Through the structure and logical designing, we get a high-speed and effective LOD circuit, which applied in floating-point adder.
我们从LOD的组成结构和逻辑两个方面进行设计,实现了一种快速、高效的LOD电路。
Floating-point adder is one of the basic parts of CPU. Its performance has a direct effect on CPU floating-point processing capacity.
浮点加法器是构成CPU的基本部件之一,其性能优劣将直接影响CPU浮点处理能力。
High-Speed Floating-point Adder is a critical part in the coprocessor, which is attached to the computing basis of floating-point instructions.
浮点加法器是协处理器的核心运算部件,是实现浮点指令各种运算的基础,其设计优化是提高浮点运算速度和精度的关键途径。
The LOP circuit module is described in gate level with VHDL, which has passed the logic simulation and verification. It is applied to the design of floating-point adder.
LOP电路设计采用VHDL语言门级描述,已通过逻辑仿真验证,并在浮点加法器的设计中得到应用。
The main research area is the structure optimization of floating-point adder, which is intent to minimize the delay of floating-point addition and optimize the circuit structure.
主要研究方向是优化浮点加法器结构,减小浮点加法运算的延迟,优化电路结构。
The main research area is the structure optimization of floating-point adder , which is intent to minimize the delay of floating-point addition and optimize the circuit structure.
主要研究方向是优化浮点加法器结构,减小浮点加法运算的延迟,优化电路结构。
The main research area is the structure optimization of floating-point adder , which is intent to minimize the delay of floating-point addition and optimize the circuit structure.
主要研究方向是优化浮点加法器结构,减小浮点加法运算的延迟,优化电路结构。
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