The MODE Audio MOS-880PRO Digital Audio Processor and AUDIS Acoustic Design & Simulation Software provide a complete hardware-and-software solution for acoustic consultants, system integrators, and touring engineers to design, simulate, deploy, and verify professional sound systems. By combining architectural modeling, electroacoustic simulation, DSP configuration, system measurement, and professional reporting into a single platform, the integrated ecosystem streamlines every stage of system design, deployment, and optimization.
Import architectural 3D CAD models into AUDIS, define room acoustic materials, select loudspeaker models and array types, and automatically calculate optimal line array angles, deployment positions, and audience coverage. GPU-accelerated simulation dynamically switches algorithms based on spatial and frequency characteristics to deliver accurate, full-band sound field predictions, while detailed installation guidelines and simulation reports simplify system planning.
Configure crossovers, delays, EQ, and system alignment virtually before installation, then deploy settings directly to the MOS-880PRO via Ethernet. During commissioning, use the built-in measurement microphone interface and sound card to capture real-world acoustic data, verify system performance against simulation results, fine-tune the system on-site, and generate comprehensive client-ready reports with loudspeaker layouts, simulation heatmaps, measured data, and final tuning parameters.
Built for professional touring and installed sound applications, the MOS-880PRO serves as the hardware foundation of the AUDIS ecosystem. Featuring 4-in/8-out matrix routing, 4x4 Dante/AES67 network audio, high-resolution 16k-tap FIR filtering, 16-band parametric EQ, a 114dB dynamic range, and built-in dynamics protection, it delivers precise audio processing and reliable performance for demanding live sound and permanent installations. The 1U rack-mount processor seamlessly integrates acoustic simulation, DSP deployment, system measurement, and final system optimization into one complete workflow.