LoomLab
LIVEElectrical digital twin platform
Clients get a computable electrical twin their engineers can stress under load, fault, and change scenarios — then keep as the as-maintained record through manufacture and operations.
Digital twins and simulation for industrially complex systems — electrical, physical, computational, and geodetic — across oil & gas, renewables, mining, defence, unmanned, marine, and critical infrastructure.
Electrical · spatial · acoustic · defence · unmanned · infrastructure
Why NeuroNetIQ
Digital twins and simulation for industrially complex systems: electrical, physical, computational, and geodetic — delivered with commercial clarity.
Every engagement starts from domain physics, operational constraints, and failure modes. Software is how we encode that knowledge — not a substitute for understanding the system.
MethodologyWe prove value on a scoped diagnostic or pilot — a working model, validation findings, and a clear next step — before asking for a programme-scale commitment.
Diagnostic engagementTwins and tools must survive contractors, turnarounds, and fleet change. We deliver models and software internal teams can own — not slideware that dies at project close.
As-maintained twinsSystems intelligence
Electrical twins, geospatial models, acoustic and survey workflows, defence and unmanned platforms — one pipeline from sensing to assured operation.
See how this maps to energy, defence, unmanned, and simulation markets.
Our methodology →What we do
Custom engineering software, electrical systems consultancy, offshore/survey technology, and product incubation — each tied to domain physics, not generic IT.
Custom tooling, digital twin platforms, dashboarding, and AI-assisted engineering systems built for complex, real-world deployment constraints.
Learn moreHarness architecture, electrical system design review, validation logic, and embedded/ECU integration for complex industrial, energy, marine, and unmanned platforms.
Learn moreSystems integration and software for hydrographic survey, vessel telemetry, subsea acoustic workflows, and offshore field operations.
Learn moreVenture building, prototype-to-product strategy, technical due diligence, and commercialisation of engineering IP.
Learn moreProducts
LoomLab for electrical twins, SurveyIQ for survey workflows, Cortex for governed ops — each with a clear client outcome.
Electrical digital twin platform
Clients get a computable electrical twin their engineers can stress under load, fault, and change scenarios — then keep as the as-maintained record through manufacture and operations.
Operations command surface
For NeuroNetIQ and partner programmes: a single governed surface for commercial, delivery, and portfolio state — so engineering work stays aligned with contracts and milestones.
Hydrographic survey & subsea analysis
Survey and offshore teams get acquisition-to-delivery software with QC that keeps pace with the field — integrated with vessel, USV, and sensor platforms.
Sectors
Each market page explains how we serve that industry, a concrete use case, and an illustrative programme — never fake client logos.
Decision-grade twins
Not page counts. Not vanity metrics. Engineering questions that decide whether capital, outages, and missions proceed with evidence.
Model proposed brownfield or new-build electrical architecture under load, fault, and contingency scenarios before outage windows or hardware commits.
Electrical systemsReconcile drawings, contractor packages, and live configuration into a maintainable twin that survives turnarounds and fleet change.
Asset managementExpose undocumented boundaries across power, sensing, compute, and ops data before integration or mission software absorbs the risk.
MethodologyStress USV, AUV, UAV, and naval electrical architectures under real mission profiles — thermal, peak load, and sensor/compute demand included.
Unmanned systemsIndustry context
Framed as sector reality — not NeuroNetIQ performance claims. Magnitudes vary by asset class; use as context for why late electrical and integration risk is expensive.
Process, energy, and heavy industrial sites routinely price outages in this band — electrical and integration faults are among the expensive failure modes.
Industry context (order-of-magnitude; varies by asset class)
Hydrocarbon, marine, and industrial estates accumulate modifications faster than documentation. As-built and as-maintained rarely agree without a computable model.
Industry context — typical brownfield asset lifecycle
Power, autonomy, survey, and mission stacks often meet for the first time on the test bench or in the field — after capital and schedule are committed.
Industry pattern across complex platform programmes
Dashboards without physics validation, change control, or operational ownership never become decision-grade. Architecture and governance decide whether a twin earns its keep.
Industry pattern — digital twin programme failure modes
How we engage
A deliberate path from first conversation to sustained twin ownership. Each stage is independently useful — expand only when value is proven. Full methodology.
Direct technical conversation about the system, constraint, and commercial objective. No generic sales deck — we decide together if a paid first step makes sense.
You receive
A clear read on fit: whether the problem is electrical twin, survey/software, multi-domain architecture, or something we should decline. Agreed candidate scope for a diagnostic if warranted.
Complimentary
Book a discovery callPaid engineering on one real scope: power margins, interface gaps, configuration drift, or workflow bottlenecks. Generates value even if you never proceed further.
You receive
Scoped model or technical review of one live system; prioritised risks; written recommendation on pilot, build, advisory — or stop.
£2k–£5k
Request a diagnosticFixed-scope delivery you can put in front of engineering and commercial stakeholders — proof that the approach works on your system, not a slide.
You receive
Bounded digital twin or software deliverable, configured validation, stress analysis where relevant, and documentation your team can evaluate before a larger programme.
£10k–£40k
Request a pilotSustained ownership of twins and tools after the pilot — so as-maintained state and validation rules stay alive through change.
You receive
Platform licensing (e.g. LoomLab), architecture reviews, and embedded engineering capability structured as licence, retainer, or milestone advisory.
From £10k/yr
Discuss ongoing workAbout
NeuroNetIQ is an engineering systems intelligence company. We build digital twins, multi-domain simulation software, and systems consultancy for industrially and commercially complex platforms — electrical, physical, computational, and geodetic. Software is the delivery mechanism; engineering domain knowledge is the value.
A 30-minute discovery call frames the engineering risk. A diagnostic produces a scoped model and findings in one to two weeks — before you commit to a larger programme.