Hyra Network FAQs – Everything You Need to Know

Hyra Network will standardize assets under ERC-20/721/1155 and ERC-4626 to optimize DeFi/vault integrations; use AccessControl for RBAC; leverage permit signatures (EIP-2612) for gasless and time-bounded authorizations; apply ERC-2981 royalties for NFTs; and adopt a modular upgradeable architecture via Diamonds (EIP-2535) with timelock + multisig governance.

Need level 4/5. Security is inherited from OP Stack and AnyTrust DAC. As fault-proofs on OP are not yet fully production-ready across the ecosystem, we stage our approach: short term use Security Council multisig + timelock for upgrade risk; mid term track OP’s Cannon/Asterisc roadmap and migrate when proofs are mature; long term add comprehensive monitoring and fallback full DA posting to guarantee data retrievability even if the DAC is unavailable.

With the L3↔L2 (Hyra Network ↔ Base Network) ↔ L1 (Ethereum Network) topology, data silos and state synchronization are critical; we should leverage OP Stack Cross-Domain Messaging for standard messages/bridging, combine with cross-chain standards like CCIP or IBC for integrations beyond the OP ecosystem, and use multi-chain indexers to consolidate data.

Importance: 4/5. Hyra Network benefits from Base’s PoS/rollup model and AnyTrust to reduce DA costs (not always posting full calldata), while running nodes/indexers with concurrent architectures to save resources.

Hyra Network: Programmable Smart Assets for tokenization; Smart Contracts with granular controls; Concurrent Computing for high-TPS DeFi; and AI-Assisted Treasury Management.

Hyra Network designs Smart Assets with a modular Diamonds (EIP-2535) architecture, supporting ERC-20/721/1155 and ERC-4626 for tokenization/DeFi, ERC-2981 for NFT royalties, and deep composability via hooks/extensions. Transfer controls (whitelist/blacklist) are implemented in two layers: on-chain enforcement where the contract checks allow/deny lists before transfers to ensure transparency and non-bypassability, and optional off-chain compliance where KYC/AML providers maintain sanctioned-address lists (e.g., OFAC) that are pushed on-chain through an oracle/attestor to stay trust-minimized. Off-chain integration is enabled only when legally required; by default the system remains permissionless, meeting compliance needs while preserving an open design for the community.

Application-level fast finality near CFT speeds (OP Stack block time ~a few seconds) with on-chain transparency for governance (timelock + voting), relying on OP Stack’s fault-proofs/propose-challenge mechanism; the DA layer uses AnyTrust DACert to ensure timely data retrieval, lowering costs while introducing an additional trust assumption.

No. Hyra Network is EVM-aligned but applies formal methods: property/invariant testing, static analysis and fuzzing, and—when needed—formal verification tools to approach “correct by construction.”

Hyra Network targets 1,000-5,000 TPS at launch through batching and parallel indexing, and as we scale, we aim for >10,000 TPS by evolving the sequencer with Optimistic Concurrency Control (running transactions in parallel and rolling back only on conflicts, similar to Aptos/Sui), which fits an EVM-aligned stack and can be introduced incrementally into the OP Stack sequencer, and in the longer term a DAG-based mempool that schedules independent transactions concurrently to minimize rollbacks. To support this path, we will run multiple sequencer replicas to remove single points of failure, autoscaling indexers and workers to handle bursty load, and MPC/TSS-based key management to keep signing secure at high throughput.

Use cases include AI-driven multi-chain treasury rebalancing by risk/liquidity, address risk scoring to adjust limits in real time, AI-driven assets with parameters updated via oracle/ML, and cross-chain reasoning to detect MEV or bridge anomalies.

Core goals for Hyra Network: BFT-Protected Assets (through controls/processes + OP fault-proofs), Web3-Compliant Governance, and Scalable DeFi Throughput; ICO/Regenerative Token Models will be evaluated subject to the regulatory framework.

Integrate reliable oracles; use KeysetManager/DACert on the parent chain to administer the DAC (add/remove keysets); monitor nodes/bridges (Prometheus/Grafana); standardize events/schemas for the lakehouse; and plan cross-chain expansion via CCIP/IBC when connecting beyond the OP ecosystem.

Thank you for the feedback—we’ve noted it. As next steps, we propose a high-level AnyTrust DAC review + BFT/OP security check, along with a mini Smart Asset workshop to align ERC standards and upgrade processes. An ICO strategy demo can be considered after a compliance review.

We agree in principle and commit to the privacy policy: data is used only for project purposes, no private keys are stored, wallet/telemetry data is anonymized, retention is limited, and applicable regulations are followed.

At Hyra Network, we see every connected device—from the smartphone in your pocket to the car on the road—as part of a sovereign digital infrastructure. Through our Train-AI-to-Earn model, we transform the idle power of these devices into valuable AI training and inference resources. Users are not just consumers of AI, but co-owners and co-creators of value. Every contribution is recorded, and every individual earns fairly. This is how we build an AI network by the community & for the community, free from dependence on centralized data giants.

When Hyra Network is rapidly adopted, the AI economy becomes accessible to everyone—regardless of wealth, geography, or background. In emerging markets, people may only have a smartphone, but that device itself becomes a “ticket to the global AI economy.” This means new income for families, new opportunities for young developers, and new momentum for nations to step into the digital age. The impact is not just technological—it is empowerment, enabling underserved communities to become rightful stakeholders in the future of AI.

