量子系统通过相互作用在彼此之间产生强有力的影响,因此对设计的规格和性能非常敏感。
Quantum electronic systems are strongly influenced by interactions both within and between nanoparticles, and hence are extremely sensitive to the quality and dimensions of the structure.
在鉴定阶段,我们试图通过估计其相互作用和线性相关(主要的)来更好地理解系统。在这里,将使用全因子和分数因子设计。
In the characterization phase, we try to better understand the system by estimating interactions and linear (main) effects. Here, full-factorial and fractional-factorial designs are used.
Gauss系统能从以下方面给予描述:它是一个非常有效的数据处理者,一种全面的程序设计语言,一个内部相互作用的分析环境。
The GAUSS System can be described several ways: It is an exceptionally efficient number cruncher, a comprehensive programming language, and an interactive analysis environment.
表现该系统的特性,确定主要子系统模型和及其相互作用,选取重要的设计变数,目标函数和约束。
Characterize the system, identifying important subsystem models and interactions, selecting important design variables, the objective function and constraints.
每一项Obagi系列产品是经由特别设计而相互作用而成一系统。
Each Obagi System is specifically designed to work together as a System.
每一项Obagi系列产品是经由特别设计而相互作用而成一系统。
Each Obagi System is specifically designed to work together as a System.
应用推荐