| 1. | Using the hierarchy thought , an algorithm , which bases on network partition and equivalent compress by the analyzing the network model correspondence the linear equations group , is proposed 应用层次化思想,本文通过对线性方程组求解的网络模型分析,提出了一种基于网络分割、等效压缩的算法。 |
| 2. | Traditional linear system solver ca n ' t deal with such a large network whether in speed or in memory . all the above reasons make the solving of the network a challenging work 常规的线性方程组求解方法无论是在速度上还是在存储空间上都无法处理如此大规模的网络,因此如何快速有效地求解这样一个大型网络无疑是一个极具挑战性的问题。 |
| 3. | However , disadvantages still remained . during the structural analysis , large amount of high - order units were used in order to ensure the precision of arithmetic solution when using finite element method to do discrete processing 本文是将并行机群计算系统应用到解决电法勘探中,在使用有限元方法( fem )时所产生的大型线性方程组求解问题上。 |
| 4. | For a million gates design , nodes of power grid are typically more than one million . traditional linear system solver ca n ' t deal with such a large network either in speed or in memory , which make solving the network a challenging work 常规的线性方程组求解方法无论是在速度上还是在占用内存空间的数量上都无法处理如此大规模的网格,因此如何快速有效地求解这样一个大型网格无疑是一个极具挑战性的问题。 |
| 5. | Because of the large scale of the p / g routing network in the memory chip layout , general linear equation group resolving algorithms for calculating the equivalent resistance between the nodes cannot satisfy the restrict of both memory space and running time simultaneously 摘要由于存储芯片版图p / g网规模的巨大,对于计算电阻网络中节点间等效电阻问题,直接利用常规线性方程组求解算法无法同时满足内存空间与运行时间上的限制。 |
| 6. | Use activex control we construct the interface of high - strength concrete expert system . discuss the equation model that the need fitting arguments reference to in this system , corresponding linear fitting algorithm " s reasoning and implementation . implement the generic algorithm of the linear equation with template idea nested 从应用的角度出发,通过使用数理统计中介绍的值估计方法与线性方程组求解实现参数拟合,并探讨了基于泛型算法的线性方程组求解,将数理统计、线性方程组求解和模板思想有机地结合在一起。 |
| 7. | The paper can be divided into two partitions : in the first part the p / g network verification problem in the vlsi chip scope is probed . an algorithm is proposed which partition the global network into several sub networks . then it performs sub network compressing equivalent transform and calculates the final size - reduced linear equations 本论文包括两个部分,第一部分探讨了vlsi芯片p g网验证问题,提出基于网络划分、子网等效压缩变换的大规模线性方程组求解方法;第二部分探讨了一个晶体管级宏单元自动版图布线系统的有关理论问题,并实现了一个实用的处理宏单元版图的自动布线系统。 |
| 8. | It firstly utilizes the characteristic of layout geometric information to partition the global network into some sub networks . after these sub networks are compressed by cholesky factorization , the sub networks edge nodes are combined with other nodes . calculating the final linear equations group , the algorithm can be very effective 算法首先利用版图几何特征,按最小割原理将电源地网划分成子网,利用对称正定矩阵cholesky分解压缩子网内点;将子网等效成与网络其它部分连接的结点集的等效网络,最后通过计算压缩后的网络,获得线性方程组求解答案。 |