This award is not only for Hyra Network—it belongs to the entire community helping us build sovereign digital infrastructure. It affirms that Vietnam can join the top of world-leading technology countries, and that communities can co-create a decentralized AI system that is transparent and fair. We will leverage this recognition to expand international partnerships, engaging governments, enterprises, and digital citizens to scale the network from millions to hundreds of millions of devices. For Hyra, every award is not just an honor—it is a commitment to go further in building AI infrastructure for the collective good of humanity.

Hyra Network operates on the Ethereum ecosystem with a Layer 3 <-> Layer 2 <-> Layer 1 architecture. Blockchain: Hyra Network (L3) is built on the OP Stack, leveraging Base (L2) for scalability and Ethereum Mainnet (L1) for long-term security and finality. Wallets: Fully EVM-compatible, supporting MetaMask, Safe multisig, and mobile wallets; gasless approvals via EIP-2612 permits improve usability. Exchanges: Assets are designed under standard ERC protocols for seamless integration with both CEX and DEX ecosystems. Security Protocols: Governance by multisig + timelock, AccessControl RBAC for roles, on-chain whitelist/blacklist enforcement, MPC/TSS key management, and OP fault-proof roadmap (Cannon/Asterisc). Monitoring is done via Prometheus/Grafana with fallback DA posting for reliability.

Hyra Network standardizes digital assets under ERC-20, ERC-721, ERC-1155, and ERC-4626: • Utility Tokens: for payments, governance, and DeFi use cases. • NFTs: ERC-721/1155 with ERC-2981 royalties and programmable extensions. • Vault Tokens: ERC-4626 to support yield/vault strategies. • Real World Assets (RWA): tokenized real estate, commodities, invoices, and securities for fractional ownership, liquidity, and global access. This multi-asset portfolio is designed for both community-driven innovation and enterprise adoption, enabling scalable tokenization across verticals.

Hyra Network’s tokenization framework is decentralized by default, using smart contracts for full transparency and trust minimization. Control Layer: All transfer rules (whitelist/blacklist) are enforced directly on-chain to prevent bypassing. Governance & Security: Upgrades are managed via timelock + multisig, while roles are enforced by AccessControl RBAC. Compliance Integration: Optional KYC/AML oracles push sanctioned-address lists on-chain when legally required, enabling hybrid compliance without compromising decentralization. Architecture: Built on Diamonds (EIP-2535) modular contracts, allowing non-disruptive upgrades and long-term sustainability.

Layer-3 blockchain + edge computing architecture The system is built on the 3rd layer blockchain combined with edge computing, allowing connecting and distributing tasks on billions of idle IoT devices (smartphones, PCs, IoT devices, edge servers). This architecture eliminates dependence on a centralized data center, making the infrastructure almost infinitely scalable. Geospatial indexing + multi-criteria allocation algorithm The task coordinator uses geospatial indexing combined with criteria such as location, hardware performance, reliability, and historical latency to choose optimal nodes—targeting <50ms task allocation at global scale. Multi-layered and reliable security • ZK-STARK proofs for verifiable computation • End-to-end encryption & digital signatures • Staking + Reputation to incentivize honest, reliable nodes On-device processing Sensitive data is processed on-device to preserve privacy, reduce network load, and comply with jurisdictional data regulations.

AI at the edge (inference + training on devices) to minimize response delay. Federated Learning to transmit model weights/gradients instead of raw data—saving bandwidth and protecting privacy. Cloudflare CDN to distribute models/datasets near nodes, reducing initialization delay. State channels + geographic routing to batch small transactions off-chain and route data via shortest regional paths for near-real-time response.

N+k redundancy to reach 99.99%+ reliability—each task has primaries and backups. Real-time monitoring & re-allocation—slow/offline nodes trigger immediate reassignment. Staking & Reputation—good nodes earn priority and rewards; unstable/fraudulent nodes are penalized, aligning incentives for long-term reliability.

Real-time WebSocket connections—active nodes and task completions are recorded on-chain for public verification. Declared & measured hardware—nodes report CPU/GPU/RAM; theoretical TFLOPS are adjusted by uptime for realistic capacity estimates. On-chain transparency & community verification—data about tasks, nodes, and performance is on-chain, enabling independent benchmarking and checks.

Yes, users are primarily active for rewards, and when Hyra Network is rapidly adopted, the AI economy becomes accessible to everyone—regardless of wealth, geography, or background. In emerging markets, a smartphone becomes a “ticket to the global AI economy,” creating new income, opportunities for developers, and national momentum. The impact is empowerment: underserved communities become rightful stakeholders in the future of AI.

We are focused on edge computing to utilize idle CPU and GPU resources, co-creating a decentralized AI system that is transparent and fair. We will expand international partnerships across governments, enterprises, and digital citizens to scale from millions to hundreds of millions of devices—treating recognition and awards as commitments to push further on community-owned AI infrastructure.

Focus areas: • Blockchain full stack (Layer 0–3), DApps, DEO Bank • AI full stack: GPU rental, model training, data labeling, inference • Compliance framework aligned with global standards for governments, partners, and clients worldwide