| 1. | Automatic generation and regeneration algorithm of hexahedral mesh
六面体网格自动划分和再划分算法 |
| 2. | A better partition algorithm is a key to parallel simulation
其中,一个优化的划分算法是实现并行模拟的关键。 |
| 3. | A computer algorithm for dividing a set into several non - collision subsets
一种无冲突子集划分算法的计算机实现 |
| 4. | In this thesis , several popular algorithms are described and their advantages and disadvantages are listed
本文首先描述了几种现在比较通用的划分算法,并列出了这些算法的优点和局限性。 |
| 5. | Then , a linear - time partitioning algorithm based on a linear ordering of nodes in a circuit for parallel logic simulation is presented
然后,提出一种在对电路中节点进行线性排序的基础上的线性时间划分算法。 |
| 6. | Most previous algorithms balance the accumulated amount of workload over the whole simulation period instead of the workload at real time
以前出现的划分算法有一个共同的问题:它们通常只是尽量的平衡整个模拟过程的工作负载,而不是平衡实时的负载。 |
| 7. | Focusing on the details of the method , some measures are proposed to strengthen the reliability and steadiness and enhance the efficiency of the algorithm
针对网格划分算法的具体实现细节,提出了一些可以增强算法稳定性和可靠性,提高算法效率的措施。 |
| 8. | Experiments show that the new optimized partition algorithm can improve the parallel simulation performance compared with the ones partitioned by traditional graph partition algorithms
实验表明,该优化划分方法相对于传统的图划分算法能够有效地提高模拟性能。 |
| 9. | The graph - based model of network division is created , an algorithm fit to worm spread restraint is brought forward , and the theoretic analysis and simulations prove the efficiency of this approach
建立了基于图的网络划分的模型,并提出了一种适于抑制蠕虫传播的网络划分算法。 |
| 10. | Boundaries - divided algorithm and maximum likelihood slices estimator algorithm are programmed with matlab language . each step of cascade and privacy amplification is also analyzed
利用matlab语言编程实现边界划分算法和最大可几slice估计算法,并分析了cascade与隐私放大算法的实现步骤。 |
