We architect and deploy custom blockchain solutions—from private consortium chains to public L2s—designed for your specific use case. Our development process delivers production-ready networks in 4-8 weeks, with 99.9% uptime SLAs and built-in compliance tooling for regulated industries.
LABS
Services
Quantum-Resistant Wallet Development
We build mobile wallets with NIST-standardized post-quantum cryptography (PQC) algorithms, securing your users' assets against future quantum computing threats. Deploy a future-proof wallet in 6-9 months.
Chainscore © 2026
overview
FOUNDATION
Custom Blockchain Development
Build secure, scalable, and compliant blockchain networks tailored to your business logic.
- Core Protocol Development: Custom
Solidity/Rustsmart contracts, consensus mechanisms (PoA,PoS), and token standards (ERC-20,ERC-721). - Network Infrastructure: Node orchestration, RPC endpoints, block explorers, and cross-chain bridges.
- Security & Compliance: Formal verification, third-party audits (OpenZeppelin, CertiK), and regulatory sandbox testing.
We don't just build chains; we deliver fully operational, maintainable networks that power your business model.
key-features-cards
QUANTUM-SECURE DEVELOPMENT
Core Technical Capabilities
Our engineering team delivers production-ready, quantum-resistant wallets built on verifiable security principles and battle-tested cryptographic libraries.
02
Hybrid Cryptographic Architecture
Dual-layer security combining classical ECDSA/EdDSA with PQC, ensuring backward compatibility with existing blockchains while future-proofing for the quantum era.
2-Layer
Security Model
Zero Downtime
Migration Path
03
Secure Multi-Party Computation (MPC) Wallets
Threshold signature scheme (TSS) wallets that eliminate single points of failure. Private keys are never fully assembled, drastically reducing attack surfaces.
t-of-n
Threshold Signing
No Single Point
Of Failure
05
Cross-Chain & Multi-Asset Support
Native support for EVM, Solana, and Cosmos SDK chains with a unified quantum-resistant interface. Manage BTC, ETH, SOL, and tokens from a single secure vault.
EVM+Solana+Cosmos
Chain Support
Single Interface
For All Assets
06
Gas Optimization & Performance
Engineered for efficiency. Our PQC implementations are optimized for minimal gas overhead on EVM chains and sub-second transaction signing latency.
< 1 sec
Signing Latency
< 20%
Gas Overhead vs ECDSA
benefits
STRATEGIC NECESSITY
Why Invest in Quantum Resistance Now
Quantum computing is not a distant threat; it's a near-future reality that demands proactive security. Investing in quantum-resistant wallets today protects your assets and user trust against tomorrow's attacks.
A Structured, Risk-Mitigated Approach
Quantum-Resistant Wallet Development Roadmap
Our phased methodology ensures a secure, production-ready quantum-resistant wallet, from initial research to enterprise deployment and ongoing maintenance.
| Phase | Core Deliverables | Timeline | Key Milestones |
|---|---|---|---|
Phase 1: Research & Architecture | Threat model, cryptographic library selection (e.g., NIST PQC finalists), system architecture design | 2-3 weeks | Architecture sign-off, cryptographic audit plan |
Phase 2: Core Protocol Development | Hybrid signature scheme implementation (e.g., ECDSA + Dilithium), key generation & management module | 4-6 weeks | Internal code review, functional prototype |
Phase 3: Wallet Integration & Testing | Full wallet UI/UX, integration with target chains (EVM, Solana, etc.), comprehensive test suite (unit, integration, fuzz) | 5-7 weeks | Penetration test report, beta release to testnet |
Phase 4: Security Audit & Deployment | External audit by a top-tier firm (e.g., Trail of Bits, Quantstamp), mainnet deployment support | 3-5 weeks | Audit completion, successful mainnet deployment |
Phase 5: Monitoring & Maintenance (Optional SLA) | 24/7 transaction monitoring, signature failure alerts, cryptographic library updates | Ongoing | 99.9% uptime SLA, quarterly security reviews |
how-we-deliver
CORE SERVICE
Smart Contract Development
Secure, production-ready smart contracts built by Web3-native engineers.
