T1UD-MISDefenseTelecom
Radar / spectrum frequency assignment
Assign frequencies to emitters so interfering pairs never collide — graph-coloring / interference-radius conflict, native to blockade.
Sector
Defense / spectrum management
Likely buyer
Defense spectrum managers; radar OEMs
Hardware gate
Orion
Taxonomy
resource-constrained × accelerating
Live demo — adiabatic sweep on 5 emitters
Ω 9.4 · δ ±12.6 rad/µs · 4000 ns · R_b 9.1 µmEmitters interfere within a radius; maximize the conflict-free assignment.
GTM talk track
'One kernel serves your radar spectrum and a telco's 5G — that's how native this problem is.'
OGSM — product operating frame
Objective
Prove interference-free frequency assignment for a radar network.
Goals
- One defense buyer runs an emitter network
Strategies
- Reuse the interference MIS kernel
- Sovereign deployment
Measures
- Emitters assigned conflict-free
- Spectrum utilization
OBR — outcome-based roadmap
| Horizon | Outcome we create | Buyer behavior change | Result we measure |
|---|---|---|---|
| Now | Buyer sees assignment on an emitter set | Prospect runs the emulated demo on their own instance data | Booked QPU-time evaluation or paid pilot |
| Next | Buyer benchmarks a theater network | Prospect co-designs a scoped benchmark against their incumbent solver | Documented crossover curve; expansion to production instances |
| Later | Buyer procures on-prem | Prospect standardizes on the workflow or buys an on-prem system | Recurring QPU consumption / system sale; reference case |
Fit notes (honesty gate)
Same interference-MIS kernel as telecom; defense buyer + sovereign fit.
Ready to run this on real hardware?
Emulation-verified today — the same program runs on a Pasqal QPU unchanged.