Your Operations Cannot Afford a 12-Second Delay.
At the scale of millions of connected devices, a poorly designed synchronisation layer does not just underperform. It becomes an operational emergency.
IoT & Connected Systems
We architect IoT platforms from the edge inward: local processing first, cloud aggregation second, with the reliability your service agreements require at every tier. The data flow from device to dashboard is designed with precision, not assembled from components.
2M+
Connected Devices
<400ms
Sync Latency
99.99%
System Uptime
MQTT/AMQP
Protocol
Engineering Capabilities
The specific disciplines we apply in this domain. Each one is a practice, not a claim.
Edge Computing Architecture
Local processing nodes handle state management and telemetry aggregation before cloud synchronisation, cutting round-trip latency dramatically.
MQTT & AMQP Protocol Design
Broker architectures optimised for high-frequency, low-latency device communication at global scale without message loss.
Real-time Telemetry Pipelines
Stream processing for device data with time-series storage and anomaly detection built into the pipeline from the outset.
Multi-region Device Synchronisation
Distributed state management with conflict resolution protocols that handle concurrent updates across global regions without data loss.
The Challenge
A globally listed consumer electronics manufacturer scaling to 2 million connected devices across 47 countries. Centralised ingestion was producing 12-second device delays in European markets.
The Result
Device sync from 12 seconds to 0.4 seconds. System uptime from 98.2% to 99.99% across 2M+ devices.
Ready to discuss
iot & connected systems?
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