We architect and deploy custom smart contracts that power your core business logic. Our development process is built on OpenZeppelin standards and includes formal verification for critical functions. Deliverables include comprehensive audit reports and deployment scripts for mainnet launch.
LABS
Services
Legacy AI to Blockchain Migration
We architect and execute the migration of your centralized AI training pipelines and models to a decentralized, blockchain-anchored infrastructure. Achieve verifiable computation, enhanced data privacy, and new monetization models.
Chainscore © 2026
overview
SECURE & AUDITED
Smart Contract Development
Production-ready smart contracts built with enterprise-grade security and gas optimization.
From tokenomics to complex DeFi logic, we ensure your contracts are secure, efficient, and maintainable.
- Security-First Development: Full suite of static analysis, unit testing, and fuzzing with tools like Slither and Foundry.
- Gas Optimization: Every contract is profiled and optimized for minimum transaction costs and maximum throughput.
- Protocol Integration: Seamless integration with
ERC-20,ERC-721,ERC-1155, and major DeFi primitives like Uniswap V3 and Aave. - Post-Deployment Support: We provide monitoring dashboards and incident response plans for 99.9% uptime SLA.
key-features-cards
PROVEN METHODOLOGY
Our Migration Framework
A structured, four-phase approach to de-risk your transition from legacy AI systems to on-chain intelligence. We deliver production-ready, secure, and scalable solutions.
01
Phase 1: Discovery & Architecture
We conduct a comprehensive audit of your existing AI models, data pipelines, and business logic to design a modular, gas-efficient blockchain architecture. This phase defines the smart contract interfaces and data oracles required for on-chain execution.
2-3 weeks
Average Duration
100%
Architecture Review
02
Phase 2: Smart Contract Development
Our engineers build and test the core smart contracts that encapsulate your AI logic. We implement using Solidity 0.8+ with OpenZeppelin standards, focusing on security, upgradability, and gas optimization for predictable operational costs.
4-6 weeks
Development Cycle
OpenZeppelin
Security Standard
03
Phase 3: Oracle Integration & Bridging
We implement secure, decentralized oracles (Chainlink, Pyth) to feed off-chain AI inferences and data on-chain. For hybrid models, we build custom bridges to maintain sync between your legacy backend and the new blockchain layer.
Sub-Second
Data Latency
99.5%
Oracle Uptime SLA
04
Phase 4: Deployment & Monitoring
We manage the mainnet deployment, configure multi-sig wallets for treasury management, and set up real-time monitoring with Chainscore's analytics dashboard for transaction health, gas spend, and model performance metrics.
< 1 week
Go-Live Timeline
24/7
Post-Launch Support
benefits
FROM LEGACY MIGRATION
Business Outcomes of Decentralized AI
Migrating from centralized AI to blockchain unlocks verifiable, resilient, and transparent intelligence. We architect systems that deliver concrete business advantages, not just technical novelty.
01
Immutable & Verifiable AI Models
Deploy AI models with on-chain provenance and tamper-proof execution logs. Clients gain auditable intelligence for compliance, reduces model drift disputes, and builds user trust in AI outputs.
100%
Audit Trail
Zero-trust
Verification
02
Censorship-Resistant Inference
Ensure your AI services remain globally accessible and operational. Our decentralized node networks eliminate single points of failure, protecting revenue streams and user access from regional or platform-level takedowns.
99.9%
Uptime SLA
Global
Node Coverage
03
Tokenized Data & Model Economies
Monetize proprietary datasets and AI models through secure tokenization. We implement ERC-7641 for AI assets, enabling new revenue models like inference staking, data royalties, and fractional ownership.
ERC-7641
Standard
New
Revenue Streams
04
Reduced Operational Costs
Replace costly cloud API dependencies with optimized, decentralized compute. Our architecture leverages proof-of-stake networks and specialized co-processors (e.g., EigenLayer AVS) to cut inference costs by 40-60%.
40-60%
Cost Reduction
EigenLayer
Infrastructure
05
Enhanced Data Privacy & Sovereignty
Process sensitive data with zero-knowledge proofs (ZKPs) and fully homomorphic encryption (FHE). Clients can offer private AI services for healthcare and finance without exposing raw data, meeting GDPR/CCPA requirements.
ZKPs/FHE
Techniques
GDPR-ready
Compliance
06
Faster Time-to-Market for AI Products
Leverage our pre-audited smart contract templates and modular oracle stacks for AI. We deliver production-ready decentralized AI backends in < 6 weeks, accelerating your launch and competitive edge.
