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We present a practical, systematical method for the evaluation of the soft error rate (SER) of microelectronic devices. Existing methodologies, practices and tools are integrated in a common approach while highlighting the need for specific data or tools. The showcased method is particularly adapted for evaluating the SER of very complex microelectronic devices by engineers confronted to increasingly...
Soft errors caused by ionizing radiation have emerged as a major concern for current generation of CMOS technologies and the trend is expected to get worse. Soft error rate (SER) measurement, expressed as number of failures encountered per billion hours of device operation, is time consuming and involves significant test cost. The cost stems from having to connect a device-under-test to a tester for...
With technology scaling, vulnerability to soft errors in random logic is increasing. There is a need for on-line error detection and protection for logic gates even at sea level. The error checker is the key element for an on-line detection mechanism. We compare three different checkers for error detection from the point of view of area, power and false error detection rates. We find that the double...
Soft errors induced by cosmic radiation have become an urgent issue for ultra-deep-sub-micron (UDSM) technologies. In this paper, we propose a new radiation hardened by design latch (RHBDL). RHBDL can improve robustness by masking the soft errors induced by SEU and SET. We evaluate the propagation delay, power dissipation and power delay product of RHBDL using SPICE simulations. Compared with existing...
In this paper, we investigate optimum radiation hardened by design (RHBD) for use against single-event transients (SET) using low-pass filters (LPF) including RHBD techniques against single-event upsets (SEU) for sequential logic in 45 -nm technology in a terrestrial environment. Three types of LPF were investigated regarding their SET pulse immunities, area penalties, and performance penalties. We...
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