The Pulse: Real-Time Blockchain Payment Detection
Built a resilient scanner that detects valid on-chain payments within seconds while minimizing infrastructure waste.
System Profile
Detection Model
Event-driven wake signals + adaptive polling windows
Reliability Layer
Confirmation-aware settlement to protect against chain reorg events
Operational Objective
Lower idle resource waste while preserving near real-time confirmation feedback
Adaptive Detection Engine
Sleep ModeSleep mode active
Minimal baseline activity with low overhead
Live Log Feed
Workflow Overview
How intent signals, scanner state, and settlement verification connect end-to-end.
Intent Creation
A payment intent enters the system and opens a short active detection window.
Turbo Activation
Redis wake events move the scanner from standby to high-frequency polling.
On-Chain Detection
The scanner identifies matching transfers and tracks confirmation progression.
Verified Fulfillment
Settlement is committed only after confirmation thresholds pass stability checks.
User Intent
Payment created
Redis Pub/Sub
Wake signal dispatch
Scanner Engine
On-chain detection window
Database
Verified fulfillment
Reorg Protection Layer
Blockchain networks occasionally reorganize recent blocks. We built safeguards that delay fulfillment until confirmations are stable, preventing duplicate or invalid settlement events.
Impact Gauge
Performance improvements from adaptive detection and event-driven wake signals.
The Engineering Standard
In on-chain payments, infrastructure is part of the customer experience. Fast confirmations, accurate settlement, and reliable transaction handling directly shape trust.
We built an engine designed for systems where every payment matters.