例如,清单3展示了一个样式表,它生成角度的正弦、余弦和正切值。
For example, Listing 3 shows a stylesheet that generates sines, cosines, and tangents for the angles.
介绍了采用基于ROM查找表的全数字反离散余弦变换(IDCT)电路的算法原理及其并行架构的大规模集成电路实现。
This paper presented an ROM look-up table (LUT) based inverse discrete cosine transform (IDCT) algorithm and its LSI implementation having parallel architecture.
提出一种构造择优量化表的新方法。在一个固定块尺寸的离散余弦变换(DCT)中,该方法可产生优化的率失真特性。
The present paper presents a new method for constructing optimal quantisation tables. The method produces optimal rate-distortion performance in a fixed block size DCT.
通过与传统的离散余弦变换(DCT)进行比较,表明了APIDCBT算法可以不用量化表,节省运算时间,与DCT可达到同样的压缩效果,并且在低码率情况下优于DCT。
This transform algorithm saves the operation time due to without quantization. It can get the same compressed result and even better performance in the case of low bit rate compared with DCT.
通过与传统的离散余弦变换(DCT)进行比较,表明了APIDCBT算法可以不用量化表,节省运算时间,与DCT可达到同样的压缩效果,并且在低码率情况下优于DCT。
This transform algorithm saves the operation time due to without quantization. It can get the same compressed result and even better performance in the case of low bit rate compared with DCT.
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