We architect and deploy custom smart contracts that are secure, gas-optimized, and ready for mainnet. Our development process is built on audited patterns and includes comprehensive testing to mitigate risk.
- Security-First: Built with
OpenZeppelinstandards and rigorous internal audits. - Protocol Expertise:
ERC-20,ERC-721,ERC-1155,ERC-4626, and custom logic for DeFi, NFTs, and DAOs. - Full Lifecycle: From specification and development to deployment, verification, and monitoring.
Reduce your time-to-market with battle-tested contracts while eliminating critical vulnerabilities.
We deliver production-ready code in Solidity 0.8+ or Vyper, complete with documentation and a deployment pipeline. Our focus is on creating the immutable business logic that powers your protocol's core value.
tech-stack
BUILT FOR THE FUTURE
Technology & Protocol Integration
We engineer your quantum-resistant wallet to operate seamlessly within the existing Web3 ecosystem, ensuring user adoption is frictionless while future-proofing your security posture.
01
Multi-Chain & Multi-Protocol Support
Seamless integration with Ethereum, Solana, Polygon, and other major L1/L2 networks. Your wallet will support native tokens, NFTs (ERC-721/1155), and DeFi protocols from day one.
15+
Blockchains
< 4 weeks
Integration Time
02
Post-Quantum Cryptography (PQC) Libraries
Integration of NIST-standardized PQC algorithms (CRYSTALS-Kyber, CRYSTALS-Dilithium) for key generation and transaction signing, replacing vulnerable ECDSA/EdDSA schemes.
NIST
Standard
256-bit+
Quantum Security
03
Hybrid Signature Schemes
Implementation of hybrid signatures that combine classical (ECDSA) and post-quantum cryptography, ensuring backward compatibility during the transition period.
Dual-Layer
Security
Zero Downtime
Migration
04
Secure Key Management & Storage
Architected key storage solutions using Hardware Security Modules (HSMs) and Trusted Execution Environments (TEEs) to protect PQC private keys from runtime attacks.
FIPS 140-2
Compliance
Zero
Key Exposure
05
WalletConnect & dApp Connectivity
Full support for WalletConnect v2, enabling secure, QR-based connections to thousands of existing dApps without requiring them to modify their quantum readiness.
100%
dApp Compatibility
< 100ms
Connection Time
06
Gas Abstraction & Sponsorship
Integration with ERC-4337 Account Abstraction and gas sponsorship protocols, allowing users to transact without holding native gas tokens—a critical UX enhancement.
ERC-4337
Standard
Paymaster
Ready
Technical & Commercial Insights
Quantum-Resistant Wallet FAQs
Get clear, specific answers to the most common questions CTOs and founders ask when evaluating quantum-resistant wallet development partners.
Our standard end-to-end development cycle is 6-10 weeks, from architecture to audit-ready delivery. We follow a phased approach:
- Week 1-2: Architecture & Design – Threat modeling, algorithm selection (e.g., CRYSTALS-Dilithium, SPHINCS+), and smart contract specification.
- Week 3-7: Core Development – Building the wallet SDK, key management module, and on-chain components using Solidity 0.8+ with OpenZeppelin.
- Week 8-9: Integration & Testing – Rigorous unit/integration testing and integration with your frontend or dApp.
- Week 10: Security Review & Handoff – Internal audit and comprehensive documentation delivery.
Timeline scales with features like multi-chain support or custom recovery mechanisms.
ENQUIRY
Get In Touch
today.
Our experts will offer a free quote and a 30min call to discuss your project.
NDA Protected
Confidentiality24h Response
Time to ValueDirectly to Engineering Team
No Sales Fluff10+
Protocols Shipped
$20M+
TVL Overall