强度计算与校核是复合材料产品设计上重要的环节,而高性能、高效率的计算平台是保证设计计算快而准的不二选择。尽管Linux在桌面领域仅占有不足5%的市场份额,但其良好的扩展性,以及开放源代码和社区服务支持所带来的更为低廉的成本,使Linux成为超级计算机操作系统的首选。本文旨在讨论以PC机为平台使用Linux系统及Scilab软件搭载有效的计算平台满足复合材料设计与校核过程中计算需求。 Strength calculation and check is an important part of the composite product design, and high-performance, high-efficiency computing platform is to ensure that design calculations quickly and accurately the best choice. Although Linux holds less than 5% market share in the desktop space, its good scalability and the cheaper cost of open source and community service support make Linux the # 1 choice for supercomputer operating systems. The purpose of this article is to discuss the computational requirements of using PC systems as a platform for Linux systems and Scilab software to provide an effective computing platform for composite material design and verification.