At HeatSync, we solve complex thermal challenges for next-generation electronics and energy systems. Combining deep expertise, cutting-edge simulation, digital twin technology, and practical engineering insight, we deliver cooling solutions that are high-performing, manufacturable, and built to last.
Whether you need early-stage architecture, full-system optimization, or surge engineering support, our team helps you move faster with greater confidence.
Architecture design, simulation strategy, and system optimization.
Multi-physics, multi-scale modeling and real-time performance prediction.
Concept builds, instrumentation, and accelerated stress testing.
Knowledge transfer to strengthen client engineering teams.
Risk analysis, validation, and compliance across development stages.
Digital Twin & Simulation-Driven Design
We create high-fidelity digital twins and physics-based models that accurately predict electrical, thermal, and degradation behavior of battery packs and electronics systems.
This enables you to:
Specialized solutions for EV batteries and energy storage systems. We optimize cooling architectures (air, liquid, immersion, and two-phase) to balance battery longevity, safety, performance, and passenger comfort.
Our digital twin approach helps extend battery life, improve fast-charging capability, and ensure thermal safety across all operating conditions.
From IC packages to high-power AI server racks and data center infrastructure, we design efficient, scalable thermal solutions that handle increasing power densities while maintaining reliability and energy efficiency.
Full-service thermal prototyping and testing capabilities, including thermal-mechanical validation, reliability testing, and performance optimization in our dedicated lab. We turn simulations into proven, manufacturable products.
Flexible, highly qualified thermal engineering talent to close skill gaps or handle surge project demands. We provide experienced engineers, targeted training, and mentoring so your team can execute with confidence.
Fixture design, custom test rigs, and quick-turn builds for concept-to-test speed.
Thermal cycling, airflow characterization, and long-duration endurance testing.
Sensorized tests with data acquisition, calibrated probes, and IR thermography.
CFD/1‑D model correlation to measured data for predictive confidence.
Test plans aligned to performance targets, safety, and relevant standards.
On‑site or remote test witnessing and transparent reporting
Aerospace
Consumer Electronics
Semiconductor & IC Packaging
AI Servers & High-Performance Computing
Electric Vehicles (EV) & Battery Systems
Energy Storage