This model USES new coupling correction alternation direction implicit iterative solution, parallel calculation program design, alternative direction grid delineation and parallel data transference.
该模型采用新的耦合修正交替方向隐式迭代求解、并行计算程序设计、交替方向网格划分、数据并行信息传递。
The effective potential correction was used in 3d Monte Carlo simulation of nanoscale MOSFETs to deal with quantum mechanical effects. A parallel algorithm based on PC clusters was proposed.
为了处理纳米mos场效应管的量子效应,在蒙特卡罗模拟中引入有效势量子修正,并提出了基于PC机群的三维并行模拟算法。
Hence, these local and parallel algorithms only involve one small original problem on coarse mesh and some correction problems on local fine grid.
因此,这种局部和并行算法仅仅涉及一个粗网格上的整体逼近和细网格上的局部校正。
In this paper we briefly introduce some basic concepts of quantum computing which include quantum entanglement, quantum bit, quantum register, quantum parallel computing and quantum error correction.
本文简要地介绍量子计算的一些基本概念:量子纠缠、量子位、量子寄存器、量子并行计算和量子纠错。
The part contains a high-speed 18-bit samplingADC, an internal conversion clock, an internal reference buffer, error correction circuits, and both serial and parallel system interface ports.
该器件内置一个高速18位采样ADC、一个内部转换时钟、一个内部基准电压缓冲、纠错电路,以及串行和并行系统接口。
Numerical results show the correction of calculation and effectiveness of parallel computation. Some parameters influencing speed up and efficiency are discussed.
数值算例表明流场计算的正确性和并行计算的有效性,并讨论了影响加速比和并行效率的各种因素。
It contains a high speed 16-bit sampling ADC, an internal conversion clock, an internal reference (and buffer), error correction circuits, and both serial and parallel system interface ports.
它内置一个16位高速采样adc、一个内部转换时钟、一个内部基准电压源(和缓冲)、纠错电路,以及串行和并行系统接口端口。
It contains a high speed 16-bit sampling ADC, an internal conversion clock, an internal reference (and buffer), error correction circuits, and both serial and parallel system interface ports.
它内置一个16位高速采样adc、一个内部转换时钟、一个内部基准电压源(和缓冲)、纠错电路,以及串行和并行系统接口端口。
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