We architect and deploy custom smart contracts that form the backbone of your protocol. Our development is built on Solidity 0.8+ with OpenZeppelin security patterns, ensuring your core logic is robust and upgradeable from day one.
LABS
Services
Router Performance Optimization
Maximize throughput and minimize costs for your cross-chain infrastructure. We analyze, tune, and scale your router nodes for enterprise-grade reliability and efficiency.
Chainscore © 2026
overview
CORE SERVICE
Smart Contract Development
Secure, audited smart contracts built for production by Web3-native engineers.
Every contract undergoes a multi-stage audit process before mainnet deployment, combining automated analysis, manual review, and formal verification for critical functions.
- Token Standards:
ERC-20,ERC-721,ERC-1155, and custom implementations. - DeFi Primitives: Automated Market Makers (AMMs), liquidity pools, staking, and vesting contracts.
- Security First: Adherence to Consensys Diligence and Trail of Bits best practices.
- Deliverable: Production-ready code, full test suite, deployment scripts, and technical documentation.
key-features-cards
PROVEN METHODOLOGY
Our Optimization Framework
A systematic, four-phase approach to identify bottlenecks, implement targeted improvements, and deliver measurable performance gains for your cross-chain router.
01
Comprehensive Performance Audit
We analyze your router's on-chain transactions, gas consumption, and latency across all supported chains to establish a performance baseline and identify critical bottlenecks.
48 hours
Initial Report
15+
Key Metrics
02
Gas & Fee Optimization
We refactor smart contract logic, implement efficient data structures, and apply gas-saving patterns to reduce transaction costs by up to 40% without compromising security.
Up to 40%
Gas Reduction
OpenZeppelin
Standards
03
Latency & Finality Enhancement
We optimize RPC provider selection, implement multi-chain transaction batching, and refine confirmation logic to improve end-to-end settlement speed and user experience.
< 5 sec
Target Latency
99.9%
Success Rate
04
Security & Reliability Hardening
Every optimization is validated through rigorous testing and security reviews, ensuring enhanced performance does not introduce new attack vectors or reduce system robustness.
100%
Test Coverage
Formal Verification
Critical Paths
benefits
TANGIBLE RESULTS
Business Outcomes You Can Measure
Our Router Performance Optimization service delivers quantifiable improvements to your blockchain infrastructure. See the direct impact on your operations and bottom line.
01
Transaction Success Rate
We guarantee a >99.5% success rate for cross-chain transactions by optimizing gas estimation, slippage tolerance, and node selection logic.
>99.5%
Guaranteed Success Rate
< 0.5%
Failed TX Rate
02
Gas Cost Reduction
Our route optimization algorithms and MEV protection strategies reduce average transaction costs by 15-40% compared to standard aggregators.
15-40%
Avg. Gas Savings
Real-time
Optimization
03
Latency & Finality
Achieve sub-2-second quote generation and route discovery, with transaction finality times optimized for the specific destination chain (e.g., <12s for Polygon, <5s for Arbitrum).
< 2 sec
Quote Latency
Chain-Optimized
Finality
04
Infrastructure Uptime
Benefit from a 99.9% uptime SLA for our routing API and monitoring dashboard, backed by multi-cloud, multi-region node infrastructure.
99.9%
Uptime SLA
24/7
Monitoring
05
Developer Velocity
Integrate our optimized router in under 2 weeks with comprehensive SDKs, documentation, and dedicated technical support, accelerating your time-to-market.
< 2 weeks
Integration Time
Full SDK
Included
Performance & Cost Analysis
Optimized Router vs. Unoptimized Baseline
A direct comparison of key performance indicators, operational costs, and business outcomes between a Chainscore-optimized cross-chain router and a typical in-house or off-the-shelf baseline solution.
| Performance Metric | Unoptimized Baseline | Chainscore Optimized Router |
|---|---|---|
Average Swap Latency | 5-15 seconds | < 2 seconds |
Optimal Route Hit Rate | ~65% (manual rules) |
|
Gas Cost per Transaction | 15-30% above optimal | Within 5% of theoretical minimum |
Supported Liquidity Sources | 1-3 DEXs per chain | 15+ DEXs & AMMs across all major chains |
Time to Integrate New Chain | 4-8 weeks | < 1 week |
Cross-Chain Settlement Success Rate | 97.5% | 99.9% |
Annual Infrastructure & Dev Cost | $250K - $750K+ | From $120K (managed service) |
Real-Time MEV Protection | ||
SLA for Uptime & Support | Best effort | 99.9% with 24/7 SRE |
how-we-deliver
METHODICAL APPROACH
Our 4-Phase Optimization Process
A structured, data-driven framework to systematically identify, prioritize, and resolve performance bottlenecks in your cross-chain router, delivering measurable improvements in speed, reliability, and cost.
01
Phase 1: Performance Audit & Benchmarking
We conduct a comprehensive analysis of your current router's on-chain performance, gas consumption, and latency. We benchmark against industry standards and competitor protocols to establish a clear performance baseline and identify priority bottlenecks.
48-72 Hours
Initial Audit Report
20+ Metrics
Tracked & Benchmarked
02
Phase 2: Architecture & Code Optimization
Our engineers implement targeted optimizations, including gas-efficient contract logic, state management improvements, and off-chain computation strategies. We focus on Solidity best practices, upgradeability patterns, and MEV protection.
15-40%
Avg. Gas Reduction
OpenZeppelin
Security Standards
03
Phase 3: RPC & Node Infrastructure Tuning
We optimize your interaction layer by configuring high-performance RPC endpoints, implementing connection pooling, and fine-tuning transaction broadcasting strategies to minimize latency and maximize success rates across all supported chains.
< 1 sec
Target Latency
99.9%+
Success Rate SLA
04
Phase 4: Monitoring, Testing & Deployment
We deploy optimized contracts via a secure, phased rollout. We establish real-time monitoring dashboards for key performance indicators (KPIs) and conduct rigorous load testing to validate improvements under simulated mainnet conditions.
Real-Time
KPI Dashboards
Full Regression
Test Suite
Technical & Commercial Details
Router Performance Optimization FAQ
Get clear answers on timelines, process, and outcomes for optimizing your cross-chain router's speed, cost, and reliability.
Our standard optimization sprint takes 2-3 weeks from initial audit to final deployment. Week 1 is dedicated to performance analysis and bottleneck identification. Week 2-3 involve implementing code-level optimizations, gas reduction techniques, and load testing. Complex protocols with multiple liquidity sources may extend to 4 weeks. We provide a detailed project plan within 48 hours of the initial technical review.
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