We architect and deploy custom smart contracts that power your protocol's core logic, from fungible tokens (ERC-20) and NFTs (ERC-721/1155) to complex DeFi primitives and governance systems. Our code is built for security first, utilizing battle-tested libraries like OpenZeppelin and following industry-standard patterns.
LABS
Services
Hardware-Accelerated ZK Proof Development
We architect and integrate custom hardware acceleration (GPU, FPGA, ASIC) for Zero-Knowledge proof systems, delivering order-of-magnitude speed improvements and cost reductions for performance-critical applications.
Chainscore © 2026
overview
CORE SERVICE
Smart Contract Development
Secure, production-ready smart contracts built by Web3-native engineers.
- End-to-End Delivery: From initial specification and architecture to deployment, verification, and mainnet launch support.
- Security-Focused Process: Multi-stage review, automated testing with
Hardhat/Foundry, and preparation for third-party audits. - Gas Optimization: Expert-level tuning to minimize transaction costs and maximize user efficiency on-chain.
- Ongoing Maintenance: Post-launch monitoring, upgradeability planning, and incident response protocols.
We deliver contracts you can trust, reducing audit cycles and mitigating the risk of costly exploits. Our engineers have deployed over 200+ contracts with zero critical vulnerabilities post-audit.
key-features-cards
PROVEN INFRASTRUCTURE
Our Hardware Acceleration Capabilities
We deploy a purpose-built hardware stack to deliver the speed, cost-efficiency, and scalability required for production-grade ZK applications. Our infrastructure is battle-tested for high-throughput DeFi, gaming, and identity protocols.
01
Custom FPGA & GPU Clusters
Dedicated hardware optimized for specific proof systems (Groth16, Plonk, Halo2) to accelerate proof generation by 10-100x compared to CPU-only setups.
10-100x
Faster Proof Generation
24/7
Managed Operations
02
Multi-Cloud Orchestration
Automated deployment across AWS, GCP, and bare-metal providers for optimal cost, latency, and redundancy. Achieve sub-second proof generation with 99.9% uptime SLA.
99.9%
Uptime SLA
< 1 sec
Proof Generation
03
Prover Performance Optimization
Deep circuit-level optimization for your specific ZK-SNARK/STARK, reducing constraint count and memory footprint to minimize hardware runtime and cost.
40-60%
Cost Reduction
Audited
Security-First
04
End-to-End Security Hardening
Infrastructure secured with hardware security modules (HSMs), zero-trust networking, and regular audits. Protects your proving keys and sensitive data.
SOC 2
Compliant
HSM
Key Management
benefits
TANGIBLE ROI
Business Outcomes of Accelerated ZK Proofs
Hardware acceleration for ZK proofs delivers more than just speed. It unlocks new business models, reduces operational costs, and creates defensible technical advantages. Here’s what our clients achieve.
01
Reduced Operational Costs
Drastically lower the compute cost of proof generation, turning a major expense into a competitive advantage. Achieve predictable, scalable infrastructure costs for high-volume applications.
10-100x
Cost Reduction
Predictable
Unit Economics
02
Faster Time-to-Market
Deploy production-ready, hardware-accelerated ZK circuits in weeks, not quarters. Our battle-tested frameworks and libraries eliminate months of R&D and integration work.
< 4 weeks
Proof Integration
Pre-optimized
Circuit Libraries
03
Enhanced User Experience
Enable near-instant transaction finality and sub-second proof generation for applications like private payments, gaming, and identity. Remove UX friction caused by proof latency.
< 1 sec
Proof Generation
Real-time
User Interactions
04
Enterprise-Grade Security & Audit
Build on formally verified circuit designs and undergo rigorous third-party audits (e.g., Trail of Bits, Quantstamp). We ensure your ZK stack is secure by design from day one.
Formally Verified
Core Primitives
Audit-Ready
Delivery Package
05
Scalability for Mass Adoption
Horizontally scale proof generation to handle millions of daily transactions. Our architecture is designed for the throughput demands of mainstream consumer applications.
Millions
TPS Capacity
Linear Scaling
With Demand
06
Technical Differentiation
Leverage custom accelerators (FPGA/ASIC) and advanced proving systems (Plonk, STARKs) to build features competitors cannot easily replicate, creating a lasting moat.
