Abstract: To effectively enhance the efficiency and quality of collaborative design and execution of multi-disciplinary numerical calculation of reactor physics, thermal engineering, shielding and fuel analysis, a high-scalability and high-stability collaborative design platform for multi-disciplinary numerical calculation of reactors has been established. On the basis of cluster management and service-oriented encapsulation of complex heterogeneous high-performance computing resources, such as supercomputers and workstations, this platform achieves full lifecycle management of calculation codes in multiple disciplines, from deployment, workflow design, debugging and operation tracking to the outputs. It provides a unified, standardized, customized, on-demand reusable workflow design, job scheduling and data management mechanism, effectively supporting multi-projects and multi-disciplinary numerical calculations of nuclear reactors.