In this paper, we propose a low-overhead solution to ensure contention-free data retention in clock-gated true single-phase-clock (TSPC) flip-flops (FF) at ultra-low voltage (ULV). It relies on a retention feedback loop added to the TSPC FF and controlled by the clock-gating module. When the clock is gated, the retention is enabled, which drives the FF in retention mode. This limits the energy overhead induced by the added feedback loop and makes the FF contention-free. Moreover, as several FFs typically share the same clock-gating module, the control signal generation overhead is also kept low. The proposed 19T TSPC FF with retention mode was implemented as a standard cell in 65nm LP CMOS. The FF energy is 0.5fJ/cycle at 0.4V, from post-la...
True single-phase clock (TSPC) rationale has discovered broad use in digital design. Initially as a ...
This paper enumerates a low power, high speed design of flip-flop having less number of transistors....
A new flip-flop is presented in which power dissipation is reduced by deactivating the clock signal ...
In this paper, we propose an 18-transistor (18T) True-Single-Phase-Clock (TSPC) Flip-Flop (FF) with ...
In this paper, we propose an 18-transistor true-single-phase-clock (TSPC) flip-flop (FF) with static...
Flip-flops are essential building blocks of sequential digital circuits, but typically occupy a subs...
This paper presents an extremely low-voltage and low-power single-phase-clocking redundant-transitio...
The paper presents two gated flip-flops aimed at low-power applications. The proposed flip-flops use...
Ultra-low-voltage (ULV) operation of logic circuits is an interesting solution to reduce power consu...
A significant fraction of the total power in highly synchronous systems is dissipated over clock net...
True Single Phase Clocked (TSPC) flip-flops (FF) are widely used in high-frequency dividers for thei...
Two novel low power flip-flops are presented in the paper. Proposed flip-flops use new gating techni...
Performance slack in IoT applications is routinely exploited in sensor nodes to minimize power by ag...
Dual-edge-triggered (DET) synchronous operation is a very attractive option for low-power, high-perf...
True single-phase clock (TSPC) rationale has discovered broad use in digital design. Initially as a ...
This paper enumerates a low power, high speed design of flip-flop having less number of transistors....
A new flip-flop is presented in which power dissipation is reduced by deactivating the clock signal ...
In this paper, we propose an 18-transistor (18T) True-Single-Phase-Clock (TSPC) Flip-Flop (FF) with ...
In this paper, we propose an 18-transistor true-single-phase-clock (TSPC) flip-flop (FF) with static...
Flip-flops are essential building blocks of sequential digital circuits, but typically occupy a subs...
This paper presents an extremely low-voltage and low-power single-phase-clocking redundant-transitio...
The paper presents two gated flip-flops aimed at low-power applications. The proposed flip-flops use...
Ultra-low-voltage (ULV) operation of logic circuits is an interesting solution to reduce power consu...
A significant fraction of the total power in highly synchronous systems is dissipated over clock net...
True Single Phase Clocked (TSPC) flip-flops (FF) are widely used in high-frequency dividers for thei...
Two novel low power flip-flops are presented in the paper. Proposed flip-flops use new gating techni...
Performance slack in IoT applications is routinely exploited in sensor nodes to minimize power by ag...
Dual-edge-triggered (DET) synchronous operation is a very attractive option for low-power, high-perf...
True single-phase clock (TSPC) rationale has discovered broad use in digital design. Initially as a ...
This paper enumerates a low power, high speed design of flip-flop having less number of transistors....
A new flip-flop is presented in which power dissipation is reduced by deactivating the clock signal ...