2011
DOI: 10.1049/el.2011.1807
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Nonvolatile delay flip-flop using spin-transistor architecture with spin transfer torque MTJs for power-gating systems

Abstract: The power-gating (PG) ability of the authors' previously proposed nonvolatile delay flip-flop (NV-DFF) using pseudo-spin-transistors with spin transfer torque magnetic tunnel junctions (STT-MTJs) is computationally analysed. Break-even time (BET) for nonvolatile logic circuits, which is an important index of energy performance for PG systems, is also formulated for the first time. The BET of the proposed NV-DFF can be effectively reduced by the design of the pseudo-spin-transistor parts of the cell. The NV-DFF… Show more

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Cited by 61 publications
(39 citation statements)
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“…Table II summarizes comparison of a CMOS FF and five MTJ-based NVFFs. While transistor counts of [4] are small, the effective area is large since CMOS inverters in the slave latch must be enlarged to drive sufficient write current, which results in large active power dissipation for the normal operation. The use of external write driver in [1,6] also causes delay and power overheads due to additional gate capacitance of their write drivers.…”
Section: Evaluationsmentioning
confidence: 99%
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“…Table II summarizes comparison of a CMOS FF and five MTJ-based NVFFs. While transistor counts of [4] are small, the effective area is large since CMOS inverters in the slave latch must be enlarged to drive sufficient write current, which results in large active power dissipation for the normal operation. The use of external write driver in [1,6] also causes delay and power overheads due to additional gate capacitance of their write drivers.…”
Section: Evaluationsmentioning
confidence: 99%
“…While previous works have zero-standby power capability by the use of the power gating technique, their standby power dissipations without the power gating technique are higher than that of the CMOS FF due to their peripheral circuits for store and recall operations. The amounts of the store energy in [4,5,6] are large since write current must be driven via high MTJ Fig. 5.…”
Section: Evaluationsmentioning
confidence: 99%
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