1.In audio applications, the single-instruction, multiple data (SIMD) mode effectively doubles the processor performance.
在音频应用中,单指令多数据(SIMD)模式实际上可使处理器性能提高一倍。
2.Presents a method for checking the intersection on Programmable Graphics Hardware utilizing its SIMD, Occlusion Query etc.
提出了一种利用GPU的SIMD、遮挡查询等特性进行碰撞检测的方法。
3.Two-dimensional SIMD architecture is widely used in the field of embedded system to boost the performance of multimedia processing.
二维SIMD结构是在嵌入式系统中提高多媒体处理能力的有效系统结构。
4.As the skin deformation cost largely of computing, a accelerate algorithm is presented which is applicable to GPU with SIMD architectures.
针对皮肤变形算法运算量大的特点,提出一种适用于SIMD架构GPU的加速算法。
5.The data processing unit using VLIW and SIMD vector structure is the key of the architecture.
数据处理单元是结构的核心,采用VLIW加SIMD向量结构。
6.This is known as SIMD (single instruction, multiple data), or data parallelism.
这种技术称为SIMD(单指令,多数据)或数据并行。
7.A Video Image Convolution coprocessor based on SIMD architecture.
基于SIMD结构的可重构图像卷积器。
8.Design a 16-bit SIMD adder, a mixed 40-bit adder and a funnel shifter. 3.
设计实现了16位的SIMD加法器、混合40位加法器和漏斗移位器。
9.Study of Algorithm-Oriented Mathematical Model of SIMD Computer and Its Application
面向算法的SIMD计算机数学模型及其应用研究
10.Full SIMD architecture, including instructions for accelerated video and image processing
完整的SIMD架构,包括用于加速视频和图像处理的指令