In this new wave of fast-developing scientific and technological revolution, many new technologies continue to emerge, including system modeling and simulation, model-based systems engineering (MBSE), cyber-physical fusion systems (CPS), digital twins, and digitalization engineering. The pattern of nowadays equipment digitalization projects marked a significant milestone, showing that equipment development is going through a paradigm shift from information age to digital era, an era defined by the integration of AI and digitalization. Every equipment is a cyber-physical fusion system, composed of cyber domains including signal, communication, control, computing, and physical domains like mechanical, fluid, electrical, and thermal.

The modeling and simulation of cyber-physical systems is unarguably the core of equipment digitalization.

MWORKS is a new-generation, independently-developed and controllable platform for scientific computing as well as system modeling and simulation targeted towards digitalization and artificial intelligence fusion. It fully supports the design, simulation, verification, operation, and maintenance of cyber-physical systems.

MWORKS is a digital engineering support platform for industrial equipment.

MWORKS supports model-based requirement analysis, architecture design, simulation verification, virtual test, operation and maintenance, and whole-process management of models. It also facilities digital delivery, system-wide simulation and verification, and full-process coherence of models through multidomain physical fusion, cyber-physical fusion, system-domain fusion, system-system fusion, mechanism-data fusion, and virtual-reality fusion. The platform offers a variety of standardized approaches including algorithms, models, toolboxes, and APPs to support the extension development of professional toolboxes and industry-specific digital engineering platforms.

MWORKS is an open, standardized, and advanced cloud platform for computational simulation.

MWORKS's specification-based open architecture provides a cloud-native platform consisted of scientific computing environments, system modeling and simulation environments, and toolboxes. It provides industry, developers, and schools with an open, advanced, standardized online computational simulation cloud environment. Additionally, MWORKS supports building an interconnected platform and open community for industrial knowledge models founded on international open specifications.

MWORKS is a next-generation scientific computing and system modeling simulation platform that offers a vast array of MATLAB/Simulink functions and an abundance of innovations.

Through the use of Julia, a cutting-edge high-performance computing language, MWORKS offers a scientific computing environment called Syslab. MWORKS supports Julia-based integrated development and debugging, compatible with languages such as Python, C/C++, and M.

By utilizing Modelica, the unified specification for multidomain physical modeling, MWORKS has independently developed a system modeling and simulation environment Sysplorer. It supports a variety of development paradigms such as block diagrams, state machines, and physical modeling.

Along with physical model libraries of mechanical, electrical, fluid, thermal models, MWORKS offers an extensive collection of toolboxes covering mathematics, artificial intelligence, graphics, signals, communication, and control. With ongoing innovation and development, MWORKS encompasses a comprehensive set of MATLAB/Simulink functions, from the fundamental platform to the toolboxes.