< 6 weeks
Deployment
Pre-audited
Components
Why Web3 Companies Are Migrating
Centralized vs. Decentralized AI: The Strategic Shift
A technical and operational comparison between traditional, centralized AI infrastructure and the decentralized, blockchain-native approach we architect for Web3 applications.
| Architectural Factor | Legacy Centralized AI | Chainscore Decentralized AI |
|---|---|---|
Data Sovereignty & Privacy | Vendor-controlled data silos, high privacy risk | User-owned data via encrypted on-chain/off-chain storage |
Model Transparency & Auditability | Opaque "black box" models, no verifiable outputs | Fully auditable inference via zero-knowledge proofs or on-chain verification |
Infrastructure Cost & Scalability | High, unpredictable cloud bills; vertical scaling limits | Predictable gas costs; horizontal scaling via decentralized node networks |
Time to Integrate AI Features | Months for API integration and compliance review | Weeks using pre-audited smart contract templates and oracles |
Censorship Resistance & Uptime | Single points of failure, subject to platform policies | Globally distributed, fault-tolerant execution with 99.9%+ SLA |
Monetization & Incentive Alignment | Platform captures majority of value from data/model | Value flows to token holders, data providers, and app users |
Security Posture | Centralized attack surface (API keys, databases) | Cryptographically secured transactions with multi-sig governance |
Typical Implementation Timeline | 6-12 months for full-stack development | 8-16 weeks for production-ready deployment |
how-we-deliver
STRUCTURED APPROACH
Our 4-Phase Migration Process
A proven, systematic methodology to de-risk your transition from legacy AI systems to a scalable, on-chain architecture. We deliver a clear roadmap with defined milestones and deliverables at each stage.
01
Phase 1: Discovery & Architecture
We conduct a deep technical audit of your existing AI models and data pipelines to design a secure, cost-effective blockchain architecture. This phase defines the target state, tokenomics (if applicable), and smart contract blueprint.
2-3 weeks
Duration
1
Architecture Blueprint
02
Phase 2: Smart Contract & Oracle Development
Our engineers build and rigorously test the core on-chain logic. This includes custom smart contracts for model inference, data access control, and payment settlements, integrated with Chainlink or Pyth oracles for reliable off-chain data feeds.
4-6 weeks
Duration
100%
Test Coverage
03
Phase 3: Integration & Staging
We seamlessly connect your new blockchain layer with your existing front-end and back-end systems. A full staging environment is deployed on a testnet (e.g., Sepolia, Amoy) for comprehensive user acceptance testing and security validation.
3-4 weeks
Duration
99.9%
Uptime SLA
04
Phase 4: Mainnet Launch & Support
Managed deployment to Ethereum mainnet or your chosen L2 (Arbitrum, Base, Optimism). We provide post-launch monitoring, performance optimization, and smart contract upgrade management for 30 days to ensure a smooth production rollout.
1-2 weeks
Duration
24/7
Launch Support
tech-stack
CORE SERVICE
Smart Contract Development
Secure, production-ready smart contracts for DeFi, NFTs, and enterprise applications.
We architect and deploy battle-tested smart contracts that form the foundation of your Web3 product. Our development process is built on security-first principles, utilizing OpenZeppelin libraries and rigorous audit patterns to mitigate risk from day one.
- Custom Logic: Tailored
Solidity 0.8+contracts for DEXs, lending protocols, NFT marketplaces, and DAOs. - Full Audit Trail: Development includes comprehensive unit/integration testing and preparation for third-party audits by firms like CertiK or Quantstamp.
- Gas Optimization: We write efficient code to minimize transaction costs, a critical factor for user adoption and protocol sustainability.
Deliver a secure, auditable, and gas-efficient smart contract system in 4-6 weeks, accelerating your path to a secure mainnet launch.
Technical & Strategic Considerations
Legacy AI Migration: Key Questions
Answers to the most common technical and operational questions CTOs ask when planning a migration from legacy AI systems to on-chain infrastructure.
Our structured 4-phase migration process ensures minimal disruption. Discovery & Audit (1 week): We analyze your existing AI models, data pipelines, and business logic. Architecture Design (1-2 weeks): We design the on-chain architecture, select optimal L1/L2 solutions (e.g., Arbitrum, Base, zkSync), and plan the data oracle strategy. Development & Migration (2-4 weeks): Our team ports the core logic to Solidity or Rust, integrates verifiable compute frameworks (e.g., RISC Zero, EZKL), and builds the new front-end. Testing & Deployment (1-2 weeks): We conduct comprehensive unit, integration, and security audits before mainnet launch. Total typical timeline: 5-9 weeks.
ENQUIRY
Get In Touch
today.
Our experts will offer a free quote and a 30min call to discuss your project.
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Confidentiality24h Response
Time to ValueDirectly to Engineering Team
No Sales Fluff10+
Protocols Shipped
$20M+
TVL Overall