API Documentation
🚀 API Endpoints v3.16.1 - Dynamic Gas Calculation
Base URL
http://167.172.213.70:12346
✨ Live server with dynamic gas calculation system
Test API
API Categories
🔗 Blockchain Data
GET /v1/data/block/latest- Latest blockGET /v1/data/block/{index}- Block by indexGET /v1/peers- Network peersGET /v1/consensus/status- Consensus status
⛏️ Mining & Rewards
POST /v1/ingest/block- Submit mining blockGET /v1/rewards/{address}- Get rewardsGET /v1/rewards/leaderboard- Leaderboard
🔐 Wallet Management
POST /v1/wallet/register- Register walletPOST /v1/wallet/verify- Verify wallet
📦 IPFS Data
GET /v1/ipfs/user/{address}- User IPFS dataGET /v1/ipfs/stats/{address}- IPFS statisticsGET /v1/ipfs/download/{address}- Download data
Rate Limits
🚀 Download COINjecture CLI v3.16.1
✨ NEW: Dynamic Gas Calculation System - IPFS-based gas costs (38K-600K+ gas range)
🚀 Quick Start Guide
🍎 macOS
- Download the Python package above
- Extract and run
./install.sh - Start with
./start_coinjecture.sh - Choose "Interactive Menu" for guided experience
- Start mining with dynamic gas calculation! 🚀
🪟 Windows
- Download the Python package above
- Extract and run
install.sh - Start with
start_coinjecture.bat - Choose "Interactive Menu" for guided experience
- Start mining with dynamic gas calculation! 🚀
🐧 Linux
- Download the Python package above
- Extract and run
./install.sh - Start with
./start_coinjecture.sh - Choose "Interactive Menu" for guided experience
- Start mining with dynamic gas calculation! 🚀
✨ What's New in v3.16.1
⛽ Dynamic Gas Calculation
IPFS-based gas costs scaling with computational complexity (38K-600K+ gas range)
🔧 Enhanced CLI
All commands now support dynamic gas calculation with improved error handling
🌐 Live Integration
Real-time gas calculation during mining with live server connectivity
📦 Complete Packages
Ready-to-use packages for all platforms with automated installation
Critical Complex Equilibrium Proof
Mathematical Foundation
Exponential Dimensional Tokenomics
Complete mathematical framework for multi-scale cryptocurrency stability, including critical complex equilibrium proof and exponential dimensional tokenomics.
- ✅ Critical Complex Equilibrium Proof
- ✅ Exponential Dimensional Tokenomics
- ✅ Consensus Stability Analysis
- ✅ Mathematical Rigor & Peer Review Ready
- ✅ Academic Standard
Proof Overview
This comprehensive mathematical framework establishes the theoretical foundation for COINjecture's blockchain architecture, demonstrating:
- Critical Complex Equilibrium: Derivation of the Satoshi Constant $\eta = \lambda = \frac{1}{\sqrt{2}}$ from unit circle stability constraints
- Exponential Dimensional Scales: Proof that dimensional economic scales follow exponential decay $D_n = e^{-\eta t_n}$
- Fundamental Constants: Demonstration that golden ratio, Euler's number, and powers of two emerge naturally
- Stability Guarantees: Provable exponential convergence and perturbation resistance
Academic Standards
This proof follows rigorous mathematical standards and is suitable for:
- Academic peer review
- Cryptocurrency research
- Blockchain protocol analysis
- Mathematical verification
🔍 COINjecture Blockchain Explorer v3.16.1
📋 Recent Transactions (Last 10 Blocks)
⚡ Real-Time Problem Solving Feed
🔴 Live Problem Solving Stream
📦 Complete Block Data Explorer
🧮 Computational Complexity Analysis
📊 Problem Complexity Distribution
⚡ Energy Consumption Analysis
📈 Problem Size Distribution
⏱️ Solve Time vs Problem Size
🔍 Detailed Complexity Metrics
🏪 COINjecture Data Marketplace v3.16.1
🔬 Research Data Products
CSV/JSON files containing: Problem sizes, solve times, memory usage, algorithm performance metrics, and energy consumption data from real blockchain computations.
subset_sum_20_items.csv
Raw blockchain data including: Problem definitions, solution paths, verification proofs, and complete computational traces stored on IPFS.
QmXxXxXx.../proof_bundle.json
Performance metrics including: Hash rates, energy consumption, CPU utilization, memory usage, and optimization patterns from real mining operations.
mining_efficiency_2024.csv
Comparative analysis including: Brute force vs dynamic programming vs greedy algorithms, performance across different problem sizes, and optimization strategies.
algorithm_benchmarks.json
🔐 Data Quality & Technical Specifications
Every data point is cryptographically verified and stored on-chain. No synthetic or simulated data.
Each record includes: timestamp, problem type, size, solve time, memory usage, CPU cycles, energy consumption, and algorithm used.
Data is updated with every new block mined. Live API access to the latest computational results as they're generated.
Data is provided in CSV, JSON, and Parquet formats with complete documentation and schema definitions.
All computational proofs are stored on IPFS with content-addressed hashes, ensuring data integrity and permanent availability.
This is the only source of real-world computational complexity data from a working blockchain consensus mechanism.
💰 Pricing Tiers
Basic
- ✅ 1,000 computational records
- ✅ CSV & JSON formats
- ✅ Basic complexity metrics
- ✅ 30-day access
- ✅ Email support
Professional
- ✅ 10,000 computational records
- ✅ All formats (CSV, JSON, Parquet)
- ✅ Complete IPFS proofs
- ✅ Real-time API access
- ✅ 90-day access
- ✅ Priority support
Enterprise
- ✅ Unlimited records
- ✅ All formats + custom exports
- ✅ Complete IPFS archive
- ✅ Live data streaming
- ✅ 1-year access
- ✅ Dedicated support
- ✅ Custom data processing
📥 Download Sample Data
Try before you buy - download sample datasets to explore our data quality
🔌 Live API Demo
Test our API endpoints with real-time data
Click a button to test the API...
📞 Get Started Today
Ready to access our computational data? Contact us to get started.