Privacy-Preserving Voting Automation

overview

CORE SERVICE

Smart Contract Development

Secure, production-ready smart contracts built to your exact specifications.

We architect and deploy custom smart contracts for DeFi, NFTs, DAOs, and enterprise applications. Our development process is built on security-first principles, utilizing OpenZeppelin libraries and rigorous internal audits before deployment to EVM-compatible chains like Ethereum, Polygon, or Arbitrum.

From Specification to Mainnet: We handle the full lifecycle—design, development, testing, and deployment—delivering a production-ready contract suite in 2-4 weeks.
Security as Standard: Every contract undergoes static analysis, formal verification checks, and a multi-signature deployment process.
Future-Proof Code: Built with upgradeability patterns (Transparent Proxy, UUPS) and comprehensive event logging for seamless maintenance.

We don't just write code; we deliver audit-ready, gas-optimized contracts that form the secure backbone of your Web3 product.

key-features-cards

ARCHITECTURE & SECURITY

Core Technical Capabilities

Our privacy-preserving voting automation is built on a foundation of battle-tested cryptographic primitives and secure infrastructure, delivering enterprise-grade reliability and compliance for DAOs and governance platforms.

Zero-Knowledge Proof Integration

Implement zk-SNARKs (Circom/Groth16) or zk-STARKs to enable verifiable, anonymous voting. Voters prove eligibility and correct ballot casting without revealing their identity or vote choice, ensuring complete privacy.

Secure Multi-Party Computation (MPC)

Decentralized tallying where no single party sees individual votes. We implement threshold signature schemes (GG18/GG20) and distributed key generation to eliminate central points of failure in result aggregation.

On-Chain & Off-Chain Hybrid Architecture

Optimize for cost and scalability. Store immutable commitments on-chain (Ethereum, Polygon) while processing private computations off-chain, reducing gas fees by 60-80% compared to fully on-chain solutions.

Formally Verified Smart Contracts

Critical contract logic (vote tallying, token locking) is formally verified using tools like Certora Prover or K-Framework. We provide mathematical proof of correctness against a formal specification.

Resilient Cryptographic Backends

Deploy production-ready, high-availability backends for proof generation and MPC ceremonies. Built with Rust/Go for performance, featuring automatic key rotation, secret recovery, and 99.95% uptime SLA.

Compliance & Audit Trails

Generate non-repudiable, privacy-preserving audit trails. Each vote produces a verifiable proof of correct process execution, enabling regulatory compliance (e.g., for tokenized securities voting) without compromising anonymity.

benefits

MEASURABLE IMPACT

Business Outcomes for Your Organization

Our Privacy-Preserving Voting Automation delivers concrete, auditable results that strengthen governance and accelerate decision-making.

Tamper-Proof Audit Trails

Every vote is immutably recorded on-chain with zero-knowledge proofs, providing a verifiable, cryptographically secure audit trail that eliminates disputes and builds institutional trust.

EXPLORE

Reduced Governance Overhead

Automate proposal lifecycle, voter verification, and result tabulation. Reduce manual administrative costs by up to 70% and cut typical voting cycle times from weeks to days.

70%

Cost Reduction

Days

Cycle Time

Regulatory & Compliance Confidence

Built with privacy-by-design using zk-SNARKs/STARKs, our systems ensure voter anonymity while providing selective disclosure proofs for regulators, ensuring compliance with data protection laws.

EXPLORE

Enhanced Voter Participation

Secure, private voting from any device increases participation rates. Our clients see average turnout improvements of 40-60% compared to traditional, less accessible methods.

40-60%

Higher Turnout

Any Device

Access

Scalable DAO & Enterprise Governance

From small token-gated communities to large-scale shareholder votes, our infrastructure scales seamlessly, handling thousands of concurrent voters with sub-second proof generation.

Thousands

Concurrent Voters

< 1 sec

Proof Gen

Faster Time-to-Market

Leverage our battle-tested, modular voting frameworks. Deploy a custom, audited privacy-preserving voting system in under 4 weeks, not months.

< 4 weeks

Deployment

Pre-Audited

Framework

Strategic Decision Analysis

Build vs. Buy: Custom Voting Automation

A detailed comparison of developing privacy-preserving voting automation in-house versus partnering with Chainscore Labs for a custom, secure solution.

Factor	Build In-House	Chainscore Custom Solution
Time to Market	6-12+ months	4-8 weeks
Initial Development Cost	$150K - $400K+	$50K - $150K
Security & Audit Overhead	High (unaudited, high risk)	Low (pre-audited patterns, formal verification)
Expertise Required	Specialized team in ZKPs, MPC, blockchain	Our team provides full-stack expertise
Ongoing Maintenance	Full-time DevOps & security team	Optional 24/7 SLA with monitoring
Protocol Flexibility	Limited to team's initial design	Tailored to your governance model & chain
Compliance & Privacy	Your legal team's responsibility	Built-in compliance with GDPR/CCPA patterns
Total Cost of Ownership (Year 1)	$300K - $700K+	$80K - $200K

how-we-deliver

PROVEN PROCESS

Our Delivery Methodology

Our structured, security-first approach ensures your privacy-preserving voting system is delivered on time, on budget, and with the enterprise-grade reliability your project demands.

