What it does
Automotive-grade safety on a light, low-speed platform
Reconstructs a failed sensor's reading from its neighbours
Recovers itself from transient faults without a technician
Features โ built vs lab
โFull fail-safe + ASIL-D-grade
โSpeed / load derating
โAutonomic self-recovery
โLocal EV certification
How it compares to the giants
| Capability | Typical | Aumtrix |
|---|---|---|
| Predictive thermal-runaway | no | yes |
| Self-healing sensors | no | yes |
| Fail-safe by default (opens on any doubt) | varies | always |
| Signed, tamper-evident health record | no | yes |
| Predictive thermal-runaway warning | some | yes |
| Self-healing โ rebuilds a failed sensor from peers | rare | yes |
| One sovereign core across every application | per-vendor | one core |
| On-device carbon-saving ledger | no | yes |
| Zero third-party dependency | no | yes |
How it works
01
Sense
If one sensor fails, its value is rebuilt from neighbouring cells so the system keeps a full picture.
02
Recover
Transient faults are cleared automatically through a graded recovery sequence.
03
Derate
Power eases back smoothly with speed and load rather than cutting out abruptly.
Live status
systemโ operational
safety statefail-safe by design
powered by.aum
Specs
Profile: 4W
Cells: ~96-144S
Autonomy: on
Work with us
Honest note: features marked โ are built + tested today; โ are the lab / certification phase (real-cell validation, accredited certification). We don't claim lab results we haven't earned.
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