Quantum-Resistant Cryptography | Chainscore Labs

overview

CORE SERVICE

Smart Contract Development

Secure, production-ready smart contracts built by experts for your Web3 product.

We architect and deploy custom smart contracts that form the secure backbone of your application. Our development process ensures gas optimization, upgradability, and comprehensive security from day one.

Protocols & Standards: ERC-20, ERC-721, ERC-1155, ERC-4626, and custom logic.
Security First: Built with OpenZeppelin libraries and hardened through multiple audit stages.
Deliverables: Full test suites, deployment scripts, and technical documentation.

We deliver contracts you can trust, reducing your time-to-audit and mitigating critical risks before mainnet launch.

key-features-cards

FUTURE-PROOF YOUR DATA

Our Quantum-Resistant Cryptography Service

We architect and implement post-quantum cryptographic systems to protect your most sensitive records from tomorrow's threats, ensuring long-term data integrity and compliance.

Post-Quantum Algorithm Integration

We implement NIST-standardized PQC algorithms (CRYSTALS-Kyber, CRYSTALS-Dilithium) into your existing blockchain or database infrastructure, ensuring cryptographic agility without sacrificing performance.

NIST-Compliant

Algorithm Standard

< 15%

Avg. Latency Increase

Hybrid Cryptography Architecture

Deploy a seamless hybrid system that combines classical ECC/RSA with PQC, providing defense-in-depth and a smooth migration path as quantum threats evolve.

Zero Downtime

Migration

Backward Compatible

System Design

Quantum-Safe Key Management

Design and deploy secure, auditable key lifecycle management systems for PQC keys, including generation, storage, rotation, and revocation, tailored for your compliance needs.

FIPS 140-3

Compliance Ready

HSM Integration

Secure Storage

Blockchain-Specific PQC Solutions

Specialized implementations for major protocols (Ethereum, Hyperledger, Cosmos) to future-proof smart contracts, transaction signing, and on-chain data against quantum attacks.

EVM & WASM

Runtime Support

Gas-Optimized

Contract Design

Cryptographic Audit & Risk Assessment

Our experts conduct a thorough audit of your current cryptographic stack, identify quantum-vulnerable components, and provide a prioritized roadmap for remediation.

Trail of Bits

Audit Methodology

Detailed Threat Model

Deliverable

Long-Term Data Sealing & Notarization

Implement timestamping and notarization services using PQC signatures, creating immutable, quantum-resistant proofs of existence for critical records and intellectual property.

RFC 3161

Standard Compliant

Decades-Long Validity

Proof Assurance

benefits

STRATEGIC ADVANTAGES

Business Outcomes of Quantum-Resilient Records

Implementing quantum-resistant cryptography is not just a technical upgrade; it's a strategic investment that delivers measurable business value today while securing your future. Our solutions are designed to protect your most critical assets and unlock new opportunities.

Future-Proof Regulatory Compliance

Proactively meet emerging global standards for post-quantum cryptography (PQC). Our solutions are built on NIST-selected algorithms, ensuring your records remain compliant and audit-ready for years to come.

Eliminate Cryptographic Debt

Replace legacy, vulnerable signing schemes (ECDSA, RSA) with quantum-safe alternatives. This eliminates a critical single point of failure for your digital assets, smart contracts, and identity systems.

CRYSTALS-Dilithium

Primary Algorithm

100%

Vulnerability Coverage

Protect High-Value Digital Assets

Secure private keys, wallet seeds, and transaction authorization mechanisms against future quantum attacks. This is non-negotiable for custody services, DeFi protocols, and institutional asset management.

FIPS 140-3

Security Level

Multi-Sig

Integration Ready

Ensure Long-Term Data Integrity

Guarantee the immutability and authenticity of legal documents, financial records, and supply chain logs for decades. Quantum-safe signatures prevent retroactive forgery of historical data.

Lattice-Based

Signature Scheme

Indefinite

Validity Period

Maintain Uninterrupted Business Continuity

Avoid catastrophic operational disruption from a "Store Now, Decrypt Later" (SNDL) attack. Our phased migration strategy ensures zero downtime during the transition to quantum-resistant systems.

Hybrid Mode

Deployment Strategy

99.9%

Uptime SLA

Build Market Trust & Competitive Edge

Differentiate your platform by demonstrating proactive security leadership. This builds unparalleled trust with enterprise clients, regulators, and users concerned about long-term viability.

Technical Comparison

Legacy Crypto vs. Quantum-Resistant Upgrade

A side-by-side analysis of traditional cryptographic methods versus our quantum-resistant solutions, highlighting the critical security and future-proofing advantages.

Cryptographic Feature	Legacy Cryptography (ECDSA/RSA)	Chainscore Quantum-Resistant Upgrade
Algorithm Type	Elliptic Curve / Integer Factorization	Lattice-Based / Hash-Based
Quantum Attack Resistance
NIST Standardization Status	FIPS 186-5 / FIPS 186-4	NIST PQC Finalist / Standard (ML-DSA, SLH-DSA)
Key Size (Typical)	256-4096 bits	~10KB (Dilithium) / ~50KB (SPHINCS+)
Signature Size	64-512 bytes	~2-40KB
Performance Impact	Low (mature optimization)	Moderate (2-10x slower signing)
Smart Contract Gas Cost	Low	High (requires specialized circuits)
Implementation Complexity	Low (widespread libraries)	High (novel math, audit critical)
Future-Proof Guarantee	Until quantum computer breaks it	Post-quantum secure by design
Chainscore Audit & Integration	Not Applicable	Full audit & gas-optimized deployment

how-we-deliver

A METHODICAL APPROACH

Our 4-Phase Audit & Migration Process

We systematically future-proof your blockchain records with a proven, low-risk migration framework. Our process minimizes disruption while ensuring cryptographic integrity for the post-quantum era.

