电流型电路具有功耗低、速度快的特点,是当今集成电路研究的一个热点.文章基于阈算术代数系统,改进了非相交分解算法;设计了电流型互补金属氧化物半导体(complementary metal oxide semiconductor, CMOS)的异或门电路,并利用改进后的新...电流型电路具有功耗低、速度快的特点,是当今集成电路研究的一个热点.文章基于阈算术代数系统,改进了非相交分解算法;设计了电流型互补金属氧化物半导体(complementary metal oxide semiconductor, CMOS)的异或门电路,并利用改进后的新算法,将n变量函数分解成3变量函数,实现了任意n变量函数电路.模拟测试证明所设计的电路结构简单,且具有正确的逻辑功能.展开更多
The seismic reliability evaluation of lifeline networks has received considerable attention and been widely studied. In this paper, on the basis of an original recursive decomposition algorithm, an improved analytical...The seismic reliability evaluation of lifeline networks has received considerable attention and been widely studied. In this paper, on the basis of an original recursive decomposition algorithm, an improved analytical approach to evaluate the seismic reliability of large lifeline systems is presented. The proposed algorithm takes the shortest path from the source to the sink of a network as decomposition policy. Using the Boolean laws of set operation and the probabilistic operation principal, a recursive decomposition process is constructed in which the disjoint minimal path set and the disjoint minimal cut set are simultaneously enumerated. As the result, a probabilistic inequality can be used to provide results that satisfy a prescribed error bound. During the decomposition process, different from the original recursive decomposition algorithm which only removes edges to simplify the network, the proposed algorithm simplifies the network by merging nodes into sources and removing edges. As a result, the proposed algorithm can obtain simpler networks. Moreover, for a network owning s-independent components in its component set, two network reduction techniques are introduced to speed up the proposed algorithm. A series of case studies, including an actual water distribution network and a large urban gas system, are calculated using the proposed algorithm. The results indicate that the proposed algorithm provides a useful probabilistic analysis method for the seismic reliability evaluation of lifeline networks.展开更多
文摘电流型电路具有功耗低、速度快的特点,是当今集成电路研究的一个热点.文章基于阈算术代数系统,改进了非相交分解算法;设计了电流型互补金属氧化物半导体(complementary metal oxide semiconductor, CMOS)的异或门电路,并利用改进后的新算法,将n变量函数分解成3变量函数,实现了任意n变量函数电路.模拟测试证明所设计的电路结构简单,且具有正确的逻辑功能.
基金Natural Science Funds for the Innovative Research Group of China Under Grant No.50621062
文摘The seismic reliability evaluation of lifeline networks has received considerable attention and been widely studied. In this paper, on the basis of an original recursive decomposition algorithm, an improved analytical approach to evaluate the seismic reliability of large lifeline systems is presented. The proposed algorithm takes the shortest path from the source to the sink of a network as decomposition policy. Using the Boolean laws of set operation and the probabilistic operation principal, a recursive decomposition process is constructed in which the disjoint minimal path set and the disjoint minimal cut set are simultaneously enumerated. As the result, a probabilistic inequality can be used to provide results that satisfy a prescribed error bound. During the decomposition process, different from the original recursive decomposition algorithm which only removes edges to simplify the network, the proposed algorithm simplifies the network by merging nodes into sources and removing edges. As a result, the proposed algorithm can obtain simpler networks. Moreover, for a network owning s-independent components in its component set, two network reduction techniques are introduced to speed up the proposed algorithm. A series of case studies, including an actual water distribution network and a large urban gas system, are calculated using the proposed algorithm. The results indicate that the proposed algorithm provides a useful probabilistic analysis method for the seismic reliability evaluation of lifeline networks.
