SOLUTIONS
AI AND HIGH-PERFORMANCE COMPUTING
VERTICAL POWER DELIVERY
Redefining how kilowatt-class artificial intelligence (AI) and high performance computing (HPC) processors are powered, Empower’s integrated voltage regulators (IVRs) enable scalable under-, near- and in-package conversions, bringing regulation closer to the load to minimize losses, reduce latency and improve transient response. This flexible architecture supports rising current densities, tighter voltage margins and evolving package designs – unlocking higher performance per watt while simplifying system design for next-generation processors.
CHIPLET POWER IVR
Integrated voltage regulators are a key enabler of 2.5D and 3D chiplet architectures powering advanced systems-on-chip (SoCs). Empower’s IVR solutions deliver precise, high-density power within, between and alongside chiplets, supporting diverse functions such as compute, I/O and HBM. By bringing regulation closer to each die, IVRs enable flexible integration of heterogeneous chiplets in next-generation packages.
System power IVR
Empower’s system power solutions for embedded platforms such as systems-on-module (SoMs) and computers-on-module (CoMs) deliver fully integrated and compact power architectures. High-density IVRs minimize solution size while providing configurable multi-rail support to meet diverse processor and peripheral needs. With simplified design and rapid reconfiguration, Empower enables easy integration and accelerates time to market for prototypes and production-ready designs.
POWER INTEGRITY
SILICON CAPACITORS
Empower’s ECAP™ silicon capacitor solutions enable new levels of power integrity for advanced processors and SoCs. Featuring ultralow equivalent series inductance (ESL) and equivalent series resistance (ESR), wide bandwidth, and single- or multi-domain architectures, they deliver stable, high-performance decoupling with high capacitance density in an ultracompact and ultrathin form factor. Solutions support substrate embedding and die/land-side mounting, with no DC or AC derating, no aging and no temperature drift. Available as a standard portfolio or fully custom designs.