给出了在一种安全处理器(SSX11- 140)中有效缩减AES算法硬件实现面积的设计方案。
This paper proposes a novel efficient area reduction solution for hardware implementation of the advanced encryption standard (AES) algorithm which works in SSX11-140 secure processor architecture.
就某种程度上讲,Google已经在移动平台上着手处理这个问题了。 Google通过安装噪音消除硬件装置以及在Android操作系统内置软件算法实现该目的。
To some degree, Google has gotten around this problem on the mobile side by making use of noise cancellation hardware on the phone and software algorithms within the Android OS.
提高图形的质量和速率需要同时在硬件和计算方法上得以加强,比如算法的产生和实现。
Improvements in image quality and speed require advances in both hardware and computational methods, such as algorithm development and implementation.
着重介绍了矢量信号处理模块的硬件设计以及互谱算法的软件实现。
The paper focuses on the hardware design of vector signal processing module and the software realization of cross'spectral algorithm.
RSA密钥生成器由两大部分构成:硬件随机数发生器和RSA密钥生成算法的软件实现。
The RSA key generator is made up of two parts: random number generator (RNG) and the implementation of RSA key generation algorithm.
采用流水线结构的硬件实现表明,新算法占用的资源大约为原来的1/16。
The pipelined implementation shows that the new algorithm occupies about 1/16 of the old one.
最后以TMS320C 6201为核心给出了图像压缩编码算法的硬件实现方案。
Finally, TMS320C6201 being the kernel, an image compression coding algorithm is given to achieve the scheme for hardware realization.
该算法不但支持确保服务,而且硬件实现简单。
This algorithm supports guaranteed service and can be easily implemented in hardware.
系统硬件的核心芯片采用普遍使用的16位定点DSP芯片TMS320 VC 5416,软件上主要采用动态时间规整算法来实现语音识别。
TMS320VC5416 16-bit fixed-point DSP is adopted in its core processor of the hardware. Dynamic Time Warping (DTW) algorithm is chiefly used to implement the software.
提出了两种硬件实现的BC d码和二进制码的相互转换算法。
This paper presents two kinds of algorithm for conversion between BCD code and binary code.
FPGA接口中的硬件随机数发生器实现进化算法的硬件加速。
Hardware random number generator in the FPGA interface is used to accelerate the evolutionary algorithm.
提出一种改进的三步搜索算法,并采用基于候选组处理的硬件结构实现。
This paper proposes a kind of optimized TSS algorithm and its implementation based on candidate groups hardware architecture.
完成了恒定束宽波束形成以及宽带源方位估计算法在DSP硬件系统中的实现。
The constant beam-width beam-former and wideband DOA estimation algorithms are realized in the DSP hardware systems.
传统的帧间差分法算法简单、便于硬件实现,但在信噪比较低时抗噪性能较差。
Considering the characteristics of infrared image, the frame difference algorithm is simple and easy to be realized by hardware.
提出了一种基于FPGA的DVB -S2系统中ldpc编码算法的硬件实现技术。
A new hardware implementation of LDPC coding arithmetic in DVB-S2 system based on FPGA is introduced.
基于数学形态滤波,提出了一种红外小目标实时检测的算法及其DSP硬件实现技术。
Based on mathematic morphology filtering, a real-time detection algorithm for infrared small target and its realizing technology on DSP hardware are proposed.
接着,介绍了基于内插的MPSK信号符号同步的算法,以及各模块的硬件实现。
And then, the algorithm based on the interpolation of MPSK symbol synchronization, as well as the hardware implementation of the modules is introduced.
详细阐述了CORDIC算法的原理、应用、硬件结构和实现。
This paper clarifies the principle, application, hardware structure and realization of the CORDIC algorithm in detail.
为满足实时隐秘传输的要求,给出了一种实时高嵌入效率信息隐藏算法的硬件实现。
To reach the demands of the real-time covert communication, the hardware implementation of a new kind of the high efficient information hiding algorithm is proposed.
本文主要是在实验室阶段对算法在硬件实现上进行研究。
This paper mainly researches how to realize arithmetic on hardware in lab stage.
本文主要是在实验室阶段对算法在硬件上实现进行研究。
The paper mainly researches how to realize arithmetic on hardware on stage of lab.
提出了一种面向嵌入式平台的图形光栅的硬件实现算法。
In this paper, a hardware algorithm for graphics rasterizer on embedded platform is presented.
为评估DSP硬件设计、DSP算法的实现提供了很好的软件模拟平台。
It provides a good software platform for DSP design and DSP algorithms implementation.
本文提出了一种嵌入式人脸识别系统的设计及具体实现方法,其中包括硬件结构、人脸识别算法、驱动以及其应用程序的实现。
The paper proposes a design and implementation of an embedded system of human face recognition, it includes the frame of hardware, the arithmetic of face recognition, its driver and its application.
硬件实现和VCS仿真的结果证明本文提出的流量控制算法不仅硬件实现简单而且能有效地防止队头阻塞。
Hardware implementation and VCS simulation results show that the flow control algorithm in this paper is not only simple but also avoid HOL blocking efficiently.
硬件实现和VCS仿真的结果证明本文提出的流量控制算法不仅硬件实现简单而且能有效地防止队头阻塞。
Hardware implementation and VCS simulation results show that the flow control algorithm in this paper is not only simple but also avoid HOL blocking efficiently.
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