Whether you build electric vehicles or operate grid-scale energy storage, Digital DNA™ gives you chemistry-aware intelligence that extends battery life, prevents failures, and transforms warranty economics.
For EV OEMs, battery performance is the product. Range, reliability, and residual value all trace back to the electrochemical quality of the cells in the pack. Digital DNA™ gives you a continuous genomic view of every battery — from the material it was made from to the condition it's in today.
BMS protocols personalised to each pack's genomic fingerprint — not generic chemistry averages. Unlocks true capacity and extends cycle life.
Thermal runaway precursors identified weeks ahead by correlating BMS signals with material genomic traits.
Accurate SOH assessments backed by genomic provenance support premium used-vehicle valuations and battery leasing.
Every battery's genomic record enables accurate second-life BESS qualification — creating new revenue at end of vehicle life.
Genomic-aware BMS protocols extend usable battery life by up to 3× versus generic charge management.
Thermal runaway precursors detectable weeks before incident via genomic signal correlation.
Chemistry-specific capacity models unlock usable energy that conservative BMS estimates leave on the table.
Data-backed claims, proactive replacement scheduling, and fewer field escapes dramatically reduce liability.
Grid-scale BESS operators need continuous, chemistry-specific health monitoring — enabling dispatch optimisation and maintenance planning years in advance. Digital DNA™ provides exactly that.
Chemistry-specific degradation trajectories projected 12–36 months ahead — giving operators lead time to plan augmentation or replacement.
Genomic health data informs dispatch schedules to minimise degradation rate — extracting maximum value from each cycle.
Container-level thermal runaway risk modelled from individual cell genomics — essential for insurance and community safety.
Genomic-optimised dispatch protocols squeeze more revenue cycles from every MWh installed.
Capacity fade forecasts extending 3 years ahead give operators lead time for informed planning.
Full genomic supply-chain traceability satisfies ESG and regulatory requirements.
Data models aligned with IEC 62619, IEC 62933 and EU Battery Regulation digital passport requirements.
Talk to our OEM and operator solutions team about a deployment designed around your fleet, chemistry, and operational goals.