Soft-Error-Aware Radiation-Hardened Ge-DLTFET-Based SRAM Cell Design

A single-ended single port 7T SRAM bit-cell with a process-variation tolerant architecture and half-select resilience at 32nm CMOS technology node is presented.The proposed 7T (7TP) SRAM bit-cell integrates a low threshold voltage (LVTH) feedback cutting transistor along with nominal VTH devices. The reliability of the 7TP cell is presented for process, voltage and temperature (PVT)variations to account for local/global variations incurred during CMOS fabrication.7TP SRAM bit-cell consistently exhibits 6-σ deviation for SNM, Write Margin(WM) and delay using 1000-point Monte Carlo simulations. The 7TP bit-cell shows improved WM, SNM, power consumption and delay compared to other SRAM cell architectures. The 7TP has the lowest normalized WM-1(WM-0) of 8.5025%(8.5025%) compared to 17.0150%(46.0875%), 36.5800%(36.5800%),17.0150%(53.5725%), 53.5450%(14.3650%), 11.8925%(11.8925%) for 7Tn, 7Ti, 7Tj,8T and 11T SRAM cells respectively. The read-1(read-0) and write-1(write-0) power of the 7TP cell is 887.2 nW(10.09 μW) and 1087 nW(26.6 μW) respectively. The write-1 power of 8T, 9T and 10T cells is 112.2%, 113.70%, and 136.11% of 7TP cell respectively. The proposed cell has the second-best HSNM/RSNM value of 0.269 V at VDD = 0.8 V. The area of the proposed cell is 0.104 sq. μm, the least among other SRAM bit-cells.

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Study on Single Event Upset and Mitigation Technique in JLTFET‐Based 6T SRAM Cell

2024

Journal of Electrical and Computer Engineering

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The effect of single event transient (SET) on 6T SRAM cell employing a 20 nm silicon‐based junctionless tunneling field effect transistor (JLTFET) is explored for the first time. JLTFET‐based SRAM circuit is designed using the look up table‐based Verilog A code obtained from TCAD values of the device. After verifying SRAM circuit for its functionality, the stability parameters, read static noise margin (RSNM), write static noise margin (WSNM), read/write delay, and power consumption are evaluated. It is observed that the circuit has a good stability of noise margin and lesser delay. The radiation study is carried out using a transient current source striking at one of the output nodes. This causes single event upset (SEU) which changes the data stored in the memory cell giving rise to soft error (SER). SER is recovered by the radiation hardening by design (RHBD) technique with an additional RC network between two cross coupled inverters. The performance metrics, read/write delay, and the power consumption before, during, and after the radiation strike are analyzed. It is observed that SER gets totally eliminated with less recovery time at the expense of a slight increase in power and delay.

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Soft-Error-Aware Radiation-Hardened Ge-DLTFET-Based SRAM Cell Design

Cited by 3 publications

References 28 publications

Impact of Gamma Rays on Emerging Devices for Photonic Applications

Impact of Gamma Rays on Emerging Devices for Photonic Applications

A low-power single ended half-select free 7 T SRAM cell with improved write margin at 32 nm technology node

Study on Single Event Upset and Mitigation Technique in JLTFET‐Based 6T SRAM Cell

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