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Digital twin & predictive analytics.

A live, validated model of your electrical infrastructure — scenario simulation, failure prediction, and real-time risk telemetry.

The model is the deliverable.

Validated digital twin built from your existing studies, drawings, and SCADA data

Scenario simulation — what-if load, contingency, and protection re-coordination

Failure-mode prediction using historical telemetry and physics-based degradation models

Real-time risk telemetry with site, region, and global rollups

API endpoints to plug into your CMMS, EAM, or risk dashboard

Audit-grade — every prediction backed by a re-runnable model state

From snapshots to a live system of record.

Traditional power-system studies are snapshots — accurate the day they're signed, decreasingly accurate every day after. A digital twin closes that gap. We rebuild your network in industry-standard simulation software, validate it against real telemetry, and connect it to your live data sources so the model evolves with your facility.

The value isn't novelty — it's that the next study, the next compliance audit, the next risk briefing all start from a model that already reflects your current state. Findings get faster. Mitigations get tested before they're deployed. Insurers and auditors see a system of record, not a sequence of disconnected reports.

Deliverables

What lands in your stack.

01

Validated digital twin

ETAP / EasyPower model verified against real load and fault telemetry.

02

Scenario library

Pre-built what-if scenarios for contingency, load growth, and protection changes.

03

Predictive risk dashboard

Live view of failure-mode probability, criticality, and recommended actions.

04

API integration

REST + webhook endpoints for your CMMS, EAM, or BI tool.

05

Quarterly recalibration

Engineering review and recalibration against new telemetry and field changes.

06

Engineer support channel

Named lead engineer for model questions and scenario builds.

Methodology

Building a twin worth trusting.

01

Scope & Site Survey

On-site walk-down, single-line diagram review, nameplate verification, and protective device setting capture by a lead engineer.

Scope · Fee · Named lead
02

Modelling & Analysis

Network rebuilt in industry-standard software. Coupled studies — load flow, short circuit, arc flash, protection coordination.

Validated model · Field data
03

Findings & Mitigation

Every finding ranked by risk, with concrete mitigation paths — relay setting changes, breaker upgrades, PPE labelling.

Risk register · Mitigations
04

Implementation & Verification

Re-issue after commissioning, retest, and sign-off. Closure on paper and on the floor — labelled, documented, signed.

Signed report · Labels
Modelling standards

Audit-grade by design.

IEC 61850IEC 60909IEEE 1584ISO 55000IEC 62443IEC 61850IEC 60909IEEE 1584ISO 55000IEC 62443
Notes & Queries

Common questions.

01

We scope per site after the initial walk-down. A fixed-fee proposal follows within the agreed quoting window with a named lead engineer and a deliverable list.

02

Yes. Deliverables align with NFPA 70E, IEEE 1584, IEC 60364, IEC 61482, ATEX, IECEx, BSI, and AS/NZS, and are issued by certified power systems engineers.

03

Most analytical work is offline from data we capture. Field testing is scheduled around your operations with planned outage windows or live techniques where safe and standards-compliant.

Ready to start the engagement?

Tell us about your project. We come back with a fixed scope, fixed fee, and a named lead engineer.