通过增加控制寄存器的三模冗余(TMR)设计来保证存储器操作的正确性,仿真验证了该设计的有效性和优越性。
A Triple Modular Redundancy (TMR) design for control registers is used to guarantee correct operation of a memory. Simulation results illustrate feasibility and superiority of the proposed design.
本文采用二模冗余技术,对系统产生的双文本进行冗余比较实现查错,提出了定步长回溯比较算法,给出算法描述,最后通过实验结果证明其正确性。
In this paper, we present a final step recalling algorithm for two isolated Chinese character text comparison, followed we also give the experiment results of the presented algorithm.
在另一方面,本文致力于研究如何改进传统的基于线性偏差的地址交织策略来解决其存储器冗余和无法支持模寻址的问题。
On the other hand, we are aimed to remove the memory redundancy of the previous linear skewing interleave scheme and try to support modulo addressing.
而剔除STL面片数据中的冗余顶点是重构的关键,该算法已经成功应用于三维真实感注塑模流动模拟软件的3d图形处理。
Filter the redundancy vertex in STL solid is very important. The algorithm is successful to deal with 3d graphic in realistic mold flow simulation software.
而剔除STL面片数据中的冗余顶点是重构的关键,该算法已经成功应用于三维真实感注塑模流动模拟软件的3d图形处理。
Filter the redundancy vertex in STL solid is very important. The algorithm is successful to deal with 3d graphic in realistic mold flow simulation software.
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