Design Automation usually refers to electronic design automation, or Design Automation which is a Product configurator. Extending Computer-Aided Design (CAD), automated design and Computer-Automated Design (CAutoD) are more concerned with a broader range of applications, such as automotive engineering, civil engineering, composite material design, control engineering, dynamic system identification, financial systems, industrial equipment, mechatronic systems, steel construction, structural optimisation, and the invention of novel systems.

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  • “计算机自动设计”(英文:Computer-automated_design|Computer-Automated Design, CAutoD)是指将计算机辅助设计或仿真得到的性能评估结果(即设计系统的“输出”)加以分析,然后再用计算机来自动地、最优地调整设计中所涉及的结构和参量(即设计系统的“输入”)。 与“计算机辅助设计(CAD)”不同,计算机自动设计使机助系统闭环,从而自动搜寻最佳设计,能比通过手工调节的CAD更好、更快,将CAD如虎添翼带入21世纪。 【对比】:试验设计(英文:Design of Experiments)的寻优方式通常受到维数限制,试制样机或手工操作次数也有限,而计算机自动设计属“软实验设计”,是智能搜索,对复杂的设计问题尤其能大显身手。如能联接计算机仿真,则无需预先试制样机或手工操作,远比现有的实验设计方法调节得更好、更快、更省成本。 (zh)
  • Design Automation usually refers to electronic design automation, or Design Automation which is a Product configurator. Extending Computer-Aided Design (CAD), automated design and Computer-Automated Design (CAutoD) are more concerned with a broader range of applications, such as automotive engineering, civil engineering, composite material design, control engineering, dynamic system identification, financial systems, industrial equipment, mechatronic systems, steel construction, structural optimisation, and the invention of novel systems. The concept of CAutoD perhaps first appeared in 1963, in the IBM Journal of Research and Development [1], where a computer program was written (1) to search for logic circuits having certain constraints on hardware design and (2) to evaluate these logics in terms of their discriminating ability over samples of the character set they are expected to recognize. More recently, traditional CAD simulation is seen to be transformed to CAutoD by biologically-inspired machine learning or search techniques such as evolutionary computation, including swarm intelligence algorithms[3]. (en)
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  • “计算机自动设计”(英文:Computer-automated_design|Computer-Automated Design, CAutoD)是指将计算机辅助设计或仿真得到的性能评估结果(即设计系统的“输出”)加以分析,然后再用计算机来自动地、最优地调整设计中所涉及的结构和参量(即设计系统的“输入”)。 与“计算机辅助设计(CAD)”不同,计算机自动设计使机助系统闭环,从而自动搜寻最佳设计,能比通过手工调节的CAD更好、更快,将CAD如虎添翼带入21世纪。 【对比】:试验设计(英文:Design of Experiments)的寻优方式通常受到维数限制,试制样机或手工操作次数也有限,而计算机自动设计属“软实验设计”,是智能搜索,对复杂的设计问题尤其能大显身手。如能联接计算机仿真,则无需预先试制样机或手工操作,远比现有的实验设计方法调节得更好、更快、更省成本。 (zh)
  • Design Automation usually refers to electronic design automation, or Design Automation which is a Product configurator. Extending Computer-Aided Design (CAD), automated design and Computer-Automated Design (CAutoD) are more concerned with a broader range of applications, such as automotive engineering, civil engineering, composite material design, control engineering, dynamic system identification, financial systems, industrial equipment, mechatronic systems, steel construction, structural optimisation, and the invention of novel systems. (en)
rdfs:label
  • 计算机自动设计 (zh)
  • Computer-automated design (en)
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