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Solidity Matrix Environment (SolMATe) - Core math + linear algebra libraries for Ethereum smart contracts. Enables machine learning directly on the blockchain.

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SolMATe - The Solidity Matrix Environment

SolMATe is the fundamental package for floating-point math, array manipulation, and linear algebra in Ethereum smart contracts. With SolMATe you get:

  • Gas-efficient operations with signed 59.18-decimal fixed-point numbers
  • Functions for manipulating vectors and matrices
  • Linear algebra routines enabling the implementation of machine learning algorithms, such as multivariate linear regression and deep neural networks

SolMATe is the first-ever package making it possible to engage in all aspects of a machine learning pipeline directly on the blockchain - from data collection to model training and evaluation - without having to involve an off-chain oracle. See below for an example of a key ML algorithm (multiple linear regression) implemented as a smart contract.

Usage

The following smart contract performs multiple linear regression solving the equation Ax=b, where A is a matrix of coefficients, b is a vector of outputs, and x is the solution vector. It uses approximately 8e7 gas - making it impractical for Layer 1 applications but practical for Layer 2 as of 2022.

// SPDX-License-Identifier: BSD-4-Clause
pragma solidity >=0.8.4;
import "prb-math/contracts/PRBMathSD59x18.sol";
import "./VectorUtils.sol";
import "./MatrixUtils.sol";

contract SolMATe_demo {
    using PRBMathSD59x18 for int256;
    using VectorUtils for int256[];
    using MatrixUtils for int256[][];

    function multipleLinearRegression(int256[][] memory a, int256[] memory b) public pure returns (int256[][] memory) {
        int256[][] memory q;
        int256[][] memory r;
        int256[][] memory b_mat = b.convertTo59x18().toMatrix();
        (q,r) = a.convertTo59x18().QRDecomposition();
        return r.backSubstitute(q.T().dot(b_mat));
    }
}

We can then run the contract using the following Hardhat script:

// We require the Hardhat Runtime Environment explicitly here. This is optional
// but useful for running the script in a standalone fashion through `node <script>`.
//
// When running the script with `npx hardhat run <script>` you'll find the Hardhat
// Runtime Environment's members available in the global scope.
const hre = require("hardhat");

async function main() {
  // Hardhat always runs the compile task when running scripts with its command
  // line interface.
  //
  // If this script is run directly using `node` you may want to call compile
  // manually to make sure everything is compiled
  // await hre.run('compile');

  const SolMATe_demo = await hre.ethers.getContractFactory("SolMATe_demo");
  const solmate_demo = await SolMATe_demo.deploy();

  await solmate_demo.deployed();
  const inputMat = [[43,1],[21,1],[25,1],[42,1],[57,1],[59,1]]
  const b = [99,65,79,75,87,81]
  const result = await solmate_demo.multipleLinearRegression(inputMat, b);
  console.log(result);
}

// We recommend this pattern to be able to use async/await everywhere
// and properly handle errors.
main()
  .then(() => process.exit(0))
  .catch((error) => {
    console.error(error);
    process.exit(1);
  });

In SolMATe, all fixed point numbers are scaled by 1e18 and stored as int256 data. Importing the PRBMathSD59x18 package allows one to perform math operations on these numbers.

using PRBMathSD59x18 for int256;
int256 a = 1.5e18; // represents a = 1.5
int256 b = 2e18; // represents b = 2
a.mul(b);  // returns 3e18, or 3000000000000000000, which represents 3

Contributing

SolMATe uses Hardhat for scripts and unit testing. Pull requests are welcome - especially those pertaining to documentation, optimizing algorithms, and developing test cases.

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Solidity Matrix Environment (SolMATe) - Core math + linear algebra libraries for Ethereum smart contracts. Enables machine learning directly on the blockchain.

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