并行性的难题和生成有效代码所需的优化不适合在单个的编译器构造的课程中讲。
The hard issues of parallelism and the optimizations needed to produce effective code just don't fit into the time available for a single course in compiler construction.
其隐含并行性和对全局信息有效利用,使得该算法适合处理复杂和非线性优化问题。
This algorithm is especially suitable to soling complex or non-linear optimization questions, as it not only has parallel nature but makes full use of overall information.
论证了利用大系统理论建立适合平面叶栅气动设计计算优化方法的可行性,旨在为气动设计提供一种新的优化方法。
It is showed that a new viewpoint of theory of large scale systems is suited for optimal calculating design of cascades.
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