2021 IEEE International Reliability Physics Symposium (IRPS) 2021
DOI: 10.1109/irps46558.2021.9405120
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Embedded emerging memory technologies for neuromorphic computing: temperature instability and reliability

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Cited by 7 publications
(3 citation statements)
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“…The RRAM macro exhibited a linear growth of conductance through modulation of the voltage sweep. With the sweeping voltage greater than 0.8 V, the conductance continuously changed from 10 µS to 240 µS, indicating a linear relationship between conductivity and applied voltage, thereby enabling uniform steps within a specific range [163]. However, the accuracy of neuromorphic devices and neural networks can be impacted by device instability at high temperatures.…”
Section: Advancements In Mature Embedded Rram Chip Technologymentioning
confidence: 99%
“…The RRAM macro exhibited a linear growth of conductance through modulation of the voltage sweep. With the sweeping voltage greater than 0.8 V, the conductance continuously changed from 10 µS to 240 µS, indicating a linear relationship between conductivity and applied voltage, thereby enabling uniform steps within a specific range [163]. However, the accuracy of neuromorphic devices and neural networks can be impacted by device instability at high temperatures.…”
Section: Advancements In Mature Embedded Rram Chip Technologymentioning
confidence: 99%
“…A potential issue for RRAM-based IMC is the limited precision of conductance, which is affected by programming variations [12], [13], random telegraph noise (RTN) [14], drift [15], and other types of random fluctuations [16], [17]. Additionally, reliability concerns at array-level such as conductance relaxation over time [18] and temperature instability [19] also challenge the achievement of a stable and high accuracy in RRAM-based IMC. Multilevel-cell (MLC) program/verify techniques have been proposed to overcome the variability effects and improve the precision of conductance in RRAM [20]- [23].…”
Section: Introductionmentioning
confidence: 99%
“…1,2 In addition, the emerging memristive technologies as called ReRAM (resistive random-access memory), have shown that both advanced CMOS node implementation (beyond 14 nm FeFET) and capability for multilevel cell (MLC) application (enabling the flexibility of weighting modulation as synaptic device) by precise electrical control of the filament growth. 3,4 This opens an opportunity for embedded memory and further applications, 5 e.g., neuromorphic computing, which takes inspiration from the high parallelism in the human brain, low power, high speed, and noise-tolerant computing capabilities.…”
mentioning
confidence: 99%