Phase 1: Quantum Risk Assessment

We conduct a comprehensive audit of your current cryptographic stack to identify vulnerabilities to quantum attacks (Shor's, Grover's algorithms). Deliverables include a threat model and prioritized migration roadmap.

NIST Standards

Compliance Check

48-72 hrs

Initial Report

Phase 2: Post-Quantum Cryptography (PQC) Design

Our cryptographers architect a hybrid or pure PQC solution using vetted algorithms (e.g., CRYSTALS-Kyber, CRYSTALS-Dilithium). We design for backward compatibility and minimal performance impact on your dApp.

Hybrid Schemes

Recommended

< 15%

Target Latency Increase

Phase 3: Implementation & Integration

We develop and integrate quantum-resistant smart contracts, wallets, and signing mechanisms. All code follows secure development lifecycles and is tested against simulated quantum attacks.

Zero-Downtime

Integration Goal

Formal Verification

Key Components

Phase 4: Validation & Go-Live

Final security audit by our internal team, followed by a controlled production migration. We provide monitoring dashboards and a rollback plan to ensure a seamless transition.

100% Test Coverage

Pre-Launch

24/7 Support

Post-Migration

security

CORE SERVICE

Smart Contract Development

Secure, production-ready smart contracts built by Web3 experts to power your decentralized applications.

We architect and deploy battle-tested smart contracts that form the immutable core of your Web3 product. Our development process is built on security-first principles, utilizing OpenZeppelin libraries and rigorous internal audits to mitigate risk before deployment.

Custom Logic & Tokenomics: Design and implement bespoke ERC-20, ERC-721, or ERC-1155 tokens with custom minting, staking, and governance logic.
Gas-Optimized Code: Every line is written for efficiency, reducing transaction costs for your users and improving scalability.
Full Audit Trail: We provide comprehensive documentation and testing suites, preparing your code for third-party security audits.

From initial concept to mainnet deployment, we ensure your smart contracts are a reliable, secure foundation for growth. Our typical engagement delivers a production-ready MVP in 2-4 weeks.

Future-Proof Your Protocol

Quantum-Resistant Cryptography FAQs

Answers to the most common technical and commercial questions about integrating quantum-resistant cryptography into your blockchain systems.

A standard integration for a new or existing protocol takes 3-6 weeks. This includes threat modeling, algorithm selection (e.g., CRYSTALS-Dilithium, SPHINCS+), implementation, and a security audit. For complex, high-TVL DeFi protocols, the timeline extends to 8-12 weeks to ensure rigorous testing and formal verification.

Quantum-Resistant Cryptography for Future-Proof Records

Smart Contract Development

Our Quantum-Resistant Cryptography Service

Post-Quantum Algorithm Integration

Hybrid Cryptography Architecture

Quantum-Safe Key Management

Blockchain-Specific PQC Solutions

Cryptographic Audit & Risk Assessment

Long-Term Data Sealing & Notarization

Business Outcomes of Quantum-Resilient Records

Future-Proof Regulatory Compliance

Eliminate Cryptographic Debt

Protect High-Value Digital Assets

Ensure Long-Term Data Integrity

Maintain Uninterrupted Business Continuity

Build Market Trust & Competitive Edge

Legacy Crypto vs. Quantum-Resistant Upgrade

Our 4-Phase Audit & Migration Process

Phase 1: Quantum Risk Assessment

Phase 2: Post-Quantum Cryptography (PQC) Design

Phase 3: Implementation & Integration

Phase 4: Validation & Go-Live

Smart Contract Development

Quantum-Resistant Cryptography FAQs

Get a free quote.

Get In Touch
today.

Quantum-Resistant Cryptography for Future-Proof Records

Smart Contract Development

Our Quantum-Resistant Cryptography Service

Post-Quantum Algorithm Integration

Hybrid Cryptography Architecture

Quantum-Safe Key Management

Blockchain-Specific PQC Solutions

Cryptographic Audit & Risk Assessment

Long-Term Data Sealing & Notarization

Business Outcomes of Quantum-Resilient Records

Future-Proof Regulatory Compliance

Eliminate Cryptographic Debt

Protect High-Value Digital Assets

Ensure Long-Term Data Integrity

Maintain Uninterrupted Business Continuity

Build Market Trust & Competitive Edge

Legacy Crypto vs. Quantum-Resistant Upgrade

Our 4-Phase Audit & Migration Process

Phase 1: Quantum Risk Assessment

Phase 2: Post-Quantum Cryptography (PQC) Design

Phase 3: Implementation & Integration

Phase 4: Validation & Go-Live

Smart Contract Development

Quantum-Resistant Cryptography FAQs

Get In Touch today.

Get In Touch
today.