This paper discusses data path design of LS - DSP, which consists of ALU , Multiplier , Address Generator .
本文讨论LS—DSP数据路径的设计,即ALU、乘法器、数据地址产生器三大功能单元的设计。
Related to the project of the author, research was mainly focused on the data path design of the TMS320C25 compatible DSP.
然后结合作者所参加的课题研究,具体到TMS320C25的数据通路设计上。
This paper starts from the general purpose DSP, of which architectural features and data path design methodologies are discussed.
本论文从通用的数字信号处理器出发,讨论了其体系结构和数据通路设计上的特点。
The discussions include the design of multiplier, ALU and serial port; almost cover all the important aspect of the data path design.
分别对乘法器、ALU和串口的设计进行了讨论,几乎覆盖了数据通路设计的各个方面。
By means of Lagrange multiplier method, this method distributes the slack to the operator nodes in the data path, thus, efficiently reduces the energy consumption of design circuit.
应用拉格朗日乘数法,将空闲时间分布到数据通路的各个操作节点上,从而有效地降低了设计电路的能耗。
The second iteration might push the design down to identifying all of the modules and the inter-module data path mechanisms.
第二个迭代则可能继续推动设计,来鉴别所有的模块和模块间的数据交换机制。
Finish the design of data path, including adder, shifter, ROM and the control logic of the rotation, and optimize these parts in terms of the requirement of Longtium C2 microprocessor.
完成超越函数实现的数据路径设计,主要包括加法器、移位器、常数rom和旋转控制逻辑,同时针对“龙腾”C2微处理器的性能要求对各个部件进行优化设计。
This method is based on multi-delay modeling, SPICE and logic simulation. It provides an effective tool to design and analysis asynchronous data-path.
这种方法在进行性能分析时基于多延迟模型、SPICE和逻辑仿真,可以作为异步数据通路设计和分析的一种有效工具。
To provide a coherent path through the data, quotes from interviewees are presented under the following themes: choosing art and design;
通过访谈中所得到的数据与资料总结了以下几点:选择艺术与设计;
To provide a coherent path through the data, quotes from interviewees are presented under the following themes: choosing art and design;
通过访谈中所得到的数据与资料总结了以下几点:选择艺术与设计;
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