multiplications
英 [ˌmʌltɪplɪˈkeɪʃənz]
美 [ˌmʌltəpləˈkeɪʃənz]
n. 乘; 相乘; 增加
multiplication的复数
双语例句
- The ANALYSATOR HANNOVER evaluates statistically probability density distributions PDD and class frequency distributions CFD of different stochastic variables and calculates from the instantaneous values of welding voltage u and welding current I, the True Electrical Power Input as the linear mean value of all multiplications UI.
汉诺威分析仪采用统计学的概率密度分布PDD和频段分布(CFD)方法对不同的随机变量进行评定,通过对瞬间焊接电流(I)与电弧电压(U)乘积的计算而获得真实电能功率。 - This algorithm results in a great reduction of multiplications and simplifies the realization structure of fan filters as compared with the published design procedures.
与已有的设计方法相此,大大减少了扇形滤波器的系数并简化了其实现结构。 - Toward to resistor model, the linearity electric resistance and saturated regions, avalanche multiplications and electrothermal breakdown regions has built and analyze the characteristics respective.
对于电阻模型,建立了从线性电阻和速率饱和区域、雪崩倍增和热电击穿区域来分段分析其特性。 - Meanwhile, it is proved that the multiplications on the homotopy classes defined by CoH-arrow group and H-arrow group are the same and commutative.
同时证明了若CoH-arrow同伦类有分别由CoH-arrow群乘法与H-arrow群乘法给出的两个群乘法,则这两个乘法相同且是可交换的。 - The paper discussed the algorithm for computing Scalar Multiplications on none-supersingular elliptic curves defined over GF ( 2~ m).
标量乘法的快速运算是椭圆曲线密码学中研究的一个焦点。 - As to repeated declarations, tthe final one shall prevail for multiplications.
多次申报的,以最后一次申报为准。 - It requires about n 2 multiplications and additions for each iteration where n is the number of variables.
此算法每次迭代约需n2次乘法和加法,其中n是模型中变量的数目。 - This multiplier has two working modes, normal mode and SIMD mode which support 16-bit multiplication or two 8-bit multiplications respectively.
该乘法器有两种工作模式,普通模式和SIMD模式,可以支持16位整数乘法或2个8位乘法。 - Consequently, a new algorithm is proposed which greatly decreases the nontrivial multiplications needed in such circumstances ( cf.: 4.1.3 and 4.1.4).
所以,本文针对这些情况提出了一种新的算法,大幅度地降低了所需的非平凡乘法次数,详见4.1.3和4.1.4节。 - Compared with the existing schemes without suffering from key escrow, ours achieves higher efficiency since the signing algorithm needs only one scalar multiplication in the additive group while the reverse operation requires only three scalar multiplications. 4.
与已有的无密钥托管的签名方案相比,我们的方案实施效率高:签名算法只需要1个加法群上的标量乘运算,而验证算法仅需3个标量乘运算。