and S8P4N, the QCCS cell reduces read access time by 17%, write access time by 19%, power dissipation by 4% and silicon area overhead by 10% on average, while the SCCS cell reduces read access time by 44% as well as write access time by 13% on average at the cost of moderate increase in power dissipation and silicon area overhead.
This paper presents a dual-modular-redundancy and dual-level error-interception based triple-node-upset (TNU) tolerant latch design (namely DDETT) for safety-critical applications. The DDETT latch comprises two parallel single-node-upset self-recoverable cells to store values and three C-elements to intercept errors. Both of the two cells are constructed from triple mutually-feeding-back 2-input C-elements, and the cells feed two internal C-elements for first-level error-interception. Moreover, the two internal C-elements feed an output-stage C-element for second-level error-interception, making the DDETT latch TNU-tolerant in that it can tolerate any possible TNU. This paper further presents a low-cost version of the DDETT latch, namely LCDDETT. The LCDDETT latch uses two dual-interlocked-storage-cells (DICEs) to store values and uses dual-level error-interception to tolerate any possible TNU with cost-effectiveness. Simulation results not only confirm the TNU-tolerance of the proposed latches but also demonstrate that the delay-power-area products of the DDETT and LCDDETT latches are reduced by approximately 34% and 58%, respectively.
Aggressive scaling of CMOS technologies requires to pay attention to the reliability issues of circuits. This paper presents two highly reliable RHBD 10T and 12T SRAM cells, which can protect against single-node upsets (SNUs) and double-node upsets (DNUs). The 10T cell mainly consists of two cross-coupled input-split inverters and the cell can robustly keep stored values through a feedback mechanism among its internal nodes. It also has a low cost in terms of area and power consumption, since it uses only a few transistors. Based on the 10T cell, a 12T cell is proposed that uses four parallel access transistors. The 12T cell has a reduced read/write access time with the same soft error tolerance when compared to the 10T cell. Simulation results demonstrate that the proposed cells can recover from SNUs and a part of DNUs. Moreover, compared with the state-of-the-art hardened SRAM cells, the proposed 10T cell can save 28.59% write access time, 55.83% read access time, and 4.46% power dissipation at the cost of 4.04% silicon area on average.
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