Introducing DICE Computing
At DICE Computing, we redefine what is computationally possible for granular systems — from dry bulk solids to particles suspended in fluids.
Our paradigm-changing simulation methods empower industry to solve scale-up challenges seamlessly, bridging the gap between grain-scale physics and full engineering system performance.
Traditional particle-resolved approaches quickly become computationally prohibitive when applied to large-scale, long-duration industrial problems. DICE Computing overcomes this barrier. Our advanced computational frameworks are specifically designed to model vast particle populations over realistic operational timescales — delivering actionable insights where conventional methods fail.
Our flagship computational product, Cubic, uses a unique approach to industrial challenges.
DICE Computing specializes in
Bulk solids handling
Study particle flow, segregation, and blending behavior in storage, transfer, and handling systems.
Mining and comminution
Evaluate how operating conditions affect dry and wet machinery efficiency under breakage, attrition, and wear.
Process engineers
Compare design options and operating strategies with simulation outputs that support practical decisions.
Pharmaceuticals
Analyze blending and tableting processes to ensure content uniformity, quality, and scale-up reliability.
Food Technology
Evaluate mixing, drying, and particulate handling operations to optimize product consistency and process efficiency.
Agriculture
Asses grain handling, sorting, and storage behaviour to improve yield and operational performance.