Architecture & Threat Modeling

We begin with a comprehensive security review, designing a zero-knowledge proof (ZKP) architecture and threat model tailored to your governance or DAO requirements. This upfront rigor prevents costly redesigns later.

OWASP

Compliance

1-2 weeks

Design Phase

ZK-Circuit Development & Audit

Our team implements verifiable voting logic using Circom or Halo2, followed by an independent cryptographic audit. We guarantee the mathematical soundness of your privacy guarantees.

2 Audits

Minimum

Circom/Halo2

Framework

On-Chain Integration

Seamless deployment of verifier contracts and voting interfaces on your chosen L1/L2 (Ethereum, Polygon, Arbitrum). We optimize for gas efficiency and finality to keep operational costs predictable.

< 3 sec

Avg. Finality

ERC-20/721

Token Support

End-to-End Testing

We conduct penetration testing, load testing under simulated high-traffic votes, and user acceptance testing (UAT) to ensure system integrity and usability before mainnet launch.

> 10k TPS

Load Tested

100%

Test Coverage

Production Deployment & Monitoring

Managed mainnet launch with 24/7 monitoring dashboards for vote integrity, ZKP generation latency, and contract health. We provide clear SLAs for uptime and incident response.

99.9%

Uptime SLA

< 5 min

Incident Response

Documentation & Handoff

Complete technical documentation, operational runbooks, and developer training ensure your team has full ownership and can maintain the system long-term.

Full Source

Code Access

2 Sessions

Training Included

tech-stack

AUDITED & ENTERPRISE-GRADE

Proven Technology Stack

Our privacy-preserving voting automation is built on a secure, modular foundation of battle-tested protocols and infrastructure, delivering production-ready systems with guaranteed performance.

Zero-Knowledge Proofs (zk-SNARKs)

We implement zk-SNARKs via Circom and SnarkJS to enable verifiable vote tallying without revealing individual ballots, ensuring complete voter privacy and cryptographic integrity.

Secure Multi-Party Computation (MPC)

Our threshold signature schemes distribute key management across multiple independent parties, eliminating single points of failure and preventing collusion in the tallying process.

On-Chain Finality & Audit

Immutable vote commitments and final results are anchored on Ethereum or Polygon, providing a transparent, tamper-proof public ledger for independent verification and compliance.

Enterprise-Grade Infrastructure

Deployed on AWS/GCP with HSM integration, our systems offer 99.9% uptime SLAs, DDoS protection, and SOC 2 compliant data handling for mission-critical governance events.

Privacy-Preserving Voting Automation

Frequently Asked Questions

Get clear answers on timelines, security, and implementation for our zero-knowledge voting infrastructure.

A standard deployment with a defined set of voting mechanisms (e.g., token-weighted, quadratic) takes 4-6 weeks from kickoff to mainnet launch. Complex implementations with custom ZK circuits or multi-chain governance may extend to 8-10 weeks. We provide a detailed project plan within the first week.

Smart Contract Development

Core Technical Capabilities

Zero-Knowledge Proof Integration

Secure Multi-Party Computation (MPC)

On-Chain & Off-Chain Hybrid Architecture

Formally Verified Smart Contracts

Resilient Cryptographic Backends

Compliance & Audit Trails

Business Outcomes for Your Organization

Tamper-Proof Audit Trails

Reduced Governance Overhead

Regulatory & Compliance Confidence

Enhanced Voter Participation

Scalable DAO & Enterprise Governance

Faster Time-to-Market

Build vs. Buy: Custom Voting Automation

Our Delivery Methodology

Architecture & Threat Modeling

ZK-Circuit Development & Audit

On-Chain Integration

End-to-End Testing

Production Deployment & Monitoring

Documentation & Handoff

Proven Technology Stack

Zero-Knowledge Proofs (zk-SNARKs)

Secure Multi-Party Computation (MPC)

On-Chain Finality & Audit

Enterprise-Grade Infrastructure

Frequently Asked Questions

Get a free quote.

Get In Touch
today.

Privacy-Preserving Voting Automation

Smart Contract Development

Core Technical Capabilities

Zero-Knowledge Proof Integration

Secure Multi-Party Computation (MPC)

On-Chain & Off-Chain Hybrid Architecture

Formally Verified Smart Contracts

Resilient Cryptographic Backends

Compliance & Audit Trails

Business Outcomes for Your Organization

Tamper-Proof Audit Trails

Reduced Governance Overhead

Regulatory & Compliance Confidence

Enhanced Voter Participation

Scalable DAO & Enterprise Governance

Faster Time-to-Market

Build vs. Buy: Custom Voting Automation

Our Delivery Methodology

Architecture & Threat Modeling

ZK-Circuit Development & Audit

On-Chain Integration

End-to-End Testing

Production Deployment & Monitoring

Documentation & Handoff

Proven Technology Stack

Zero-Knowledge Proofs (zk-SNARKs)

Secure Multi-Party Computation (MPC)

On-Chain Finality & Audit

Enterprise-Grade Infrastructure

Frequently Asked Questions

Get In Touch today.

Get In Touch
today.