Non-volatile memory (NVM) technology highly resistant to ionizing dose and radiation effects in general continues to be a challenge for space missions. Novel NVM nano-ionic technologies known as conductive bridging random access memory (CBRAM), a resistive circuit technology, exhibits great promise for both high density memory and high total ionizing dose resilience. In this work, it is discovered that CBRAM can be sensitive to high TID levels. However, this novel technology can be radiation-hardened by process, which is demonstrated in this paper
abstract: This work focuses on the existence of multiple resistance states in a type of emerging non...
Resistive random access memories (ReRAMs) have great potential as a candidate for next-generation no...
We present new results on heavy-ion irradiation of nanocrystal non-volatile addressable memory array...
In this study it is shown that Conductive Bridging Random Access Memory (CBRAM) might be sensitive t...
Two different displacement damage experiments were performed on CBRAM cells. In one experiment, cond...
Radiation tolerance of NROM memories is demonstrated at the level of industrial 4 Mbit memory embedd...
abstract: This work investigates the effects of ionizing radiation and displacement damage on the re...
Reliability study and investigation of ionizing radiation effects on advanced non-volatile memories....
International audienceAerospace applications are attractive candidates to embed Artificial Neural Ne...
abstract: Non-volatile memory (NVM) has become a staple in the everyday life of consumers. NVM manif...
Due to a rapid increase in the amount of data, there is a huge demand for the development of new mem...
From man-made satellites and interplanetary missions to fusion power plants, electronic equipment th...
We investigated the heavy ion single-event effect (SEE) susceptibility of the industrys first stand-...
As one of the newly introduced resistive random access memory (ReRAM) devices, this paper has shown ...
Resistive random access memory (RRAM) is recognized as a promising candidate for the next generation...
abstract: This work focuses on the existence of multiple resistance states in a type of emerging non...
Resistive random access memories (ReRAMs) have great potential as a candidate for next-generation no...
We present new results on heavy-ion irradiation of nanocrystal non-volatile addressable memory array...
In this study it is shown that Conductive Bridging Random Access Memory (CBRAM) might be sensitive t...
Two different displacement damage experiments were performed on CBRAM cells. In one experiment, cond...
Radiation tolerance of NROM memories is demonstrated at the level of industrial 4 Mbit memory embedd...
abstract: This work investigates the effects of ionizing radiation and displacement damage on the re...
Reliability study and investigation of ionizing radiation effects on advanced non-volatile memories....
International audienceAerospace applications are attractive candidates to embed Artificial Neural Ne...
abstract: Non-volatile memory (NVM) has become a staple in the everyday life of consumers. NVM manif...
Due to a rapid increase in the amount of data, there is a huge demand for the development of new mem...
From man-made satellites and interplanetary missions to fusion power plants, electronic equipment th...
We investigated the heavy ion single-event effect (SEE) susceptibility of the industrys first stand-...
As one of the newly introduced resistive random access memory (ReRAM) devices, this paper has shown ...
Resistive random access memory (RRAM) is recognized as a promising candidate for the next generation...
abstract: This work focuses on the existence of multiple resistance states in a type of emerging non...
Resistive random access memories (ReRAMs) have great potential as a candidate for next-generation no...
We present new results on heavy-ion irradiation of nanocrystal non-volatile addressable memory array...