A 3.4pJ FeRAM-enabled D flip-flop in 0.13µm CMOS for nonvolatile processing in digital systems

M. Qazi, A. Amerasekera, A. Chandrakasan
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引用次数: 57

Abstract

Nonvolatile processing-continuously operating a digital circuit and retaining state through frequent power interruptions-creates new applications for portable electronics operating from harvested energy [1] and high-performance systems managing power by operating “normally off” [2]. To enable these scenarios, energy processing must happen in parallel with information processing. This work makes the following contributions: 1) the design of a nonvolatile D flip-flop (NVDFF) with embedded ferroelectric capacitors (fecaps) that senses data robustly and avoids race conditions; 2) the integration of the NVDFF into the ASIC design flow with a power management unit (PMU) and a simple one-bit interface to brown-out detection circuitry; and 3) a characterization of the NVDFF statistical signal margin and the energy cost of retaining data.
一个3.4pJ FeRAM-enabled D触发器在0.13µm CMOS中用于数字系统的非易失性处理
非易失性处理——连续操作数字电路并通过频繁的电源中断保持状态——为便携式电子设备从收集的能量中运行[1]和通过“正常关闭”运行的高性能系统管理电源[2]创造了新的应用。为了实现这些场景,能源处理必须与信息处理并行进行。这项工作做出了以下贡献:1)设计了一种具有嵌入式铁电电容器(fecaps)的非易失性D触发器(NVDFF),该触发器可以鲁棒地感知数据并避免竞争条件;2)将NVDFF集成到ASIC设计流程中,带有电源管理单元(PMU)和一个简单的1位接口,用于断电检测电路;3)表征NVDFF统计信号裕度和保留数据的能量成本。
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