BAROHAN

System-level thermo-fluid simulation for predicting flow rates, pressures, temperatures, and heat transfer across complete fluid networks. The only software of its kind to hold nuclear accreditation. Used in aerospace, power generation, HVAC, oil & gas, and nuclear industries.

Particle-based CFD using the Moving Particle Simulation (MPS) method for free-surface flows, oil sloshing, lubrication, and multiphase problems. No mesh generation required — import directly from CAD. GPU-accelerated for large-scale industrial simulation.

Advanced 3D crack growth and fracture mechanics simulation developed at Cornell University. Works alongside ANSYS, Abaqus, and NASTRAN to simulate arbitrary, non-planar crack propagation under complex loading histories — predicting fatigue life with industry-leading accuracy.

The world's first and only commercial solver for elastomer and rubber fatigue life prediction. FE-code neutral — compatible with Abaqus, ANSYS, and MSC/MARC. Uses patented critical plane analysis to precisely predict where and when cracks will initiate under multiaxial, variable amplitude loading.

High-accuracy forging and metal forming simulation for cold and hot forming, extrusion, ring rolling, and sheet metal processes. Fully automated adaptive meshing eliminates manual setup. Widely used in automotive, aerospace, shipbuilding, medical device, and electronics manufacturing.

End-to-end casting process simulation covering filling, solidification, thermal stress, and heat treatment — for ferrous and non-ferrous materials. Supports Sand, GDC, HPDC, LPDC, Tilt, Centrifugal, and Investment Casting. Mesh capacity exceeding 100 million elements on a single licence.

Illuminates the "black box" of heat treatment through component-level modelling of microstructural phase transformations, hardness evolution, distortion, and residual stress. Enables prediction and control of heat treatment outcomes before costly physical trials.

The world-leading CAE solution for plastic injection moulding simulation. Predicts fill behaviour, warpage, weld lines, and cooling performance before tooling is cut. Compatible with ANSYS, Abaqus, Nastran, LS-DYNA, and all major CAD platforms.

Integrated multiscale modelling platform for predicting material properties from the atomistic to the micrometre scale — covering polymers, composites, nanocomposites, energy materials, thin films, and life science applications. Combines molecular dynamics, DFT, coarse-grained models, and FEM on a single platform.

Multiscale analysis system for composite and heterogeneous materials including fibre-reinforced plastics, metal matrix composites, honeycomb structures, filler dispersions, and lattice geometries. Predicts macroscopic behaviour directly from microstructural data — eliminating conventional material testing overhead.

Comprehensive multidisciplinary platform for design, analysis, and optimisation of turbines, compressors, pumps, and fans — across axial, radial, and mixed-flow configurations. Covers the full workflow from conceptual flow path design through rotor dynamics, bearing analysis, and digital twin development. Trusted by 700+ organisations worldwide.

Complete software suite for piping stress analysis, pressure vessel design, and hydraulic network simulation — covering pipe stress sizing (START-PROF), equipment assessment (EQUIP), and full hydraulic network analysis (HYDROSYSTEM). Designed to meet international codes and standards.

The industry-standard optical engineering software for non-sequential ray tracing and photonic system analysis. Simulates automotive lighting, imaging systems, luminaires, bio-optic instruments, medical devices, displays, and coherent systems with unmatched accuracy and flexibility. Used in 35 countries worldwide.

Simulation software for life science and biomedical engineering applications, enabling virtual testing and performance prediction of medical devices, biological systems, and pharmaceutical components — reducing dependence on costly and time-consuming physical prototyping.