Ngoc-Tu Bui, Trong-Thuc Hoang, Duc-Hung Le, C. Pham
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引用次数: 0
摘要
本文提出了一种32位浮点旋转因子(TF)的薄层埋式氧化硅(SOTB)实现方法。该体系结构是基于自适应坐标旋转数字计算机(CORDIC)开发的。CORDIC方法是一种众所周知的近似复数乘法的方法,也称为快速傅里叶变换(FFT)设计中的TF。SOTB-65nm TF核心布局的尺寸面积为86.7K-µm2。测量结果表明,在0.75 v电源(VDD)的最佳交叉点,芯片可以在32 mhz的最大工作频率(FMax)下运行,功耗为181µW。在休眠模式下,在0.75 v VDD下,泄漏功率下降约258.6倍至0.7µW。
A 0.75-V 32-MHz 181-µW SOTB-65nm Floating-point Twiddle Factor Using Adaptive CORDIC
In this paper, a Silicon On Thin Buried-oxide (SOTB) implementation of the 32-bit floating-point Twiddle Factor (TF) is presented. The architecture was developed based on the adaptive COordinate Rotation DIgital Computer (CORDIC). The CORDIC method is a well-known approach for approximating the complex-number multiplication, also known as TF in Fast Fourier Transform (FFT) designs. The SOTB-65nm TF core layout has the size area of 86.7K-µm2. The measurement results showed that at the best crossing-point of the 0.75-V power supply (VDD), the chip could run at the maximum operating frequency (FMax) of 32-MHz and consumed 181-µW power. At the sleep-mode, the leakage power dropped about 258.6× to 0.7-µW at the 0.75-V VDD.
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