Power space-based solar scheduling with real-time context

Stream rectenna demand, cloud attenuation, and constellation constraints in real time — fueling Beam-IQ microwave beam assignment, tiered classical/QAOA solvers, and seven-panel operational dashboards on Kryptur infrastructure.

Top research capabilities

Recognised among leading quantum SBSP scheduling platforms, Kryptur advances smarter rectenna assignment through industry-leading hybrid classical/QAOA solvers, ERA5 weather ingestion, and live Hetzner VPS API infrastructure.

Beam IQ 1.0™

Seven-panel operational dashboard replaces two-panel charts with mission KPI block and emoji-free output.

7

ERA5 Weather Fill

Open-Meteo and Copernicus ERA5 cache auto-fill cloud cover when rectenna inputs omit weather.

40

Tiered Solvers

Classical greedy for small constellations; QAOA simulation gated for 25–30 rectennas.

4

POST /schedule API

Stable JSON contract — cities, n_satellites, forecast_hours, solver_mode — proxied via Kryptur.

REST

MWIS Scheduling

Maximum-weight independent set encodes beam exclusion constraints and revenue weights.

NP-hard

Kryptur Research

Partner with quantum R&D experts across SBSP scheduling, visualization, and web frontend parity.

SBSP

Smarter impact powered by Kryptur

Kryptur Research Summit · 30 June 2026, 12 PM ET

Unlock expert insights on quantum SBSP scheduling

Optimize rectenna assignment outcomes from ERA5 weather validation and QAOA tier investments.

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API Beam IQ 1.0 · POST /schedule

Same-origin proxy at /api/beam-iq/schedule forwards JSON payloads to the Hetzner Beam-IQ backend with your x-api-key header. Request body: cities[], n_satellites, forecast_hours, solver_mode (classical or quantum_sim).

Step 01

Service consent

This console submits rectenna coordinates, demand and optional cloud data to the Beam-IQ scheduling endpoint to compute an optimal beam schedule. Continuing confirms you consent to this data being sent to the API.

Step 02

API key

Enter the key issued for your Beam-IQ account. It is sent as the x-api-key header and never stored.

Step 03

Select your sector

This contextualises the schedule for reporting only — it does not change the solver.

Step 04

Add rectennas

Provide each rectenna's coordinates and demand. Leave cloud cover blank to auto-fill from Open-Meteo / Copernicus ERA5.

NameLatLonDemand (MW)Cloud (0–1)
0 rectennas loaded
Step 05

Satellites & forecast window

Step 06

Review configuration

Sector
Rectennas
0
Satellites
1
Forecast hours
0
Solver mode
(Tier )
Step 07

Schedule result

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