think hybrid
anabrid combines analog and digital technology to create a hybrid infrastructure for industrial real-time solutions. Whether it’s highly dynamic robotics control, smart grid optimization, or predictive maintenance, anabrid efficiently solves complex challenges and ensures technological competitiveness.
Hybrid Infrastructure
Hardware, digital interfaces, firmware, compiler, and industry-standard APIs - integrated into one coherent stack. Every component at anabrid is built toward this architecture: from the REDAC hardware to the hybrid compiler. The result is a computing infrastructure that is faster, more energy-efficient, and purpose-built for ultra energy efficient real-time computing at industrial scale.
One Paradigm, Four Scales
From university curricula and research labs to edge computing, industrial R&D, and high-performance computing — anabrid's reconfigurable hybrid computers address a wide range of real-time workloads. Trajectory planning in robotics, computational fluid dynamics, signal preprocessing, high-frequency trading. One architecture, built for the post-Moore era - from the classroom to the data center.
Applications
Our hybrid computing approach is validated across European research institutions and university labs. First industry projects are running. anabrid's systems are built for ODE and PDE workloads, enabling researchers and engineers to run continuous-time simulations faster and more energy-efficiently than conventional HPC.
See it in action, through one of our first real-world applications: The Merlin Project
