Hybrid GDI-NCL for area/power reduction

机译：用于区域/功率降低的混合GDI-NCL

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摘要

Null Convection Logic is a well-known paradigm for designing asynchronous logic circuits. The conventional CMOS-based NCL designs suffers larger area overhead and power consumption. A low power design technique called Gate Diffusion Input (GDI) has been adopted to overcome this limitation. In GDI technology, voltage swing exhibits significant voltage drop across the circuit. Therefore, not suitable for designing large combinational circuits. A novel HYBRID (CMOS+GDI) design is proposed in this work to efficiently address this issue. The HYBRID design utilizes both CMOS and GDI technology to reduce the number of transistor and power dissipation when compared to CMOS NCL circuits. The proposed approach is implemented in NCL Ripple Carry Adder (RCA) and simulated in Cadence Virtuoso for verification.

机译：NULL对流逻辑是用于设计异步逻辑电路的众所周知的范例。传统的基于CMOS的NCL设计具有更大的区域开销和功耗。已经采用了一种低功率设计技术，以克服这种限制来克服栅极扩散输入（GDI）。在GDI技术中，电压摆动在电路上显示出显着的电压降。因此，不适合设计大型组合电路。在这项工作中提出了一种新颖的混合动力车（CMOS + GDI）设计，以有效地解决了这个问题。与CMOS NCL电路相比，混合动力设计利用CMOS和GDI技术来减少晶体管和功耗的数量。所提出的方法是在NCL纹波携带加法器（RCA）中实施，并在节奏Virtuoso中模拟进行验证。

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来源
《International SoC Design Conference》|2016年|360p|共2页
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作者
Prashanthi Metku; Ramu Seva; Kyung Ki Kim; Yong-Bin Kim; Minsu Choi;
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中图分类 TP335-53;
关键词
Logic gates; Adders; CMOS technology; Transistors; Hybrid power systems; Integrated circuit modeling; Registers;

机译：逻辑门;加法器;CMOS技术;晶体管;混合动力系统;集成电路建模;寄存器;

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Hybrid GDI-NCL for area/power reduction

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