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T1HAMPharmaceuticals & HealthcareAdvanced Materials

Microtubule / excitonic simulation benchmark

Simulate a reduced excitonic Hamiltonian in the tubulin tryptophan-network universality class — the repo's science flagship. Small instances verify classically; larger disordered 2D are QPU-justified.

Sector
Quantum biology / photophysics
Likely buyer
Research institutes; pharma-adjacent science; national labs
Named precedent
Repo mt_qc_usecase.md; nanophotonic-analog literature
Hardware gate
Single-excitation is classically easy; multi-excitation + 2D disorder → QPU
Taxonomy
capability-absent × enabling
No live demo yet — Excitonic-transport simulation runner is on the roadmap (same class as the materials kernel). Demonstrated via the mt_qc_usecase.md analysis and classical baseline.. The paradigm-honest position: this use case is demonstrated with crossover analysis, not theater.
GTM talk track

'This is the honest quantum-simulation story: small instances we check on a laptop, larger disordered ones we can't — and that boundary, mapped precisely, is the deliverable.'

OGSM — product operating frame

Objective

Deliver the flagship science benchmark end-to-end.

Goals
  • One institute runs single-exciton vs exact diagonalization
  • Crossover into multi-excitation documented
Strategies
  • Use the XY/dipole reduced model
  • Retain the classical baseline throughout
Measures
  • Instances simulated
  • Crossover point per geometry

OBR — outcome-based roadmap

HorizonOutcome we createBuyer behavior changeResult we measure
NowInstitute sees single-exciton vs exact diagonalizationProspect runs the emulated demo on their own instance dataBooked QPU-time evaluation or paid pilot
NextInstitute pushes into multi-excitation / 2D disorderProspect co-designs a scoped benchmark against their incumbent solverDocumented crossover curve; expansion to production instances
LaterInstitute runs beyond-classical on QPUProspect standardizes on the workflow or buys an on-prem systemRecurring QPU consumption / system sale; reference case
Fit notes (honesty gate)

The science credibility flagship. Honest: single-exciton is trivial classically; hardness comes from multi-excitation sectors and 2D disorder. The crossover is itself the product.

Ready to run this on real hardware?
Emulation-verified today — the same program runs on a Pasqal QPU unchanged.
Book QPU timeEvaluate an on-prem system