International audienceThree synchronous dynamic random access memories (SDRAMs) from the same manufacturer with technology node sizes 110, 72, and 63 nm, were investigated under proton irradiation and using scanning electron microscope (SEM). The radiation-induced faults were characterized and compared between the different part types. The devices under test (DUTs) were irradiated with protons and experienced single-event effects (SEEs) in the form of stuck bits and single-bit upsets (SBUs). Analysis of the data retention times of bits which had SBU and were stuck during irradiation showed similar patterns of retention-time degradation, suggesting that the SBUs and stuck bits in all the three part types could be induced by the same mechanis...
This work targets the study of the effects of high-energy protons on a commercial self-refresh DRAM....
Embedded processors had been established as common components in modern systems. Usually, they are p...
In New Space, the need for reduced cost, higher performance, and more prompt delivery plans in radia...
This study analyses the response of synchronous dynamic random access memories to neutron irradiatio...
This study investigates the response of synchronous dynamic random access memories to energetic elec...
This paper shares the effects of row hammer fault through high-energy proton radiation. The signific...
Dynamic random access memory (DRAM) data retention time degradation induced by radiation exposure is...
This paper proposes the Active Precharge Hammering on a Row (APHR) test to evaluate displacement dam...
Static random access memory cells (SRAM) are high-speed semiconductor memory that uses flip-flop to...
A single particle generates a Single Event Upset(SEU) as well as dose effects in silicon devices. Th...
As an important spaceborne electronic device, the static random access memory (SRAM) device is inevi...
The field of radiation effects in electronics research includes unknowns for every new device, node ...
The authors report total ionizing dose and single event effects on 2Gb Samsung flash memory devices ...
International audienceThe field of radiation effects in electronics research includes unknowns for e...
Single-event upset (SEU) hardness varies across dies, wafers, and lots—even just after fabrication a...
This work targets the study of the effects of high-energy protons on a commercial self-refresh DRAM....
Embedded processors had been established as common components in modern systems. Usually, they are p...
In New Space, the need for reduced cost, higher performance, and more prompt delivery plans in radia...
This study analyses the response of synchronous dynamic random access memories to neutron irradiatio...
This study investigates the response of synchronous dynamic random access memories to energetic elec...
This paper shares the effects of row hammer fault through high-energy proton radiation. The signific...
Dynamic random access memory (DRAM) data retention time degradation induced by radiation exposure is...
This paper proposes the Active Precharge Hammering on a Row (APHR) test to evaluate displacement dam...
Static random access memory cells (SRAM) are high-speed semiconductor memory that uses flip-flop to...
A single particle generates a Single Event Upset(SEU) as well as dose effects in silicon devices. Th...
As an important spaceborne electronic device, the static random access memory (SRAM) device is inevi...
The field of radiation effects in electronics research includes unknowns for every new device, node ...
The authors report total ionizing dose and single event effects on 2Gb Samsung flash memory devices ...
International audienceThe field of radiation effects in electronics research includes unknowns for e...
Single-event upset (SEU) hardness varies across dies, wafers, and lots—even just after fabrication a...
This work targets the study of the effects of high-energy protons on a commercial self-refresh DRAM....
Embedded processors had been established as common components in modern systems. Usually, they are p...
In New Space, the need for reduced cost, higher performance, and more prompt delivery plans in radia...