The authors report total ionizing dose and single event effects on 2Gb Samsung flash memory devices after exposure to 200 MeV protons to various doses up to 83 krad(Si). They characterize observed failures and single event upsets on 22 devices from two different lots. Devices from both lots are robust to greater than 20 krad(Si) although they see evidence for lot-to-lot variation where only one lot appears robust up to about 50 krad(Si). Single event upsets are observed at a relatively low rate and are consistent with single isolated bit flips within registers that transfer bits to and from the flash memory cells
Floating gate cells in advanced NAND Flash memories, with single-level and multi-level cell archite...
We investigated the single-event effect (SEE) susceptibility of the Micron 16 nm NAND flash, and fou...
We study the effects of exposure to accelerated neutron beams of Floating Gate (FG) Flash memories ...
The corruption of floating gate bits due to high-energy protons is analyzed in 41-nm single level NA...
We review ionizing radiation effects in Flash memories, the current dominant technology in the comme...
Space applications frequently use flash memories for mass storage data. However, the technology appl...
We compare radiation effects on the highest density multi-level cell NOR and single-level cell NAND ...
International audienceThree synchronous dynamic random access memories (SDRAMs) from the same manufa...
We evaluated the effects of heavy ion and proton irradiation for a 3D NAND flash. The 3D NAND showed...
Besides being widely used in virtually all terrestrial applications requiring non-volatile storage, ...
This paper discusses the current problem of the electronic memory reliability in terms of the ionizi...
We investigated the single-event effect (SEE) susceptibility of the Micron 16 nm NAND flash, and fou...
This work targets the study of the effects of high-energy protons on a commercial self-refresh DRAM....
This paper shares the effects of row hammer fault through high-energy proton radiation. The signific...
We analyzed floating-gate upsets in 25-nm multilevel cell NAND Flash memories irradiated with heavy ...
Floating gate cells in advanced NAND Flash memories, with single-level and multi-level cell archite...
We investigated the single-event effect (SEE) susceptibility of the Micron 16 nm NAND flash, and fou...
We study the effects of exposure to accelerated neutron beams of Floating Gate (FG) Flash memories ...
The corruption of floating gate bits due to high-energy protons is analyzed in 41-nm single level NA...
We review ionizing radiation effects in Flash memories, the current dominant technology in the comme...
Space applications frequently use flash memories for mass storage data. However, the technology appl...
We compare radiation effects on the highest density multi-level cell NOR and single-level cell NAND ...
International audienceThree synchronous dynamic random access memories (SDRAMs) from the same manufa...
We evaluated the effects of heavy ion and proton irradiation for a 3D NAND flash. The 3D NAND showed...
Besides being widely used in virtually all terrestrial applications requiring non-volatile storage, ...
This paper discusses the current problem of the electronic memory reliability in terms of the ionizi...
We investigated the single-event effect (SEE) susceptibility of the Micron 16 nm NAND flash, and fou...
This work targets the study of the effects of high-energy protons on a commercial self-refresh DRAM....
This paper shares the effects of row hammer fault through high-energy proton radiation. The signific...
We analyzed floating-gate upsets in 25-nm multilevel cell NAND Flash memories irradiated with heavy ...
Floating gate cells in advanced NAND Flash memories, with single-level and multi-level cell archite...
We investigated the single-event effect (SEE) susceptibility of the Micron 16 nm NAND flash, and fou...
We study the effects of exposure to accelerated neutron beams of Floating Gate (FG) Flash memories ...