01
Edge nodes
Wireless sensors watch every rack — leak contact, temperature, humidity, vibration — and raise local alarms even if the gateway drops offline.
Wireless leak detection and cooling telemetry for high-density AI racks. Live in 90 seconds. No DCIM overhaul.
The stakes
Liquid-related losses are ~24% of total data center loss costs (Swiss Re, 15-year study). Threshold-based monitoring catches the problem after it starts. Cable-based DCIM rollouts take months.
How it works
Sensors at the rack. Gateway at the row. Cloud for everything else.
01
Wireless sensors watch every rack — leak contact, temperature, humidity, vibration — and raise local alarms even if the gateway drops offline.
02
A row-level gateway buffers signal, catches drift from baseline, and keeps operators aware through network interruptions.
03
Dashboards, alerts, webhooks, and integrations connect always-on visibility to the workflows operators already trust.
Live signal
Per-rack telemetry over WebSocket and webhooks. Plugs into Grafana, Datadog, PagerDuty, or whatever your team already runs.
Rack A17 · Row 3 · example UI
Normal · protected
Sig 01
18%
Leak contact
Sig 02
42%
Temperature
Sig 03
31%
Humidity
Sig 04
55%
Vibration
Anomaly engine
Baseline stable. No correlated leak, humidity, or vibration event in the last 24h.
Built for
Too heavy for Vertiv/Schneider. Too slow for cable-based DCIM. Fast enough to start protecting racks this quarter.
Who's behind this
Pouya Mansouri
Hardware and firmware engineer building Fidior to close the protection telemetry gap in high-density AI — wireless from the rack, API-first to the cloud, operator-grade from day one.
LinkedIn →Pilot program
Hardware on us. 30–60 days. 5–10 racks. We install, you keep the data. Design-partner pilots running now.
Talk to Fidior →