Engineering system-level control for more stable, resilient devices
Nashoba Technologies LLC is a veteran-led engineering company focused on embedded control systems that improve runtime stability, thermal management, and operational resilience in lithium-powered and connected devices.
Our core platform, the Nashoba Intelligent Control System (NICS), operates above the battery management system and below the operating system, providing a hardware-level control layer that interprets telemetry and supports stable system behavior in real time.
What We Build
Nashoba Technologies is developing control architecture for platforms where runtime loss, thermal buildup, unstable power behavior, and communication variability can directly affect performance and continuity. NICS is designed to interpret these conditions together and respond with deterministic, policy-based control.
Deterministic control instead of reactive management
Many device failures and performance losses happen because systems react too late to changing conditions. NICS was developed to identify trend shifts early and apply policy-based control decisions before instability escalates into larger operational problems.
Hardware-level system awareness
Positioned above the BMS and below the OS, NICS continuously interprets telemetry from power, thermal, and communication subsystems. This supports more stable behavior when workloads, temperatures, or signal conditions change rapidly.
Built and validated on real hardware
Nashoba Technologies validates control behavior directly on live hardware platforms under real load conditions. Tablets, embedded systems, and power-focused reference programs are used to demonstrate how NICS performs in operational environments.
How We Work
We focus on practical engineering progress, real hardware validation, and partner-aligned integration rather than purely theoretical modeling.
Evaluate on real platforms
Test control behavior under live workloads, changing thermal conditions, and real device constraints.
Support pilot and integration planning
Work with OEM, ODM, battery, and embedded partners on evaluation, alignment, pilot readiness, and deployment planning.
Design for portability
Keep the core control architecture reusable across multiple device classes, battery systems, and interfaces.
Advance toward deployment
Current development is focused on expanding NICS into a more integrated, partner-ready platform with broader hardware interoperability and repeatable evaluation readiness.
Current Focus
Current development is centered on expanding NICS from validated telemetry-driven control logic into a more integrated, partner-ready platform. This includes broader hardware interoperability, external system communication, and progression toward repeatable evaluation across partner environments.
Runtime, thermal, and power policy
NICS continues to evolve as a system-level control layer designed to preserve runtime, manage thermal behavior, and reduce avoidable stress under variable operating conditions.
External system communication
Integration paths such as CAN communication expand compatibility with external battery management systems and embedded platforms, supporting broader deployment options.
Partner-ready evaluation
Development is progressing toward a stable embedded implementation that supports repeatable evaluation, demonstration, and alignment with partner hardware environments.
Evaluation and Collaboration
NICS is available for pilot evaluation, integration discussions, and collaboration with OEMs, ODMs, battery manufacturers, and embedded system partners.