Introduction to Verifiable Computing Digital trust has become a critical issue as more systems rely on computational verification. The Nexus Project addresses this challenge by building what researchers call a "Verifiable Internet" — a system where every computation can be cryptographically proven correct. Nexus Labs developed this technology to create a planetary-scale supercomputer powered by the Nexus Layer 1 blockchain and zero-knowledge virtual machine (zkVM). The project aims to verify everything from artificial intelligence computations to digital identities using open-source technology and zero-knowledge cryptography. Currently in testnet phase with mainnet launch scheduled for Q3 2025, the system represents a significant advancement in distributed computing, where computational integrity becomes mathematically verifiable rather than trust-based. What is the Nexus Project The Nexus Project focuses on verifiable computation — a computing paradigm where every calculation can be cryptographically proven accurate. This scientific and engineering effort builds on nearly 100 years of computer science developments, from Alan Turing's Universal Turing Machine to modern zero-knowledge cryptography. The project's ultimate technical goal is the "Proof Singularity," where all verifiable computations compress into a single proof. This advancement would enable seamless integration of millions of blockchain networks and applications. Core Components Nexus operates through two primary technical components: Nexus Layer 1 Blockchain is a planetary-scale supercomputer designed to host global commerce and facilitate verifiable computations. The system maintains full compatibility with the Ethereum Virtual Machine (EVM), allowing developers to use existing Ethereum tools and code when building on Nexus. Nexus zkVM is a modular, extensible, open-source, and highly parallelized zero-knowledge virtual machine written in Rust. The Rust-based architecture enables efficient parallel proof generation across multiple processor cores, significantly improving computational throughput compared to single-threaded proof systems. The zkVM enables cryptographic verification of computations, ensuring both integrity and privacy at scale through STARK-based zero-knowledge proofs that compress large computational proofs into small, verifiable certificates. These components form the Nexus Network's backbone — a distributed proving infrastructure that scales computing power with every node contributed by users worldwide. The Verifiable Internet Vision Nexus Labs envisions an internet that functions not only as a data exchange platform but as a verifiable ecosystem where computations are provably correct. This includes AI model calculations, financial transactions, and identity verification systems. The vision, detailed in the Nexus zkVM 1.0 whitepaper published in January 2024, addresses growing demands for trust in digital systems. The whitepaper, available at whitepaper.nexus.xyz, outlines technical specifications for achieving computational verification at internet scale. By combining zero-knowledge proofs with scalable blockchain infrastructure, Nexus makes verifiable computation practical and accessible. The system draws technical parallels to transformative computing developments, including artificial intelligence, cloud computing, and the creation of the Internet. The project unifies advancements in zero-knowledge cryptography, high-performance computing, and distributed systems to create a new computational form benefiting individuals, developers, and organizations. How the Nexus Network Operates The Nexus Network functions as a distributed proving infrastructure where devices connected through the Nexus App or Nexus Command Line Interface (CLI) become computational nodes. These nodes run the Nexus zkVM to process workloads — programs and inputs assigned by Nexus servers — and generate zero-knowledge proofs for computation verification. Network Architecture The network's parallel computing capabilities ensure performance scales with each additional node, creating a true global supercomputer. Users can contribute computational power from desktops, laptops, mobile phones, or servers, with the ability to manage multiple devices from a single Nexus account. Scalability Features: Network power increases with each connected device Multi-device management from a single account Automatic load distribution across nodes Parallel proof generation capabilities User Interface: The Nexus App (app.nexus.xyz) provides a browser-based interface for contributing computing power, requiring no software downloads or complex setup procedures. The system creates wallets automatically without requiring external wallet connections like MetaMask or hardware wallets. Users can begin contributing computational resources immediately after accessing the web application. The interface displays real-time statistics on computational contributions, NEX Points earned, and network participation metrics. Users earn NEX Points for their computational contributions and can track progress on network leaderboards that rank contributors by total points accumulated. Testing Infrastructure The Nexus Network includes a public Testnet for tracking user activity and a Devnet for testing new features. A new Testnet launched on December 9, 2024, advancing the Verifiable Internet development goals. The Testnet will further refine network capabilities before mainnet deployment. Developer Tools and Ecosystem Nexus maintains developer compatibility, particularly for those familiar with Ethereum development. The Nexus Layer 1's EVM compatibility means developers can deploy applications using existing Ethereum tools and codebases without modification. Software Development Kit The Nexus Software Development Kit (SDK) provides a simple, misuse-resistant interface for application development. Developers install the Nexus CLI using Rust and create projects with two program