was trying to get there is the 'docs' badge, to make it very clear that the docs page exists, but it was a bit to hard visually to have a single badge there, and furthermore the docs link already appears in the readme twice, and also in the GitHub UI right-panel. --------- Co-authored-by: dmpierre <pdaixmoreux@gmail.com>
7 months ago
  1. # sonobe
  2. Experimental folding schemes library implemented jointly by [0xPARC](https://0xparc.org/) and [PSE](https://pse.dev).
  3. <img align="right" style="width:30%;min-width:250px;margin-bottom:20px;" src="https://privacy-scaling-explorations.github.io/sonobe-docs/imgs/sonobe.png">
  4. <b>Sonobe</b> is a modular library to fold arithmetic circuit instances in an Incremental Verifiable computation (IVC) style. It features multiple folding schemes and decider setups, allowing users to pick the scheme which best fit their needs.
  5. <br><br>
  6. Sonobe is conceived as an exploratory effort with the aim to push forward the practical side of folding schemes and advancing towards onchain (EVM) verification.
  7. <br><br>
  8. <i>"The <a href="https://en.wikipedia.org/wiki/Sonobe">Sonobe module</a> is one of the many units used to build modular origami. The popularity of Sonobe modular origami models derives from the simplicity of folding the modules, the sturdy and easy assembly, and the flexibility of the system."</i>
  9. <br>
  10. > **Warning**: experimental code, do not use in production.<br>
  11. > The code has not been audited. Several optimizations are also pending. Our focus so far has been on implementing the Nova and CycleFold schemes and achieving onchain (EVM) verification.
  12. ## Schemes implemented
  13. Folding schemes implemented:
  14. - [Nova: Recursive Zero-Knowledge Arguments from Folding Schemes](https://eprint.iacr.org/2021/370.pdf), Abhiram Kothapalli, Srinath Setty, Ioanna Tzialla. 2021
  15. - [CycleFold: Folding-scheme-based recursive arguments over a cycle of elliptic curves](https://eprint.iacr.org/2023/1192.pdf), Abhiram Kothapalli, Srinath Setty. 2023
  16. Work in progress:
  17. - [HyperNova: Recursive arguments for customizable constraint systems](https://eprint.iacr.org/2023/573.pdf), Abhiram Kothapalli, Srinath Setty. 2023
  18. - [ProtoGalaxy: Efficient ProtoStar-style folding of multiple instances](https://eprint.iacr.org/2023/1106.pdf), Liam Eagen, Ariel Gabizon. 2023
  19. ## Available frontends
  20. Available frontends to define the folded circuit:
  21. - [arkworks](https://github.com/arkworks-rs), arkworks contributors
  22. - [Circom](https://github.com/iden3/circom), iden3, 0Kims Association
  23. ## Usage
  24. ### Docs
  25. Detailed usage and design documentation can be found at [Sonobe docs](https://privacy-scaling-explorations.github.io/sonobe-docs/).
  26. ### Folding Schemes introduction
  27. Folding schemes efficitently achieve incrementally verifiable computation (IVC), where the prover recursively proves the correct execution of the incremental computations.
  28. Once the IVC iterations are completed, the IVC proof is compressed into the Decider proof, a zkSNARK proof which proves that applying $n$ times the $F$ function (the circuit being folded) to the initial state ($z_0$) results in the final state ($z_n$).
  29. <p align="center">
  30. <img src="https://privacy-scaling-explorations.github.io/sonobe-docs/imgs/folding-main-idea-diagram.png" style="width:70%;" />
  31. </p>
  32. Where $w_i$ are the external witnesses used at each iterative step.
  33. In other words, it allows to prove efficiently that $z_n = F(...~F(F(F(F(z_0, w_0), w_1), w_2), ...), w_{n-1})$.
  34. ### Overview of sonobe
  35. Sonobe is a folding schemes modular library to fold arithmetic circuit instances in an incremental verifiable computation (IVC) style. It also provides the tools required to generate a zkSNARK proof out of an IVC proof and to verify it on Ethereum's EVM.
  36. The development flow using Sonobe looks like:
  37. 1. Define a circuit to be folded
  38. 2. Set which folding scheme to be used (eg. Nova with CycleFold)
  39. 3. Set a final decider to generate the final proof (eg. Spartan over Pasta curves)
  40. 4. Generate the the decider verifier
  41. <p align="center">
  42. <img src="https://privacy-scaling-explorations.github.io/sonobe-docs/imgs/sonobe-lib-pipeline.png"/>
  43. </p>
  44. The folding scheme and decider used can be swapped with a few lines of code (eg. switching from a Decider that uses two Spartan proofs over a cycle of curves, to a Decider that uses a single Groth16 proof over the BN254 to be verified in an Ethereum smart contract).
  45. The [Sonobe docs](https://privacy-scaling-explorations.github.io/sonobe-docs/) contain more details about the usage and design of the library.
  46. Complete examples can be found at [folding-schemes/examples](https://github.com/privacy-scaling-explorations/sonobe/tree/main/folding-schemes/examples)
  47. ## License
  48. Sonobe is [MIT Licensed](https://github.com/privacy-scaling-explorations/sonobe/blob/main/LICENSE).
  49. ## Acknowledgments
  50. This project builds on top of multiple [arkworks](https://github.com/arkworks-rs) libraries. It uses Espresso system's [virtual polynomial](https://github.com/EspressoSystems/hyperplonk/blob/main/arithmetic/src/virtual_polynomial.rs) abstraction and its [SumCheck](https://github.com/EspressoSystems/hyperplonk/tree/main/subroutines/src/poly_iop/sum_check) implementation.
  51. The Solidity templates used in `nova_cyclefold_verifier.sol`, use [iden3](https://github.com/iden3/snarkjs/blob/master/templates/verifier_groth16.sol.ejs)'s Groth16 implementation and a KZG10 Solidity template adapted from [weijiekoh/libkzg](https://github.com/weijiekoh/libkzg).
  52. In addition to the direct code contributors who make this repository possible, this project has been made possible by many conversations with [Srinath Setty](https://github.com/srinathsetty), [Lev Soukhanov](https://github.com/levs57), [Matej Penciak](https://github.com/mpenciak), [Adrian Hamelink](https://github.com/adr1anh), [François Garillot](https://github.com/huitseeker), [Daniel Marin](https://github.com/danielmarinq), [Han Jian](https://github.com/han0110), [Wyatt Benno](https://github.com/wyattbenno777), [Nikkolas Gailly](https://github.com/nikkolasg) and [Nalin Bhardwaj](https://github.com/nalinbhardwaj), to whom we are grateful.