Clyr
AI equipment control

Pool Autopilot

Old-school automation runs one pump schedule forever. Clyr Pool Autopilot analyzes chemistry, weather, and usage to pick the exact pump speed and salt output your water needs right now—cutting energy, avoiding overdosing, and extending equipment life.

Pair with controllersSee sustainability wins
AI

🔍 Monitoring pool chemistry...

Chlorine

1.2

ppm

Pump Speed

1800

RPM

Salt Output

45

%

Why the status quo wastes energy

Fixed schedules ignore water health

Most “automation” boxes run the same pump RPM every day and never coordinate with salt cells. The result is high energy bills, overworked cells, and no relationship to actual chlorine demand.

  • Always-on pump speeds: set once during install, rarely optimized for seasons.
  • Salt cells guess: output is fixed so chlorine spikes after rain or parties.
  • No feedback loop: water tests never inform schedules.

Energy data aggregated from Clyr service partners shows 18–32% wasted runtime on legacy setups.

Fixed schedule vs intelligent modulation

Comparison of fixed pump schedule versus Clyr intelligent modulationPump speed (RPM) over a summer weekStorm recovery boostLegacy fixed RPM (3450)Energy wastedClyr variable RPM

Clyr Autopilot reads chemistry every few minutes, forecasts heat, and only ramps when water conditions demand circulation or chlorine production.

Dynamic control

We orchestrate the entire pad in real time

Autopilot fuses data from sensors, weather models, and usage patterns to decide the right move every 5 minutes.

Chemistry intake

ORP, pH, temperature, and flow readings stream into our edge controller and cloud twin.

Demand forecast

We blend 7-day weather, service schedules, and bather predictions to anticipate chlorine demand.

Equipment choreograph

Pumps, salt cells, and CO2 regulators ramp to precise setpoints using closed-loop PID control.

Continuous learning

Every cycle tunes the model—saver days after storms tighten runtime by another 5-8%.

Measured impact

Less energy, less chemical burn, longer hardware life

Pools on Clyr Autopilot run only as hard as conditions require. That means lower bills and fewer emergency repairs.

  • 22% average energy savings: Dynamic RPM scheduling cuts churn.
  • 40% fewer salt cell cleanings: Cells idle when chlorine is stable.
  • Predictable clarity: Chemistry holds target ranges 95% of the season.

Energy saved

8.4 MWh

Per 100 pools annually

Salt cell life

+3 yrs

Average extension

Manual visits avoided

-18%

Less emergency service

Payback

10 months

Typical ROI with energy rebates

Data aggregated from Clyr beta deployments across Arizona, Florida, and Texas during 2024–2025 season.