The design and experimental evaluation of a clocked adiabatic logic (GAL) is described in this paper. CAL is a dual-rail logic that operates from a single-phase AC power-clock supply. This new low-energy logic makes it possible to integrate all power control circuitry on the chip, resulting in better system efficiency, lower cost, and simpler power distribution. CAL can also be operated from a DC power supply in a nonenergy-recovery mode compatible with standard CMOS logic. In the adiabatic mode, the power-clock supply waveform is generated using an on-chip switching transistor and a small external inductor between the chip and a low-voltage DC supply. Circuit operation and performance are evaluated using a chain of inverters realized in a 1.2 /spl mu/m CMOS technology. Experimental results show that energy savings are achieved at clock frequencies up to about 40 MHz as compared to the nonadiabatic mode. Since CAL can operate both in adiabatic and nonadiabatic modes, power management strategies may be based upon switching between modes when necessary.
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机译:本文介绍了时钟绝热逻辑(GAL)的设计和实验评估。 CAL是一种双轨逻辑,由单相交流电源时钟电源供电。这种新的低能耗逻辑使在芯片上集成所有电源控制电路成为可能,从而提高了系统效率,降低了成本并简化了电源分配。 CAL也可以在与标准CMOS逻辑兼容的非能量回收模式下用直流电源供电。在绝热模式下,使用芯片上的开关晶体管和芯片与低压直流电源之间的小外部电感器来生成电源时钟电源波形。使用以1.2 / spl mu / m CMOS技术实现的一系列反相器评估电路的操作和性能。实验结果表明,与非绝热模式相比,在高达约40 MHz的时钟频率下实现了节能。由于CAL可以在绝热和非绝热模式下运行,因此在必要时,电源管理策略可以基于模式之间的切换。
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