The Industrial Flagship of the Anabrid Ecosystem
Within the Anabrid product family, the REDAC represents the "Enterprise Tier." It moves beyond the laboratory bench and into the professional data center. By utilizing a high-density array of discrete analog components—such as integrators, multipliers, and summers—the REDAC solves non-linear differential equations in real-time. Unlike digital systems that approximate solutions through iterative steps, the REDAC uses continuous physical processes, providing instantaneous results with zero discretization error and maximum precision.
Key Features & Industrial Benefits
Software-Defined Hybrid Power: The REDAC eliminates manual patch cables. It features a sophisticated, digitally controlled CMOS switching matrix, allowing engineers to "wire" the analog computer via a high-level software stack.
Seamless Hybrid Integration: Control your analog simulations directly from a digital host using Python or C++. This hybrid approach allows for automated parameter sweeps, optimization loops, and easy integration into existing digital workflows and CI/CD pipelines.
Datacenter-Ready Scalability: Housed in professional 19-inch rack-mount enclosures, the REDAC is built to scale. Its modular "Blade" architecture allows you to expand your computational power from a single unit to a massive parallel cluster, depending on the complexity of your models.
Unmatched Energy Efficiency: For high-performance simulation tasks, the REDAC consumes significantly less power than traditional GPU or CPU clusters, offering a sustainable, cost-effective path for large-scale scientific computing.