提出一种提高基于不恢复余数除算法的除法阵列速度的方法。
This paper proposes a method to increase the speed of division array based on the non restoring division algorithm.
采用优化的循环除算法及开辟内存存储数据方式实现了分数的快速高精度求解。
The paper uses cyclic division algorithm and opening-up-memory data storage to realize rapid high-precis- ion based on fraction.
除理论之外,这种专注表现在本身复杂性的理论,它根据它们运行的时间和空间需求来组织算法。
At the theoretical end, this focus manifests itself in complexity theory, which groups algorithms according to their time and space requirements for execution.
算法除可用于跟踪刚体运动之外,也可用于非刚体运动的跟踪。
The resulting algorithm can be used to tracking the motion of both rigid and nonrigid objects.
在本算法中,除主机外的其它节点都采用了相同的驱动程序,因此实现了节点的即插即用。
In the proposed algorithm all nodes but the host adopt same driver, therefore the plug and play is realized for all nodes.
即单节点保护算法可以保护除失效节点之外的其余组播群成员。
The single node protection algorithm can protect every group member except the failure member.
在控制软件方面除采用经典的PID控制外,还引入了串级、前馈及模糊控制等算法,有效地提高了系统的控制性能。
Besides the typical PID controlling method, concatenation, feedforward and fuzzy control algorithms are used. As the result, the control functions of the system are efficiently improved.
程序除实现三次Bezier曲线的绘制,还实现了点,直线,圆的绘制,可做为学习计算机图形算法的参考。
In addition to procedures to achieve cubic Bezier curve drawing, but also realized the point, line, round mapping, can be used as learning computer graphics algorithm reference.
本研究的目的就是在异步通信网络环境中,采用连续的时间戳通信模型,并利用时钟精度差概念和小波除噪算法实现系统中各个计算机之间的自适应时钟同步。
The continuous time-stamp communication model and the wavelet technology were applied to evaluate running precision difference of clocks, in order to reduce the effect of network delay efficiently.
此算法是对灰度图像的处理,主要包括背景减 除、二值化、阴影检测、后处理等几个模块。-。
This algorithm is a gray image processing, including background subtraction, binary, shadow detection, post-processing, and several other modules.
理论分析和计算机仿真表明,新算法除具有原频域快速算法的优点外,还具有较快的收敛速度和良好的收敛精度,可以有效地应用于干扰机自适应收发隔离系统中。
The theoretics analysis and the compute simulation indicate that the new algorithm not only has advantages of original frequency domain LMS fast algorithm but also has fast convergence...
理论分析和计算机仿真表明,新算法除具有原频域快速算法的优点外,还具有较快的收敛速度和良好的收敛精度,可以有效地应用于干扰机自适应收发隔离系统中。
The theoretics analysis and the compute simulation indicate that the new algorithm not only has advantages of original frequency domain LMS fast algorithm but also has fast convergence...
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