types: Host programs that run the zkVM Guest programs that execute on the zkVM This structure supports rapid development and deployment on the Nexus Layer 1 blockchain. Open Source Resources Nexus maintains 14 GitHub repositories hosting open-source tools, including the Nexus CLI, network API, and zkVM codebase. These resources enable developers to contribute to and build applications within the Nexus ecosystem. The repositories provide documentation, code examples, and integration guides for developers working with zero-knowledge proof systems and blockchain applications. Strategic Partnerships and Network Growth Nexus Labs has established partnerships to enhance network capabilities and expand computational resources. Key Collaborations In December 2024, Nexus announced a collaboration with BCW, LLC to bring additional compute power to the Nexus Network. This partnership represents a significant milestone in scaling the Verifiable Internet infrastructure. On May 22, 2025, Nexus partnered with StarkWare Ltd., pioneers in STARK-based zero-knowledge proofs. This collaboration enhances the Nexus zkVM's proof generation capabilities by integrating STARK technology, which provides succinct proofs that can verify large computations quickly. STARK proofs offer post-quantum security guarantees and eliminate the need for trusted setup procedures required by other zero-knowledge systems. This partnership aims to improve performance, privacy, and scalability of verified computations across the Nexus ecosystem. These partnerships demonstrate Nexus's commitment to building a robust collaborative ecosystem rather than operating as an isolated platform. Community Engagement and Incentive Systems Nexus engages its community through NEX Points, which users earn by contributing computational power to the network. These points incentivize participation and can be tracked through the Nexus App's leaderboard system. Participation Mechanisms The project's open-source approach and accessible tools reduce barriers to entry for contributors and developers. Users can access the Nexus App directly through their web browser at app.nexus.xyz without downloading software or configuring external wallets. The browser-based interface automatically handles wallet creation and device registration, allowing users to begin earning NEX Points within minutes of first access. For advanced users, the Nexus CLI provides command-line access for managing multiple devices, monitoring computational contributions, and integrating with development workflows. The CLI installation requires Rust but offers greater control over node configuration and performance optimization. The system emphasizes open science principles, making software and technical documentation publicly available through the whitepaper at whitepaper.nexus.xyz to foster collaboration and innovation. Community members can contribute through: Running computational nodes Developing applications using the SDK Contributing to open-source repositories Participating in testing networks Development Roadmap and Timeline Nexus Labs has outlined specific development milestones with measurable targets for network deployment. Funding and Resources The project raised $27.2 million in funding from investors including Pantera Capital, Lightspeed, Dragonfly, and Faction VC. This funding provides resources to scale infrastructure and achieve the technical vision outlined in project documentation. Launch Schedule Testnet Phase: Launched in December 2024 with ongoing development Ongoing Testing: Continued testnet phases throughout 2025 for feature refinement Mainnet Launch: Scheduled for Q3 2025 The Testnet phases allow for network stress testing, feature validation, and community feedback integration before mainnet deployment. Technical Capabilities and Performance The Nexus system delivers specific technical capabilities that address current limitations in distributed computing and blockchain verification. The zero-knowledge virtual machine processes computations while generating cryptographic proofs of correctness. This eliminates the need for trust-based verification systems common in traditional distributed computing. Network performance scales linearly with node additions, unlike traditional blockchain networks that face throughput limitations. The parallel proof generation system distributes computational workloads across available nodes while maintaining verification integrity. EVM compatibility ensures existing Ethereum applications can deploy on Nexus without code modifications, providing immediate utility for developers and reducing migration costs. Conclusion The Nexus Project creates a global supercomputer that combines blockchain technology with zero-knowledge cryptography to enable verifiable computation at internet scale. The system's Layer 1 blockchain and zkVM provide the technical foundation for a Verifiable Internet where computational integrity becomes mathematically provable. Through strategic partnerships, developer-friendly tools, and community incentive systems, Nexus has established the infrastructure necessary for widespread adoption. The project's open-source approach and EVM compatibility reduce technical barriers while maintaining high security standards. With $27.2 million in funding and a clear development roadmap leading to Q3 2025 mainnet launch, Nexus is positioned to deploy its verifiable computing infrastructure. The system's ability to scale computational power with network growth addresses fundamental limitations in current distributed computing systems. Users can begin participating in the Nexus Network by visiting app.nexus.xyz to contribute computational power and earn NEX Points. Developers interested in building verifiable applications can access the SDK and documentation through the project's GitHub repositories. For the latest updates and technical developments, follow Nexus on X @NexusLabs or visit nexus.xyz for comprehensive project information.