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🔗 6 parts

Complex Arbitrage in Rust

A six-part build-up of multi-leg crypto arbitrage — from negative-cycle detection to the linear algebra, copulas, and machine learning behind it, ending in low-latency Rust execution.

  1. 01
    Graph Algorithms for Arbitrage Detection: From Bellman-Ford to RICH
    Feb 23, 2026 #arbitrage

    Graph Algorithms for Arbitrage Detection: From Bellman-Ford to RICH

    How negative cycles, multi-asset graphs, and the RICH algorithm identify arbitrage opportunities in the deep cryptocurrency market with sub-millisecond precision.

  2. 02
    Futures-Spot Arbitrage: From Cash-and-Carry to DeFi-CeFi
    Feb 24, 2026 #arbitrage

    Futures-Spot Arbitrage: From Cash-and-Carry to DeFi-CeFi

    How funding rates, basis, and the convergence of decentralized and centralized markets create risk-free opportunities for capital in the crypto market.

  3. 03
    Matrices, Tensors, and Tropical Algebra: Linear Algebra for Arbitrage Detection
    Feb 26, 2026 #arbitrage

    Matrices, Tensors, and Tropical Algebra: Linear Algebra for Arbitrage Detection

    How the matrix of exchange rates, eigenvalues, tropical algebra, and tensor decompositions turn cryptocurrency market chaos into clear arbitrage signals.

  4. 04
    Vine Copulas for Arbitrage: Modeling High-Dimensional Dependencies
    Feb 25, 2026 #arbitrage

    Vine Copulas for Arbitrage: Modeling High-Dimensional Dependencies

    How to use Vine Copulas to identify hidden dependencies between dozens of crypto assets and build robust, high-dimensional statistical arbitrage strategies.

  5. 05
    GNN, Transformers, and RL for Arbitrage: When Neural Networks Learn to Trade
    Feb 27, 2026 #arbitrage

    GNN, Transformers, and RL for Arbitrage: When Neural Networks Learn to Trade

    How graph neural networks find arbitrage chains in 78 ms, why RL agents show 142% annual returns against 12% for rule-based bots, and how to build an integrated system in Rust.

  6. 06
    Complex Arbitrage Execution in Rust: From Nanoseconds to Atomic Multi-Legs
    Feb 28, 2026 #Rust

    Complex Arbitrage Execution in Rust: From Nanoseconds to Atomic Multi-Legs

    How to squeeze maximum performance out of Rust for multi-leg arbitrage execution: io_uring, lock-free order books, LMAX Disruptor, SIMD, type-state machines, and arena allocators.