Custom Hardware
FPGA/ASIC Options
Prover-Agnostic
Architecture
Optimizing for Cost, Time, and Performance
Hardware Acceleration Paths: A Strategic Comparison
Choosing the right hardware acceleration path is critical for ZK proof performance and project economics. This table compares the strategic trade-offs between building in-house, using generic cloud services, and partnering with Chainscore Labs for a purpose-built solution.
| Consideration | Build In-House | Generic Cloud (AWS/GCP) | Chainscore Labs |
|---|---|---|---|
Time to Production | 9-18 months | 3-6 months | 4-12 weeks |
Initial Setup Cost | $300K - $1M+ | $50K - $200K | $25K - $100K |
Peak Proofs/Second | Custom Optimized | Variable, Shared Resources | 10,000+ (Dedicated FPGA/ASIC) |
Proof Generation Latency | Lowest (Full Control) | High (Network + Virtualization) | < 1 second (Bare Metal) |
Ongoing OpEx/Maintenance | Full Team + Hardware Refresh | High, Usage-Based Cloud Bills | Predictable SLA or Managed Service |
Security & Audit Overhead | Your Responsibility | Shared Responsibility Model | Full Audit & Pen-Testing Included |
Expertise Required | PhD-level Cryptography & Hardware | DevOps & Cloud Management | ZK Circuit Knowledge Only |
Scalability Flexibility | Hardware-Bound, Slow to Scale | Instant, But Costly at Scale | Elastic, Pre-Negotiated Scaling |
Best For | Tech Giants with Deep R&D Budgets | Early Prototyping & Unpredictable Load | Production-Grade dApps & Scaling Solutions |
how-we-deliver
PREDICTABLE, TRANSPARENT, AND RESULTS-DRIVEN
Our Delivery Process: From Assessment to Integration
We deliver hardware-accelerated ZK proof systems through a structured, milestone-driven process. This ensures predictable timelines, transparent communication, and a final product that meets your exact performance and security requirements.
01
Architecture & Feasibility Assessment
We analyze your specific use case (e.g., private transactions, verifiable compute) to design the optimal ZK circuit architecture and hardware acceleration strategy. This phase defines the technical roadmap and success criteria.
1-2 weeks
Initial Scoping
3+ Options
Architecture Proposals
02
Circuit Design & Optimization
Our team develops and optimizes the core ZK circuits (using Circom, Halo2, or custom R1CS) for your application, focusing on constraint efficiency and parallelization potential for hardware acceleration.
50-80%
Constraint Reduction
Audit-Ready
Code Quality
03
Hardware Acceleration Implementation
We implement the proof generation pipeline on GPU (CUDA/OpenCL) or FPGA platforms, leveraging parallel processing to achieve order-of-magnitude speed improvements over CPU-based provers.
10-100x
Proof Speedup
FPGA/GPU
Target Platforms
04
Security Audit & Formal Verification
Every circuit and integration undergoes rigorous internal review and can be prepared for external audits by firms like Trail of Bits or Quantstamp. We ensure cryptographic soundness and protocol compliance.
Zero-Critical
Audit Target
Formal Specs
Verification Ready
05
Integration & SDK Delivery
We deliver a production-ready SDK or API, complete with documentation, that seamlessly integrates with your existing blockchain stack (EVM, Solana, Cosmos, etc.) for on-chain verification.
< 1 sec
API Latency Target
Full Docs
Included
06
Performance Benchmarking & Support
We provide detailed performance benchmarks against your initial requirements and offer ongoing support for scaling, maintenance, and optimization as your application grows.
99.9% SLA
System Uptime
30-60 days
Launch Support
Technical & Commercial FAQs
Hardware-Accelerated ZK Proofs: Key Questions
Get clear answers on timelines, costs, and technical specifics for implementing hardware-accelerated zero-knowledge proofs in your protocol.
From initial design to production-ready deployment, a typical project takes 6-12 weeks. This includes 2 weeks for architecture and hardware selection, 3-5 weeks for circuit optimization and proof system integration, and 2-3 weeks for on-chain verifier deployment and stress testing. For complex, custom circuits (e.g., a new privacy-preserving DEX), timelines extend to 14-16 weeks.
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