As an important spaceborne electronic device, the static random access memory (SRAM) device is inevitably affected by the radiation of high-energy particles in space during its space mission. To reveal the single event effect (SEE) mechanism of 28 nm technology SRAM caused by high-energy particles, the sensitive area positioning of single event upsets (SEUs) and the distribution characteristics of multi-cell upsets (MCUs) were studied based on the pinhole heavy ion micro-beam facility. The results show that the actual range of SEUs caused by micro-beam irradiation is 4.8 μm × 7.8 μm. By moving the device platform in small steps (1 μm each step), a one-dimensional positioning method for locating the sensitive area of SEUs was established, wh...
International audienceWhile single bit upsets on memories and storage elements are mitigated with ei...
The total ionizing dose (TID) effects on single-event upset (SEU) hardness are investigated for two ...
As transistor sizes scale down to nanometres dimensions, CMOS circuits become more sensitive to radi...
Static random access memory cells (SRAM) are high-speed semiconductor memory that uses flip-flop to...
Technology scaling of CMOS devices has made the integrated circuits vulnerable to single event radia...
International audienceThis article reviews state-of-the-art techniques for the evaluation of the eff...
The space industry is continuing to use commercial off the shelf (COTS) devices in satellites where ...
With the rise of the transistor in the 1970s, electronics shifted from analog circuitry, where value...
International audienceA sensitivity characterization of a Xilinx Artix-7 field programmable gate arr...
Heavy charged particle induced soft errors in semiconductor memory devices have been a field failure...
Experimental methods are emphatically described for doing Single Event Effects (SEE) experiments on ...
International audienceThree synchronous dynamic random access memories (SDRAMs) from the same manufa...
The single event upset (SEU) imaging has been applied at the GSI heavy ion microprobe to determine t...
Characteristics of single event effects on 14/16-nm bulk FinFETs and static random access memories (...
Single event effects (SEEs) in a 28-nm system-on-chip (SoC) were assessed using heavy ion irradiatio...
International audienceWhile single bit upsets on memories and storage elements are mitigated with ei...
The total ionizing dose (TID) effects on single-event upset (SEU) hardness are investigated for two ...
As transistor sizes scale down to nanometres dimensions, CMOS circuits become more sensitive to radi...
Static random access memory cells (SRAM) are high-speed semiconductor memory that uses flip-flop to...
Technology scaling of CMOS devices has made the integrated circuits vulnerable to single event radia...
International audienceThis article reviews state-of-the-art techniques for the evaluation of the eff...
The space industry is continuing to use commercial off the shelf (COTS) devices in satellites where ...
With the rise of the transistor in the 1970s, electronics shifted from analog circuitry, where value...
International audienceA sensitivity characterization of a Xilinx Artix-7 field programmable gate arr...
Heavy charged particle induced soft errors in semiconductor memory devices have been a field failure...
Experimental methods are emphatically described for doing Single Event Effects (SEE) experiments on ...
International audienceThree synchronous dynamic random access memories (SDRAMs) from the same manufa...
The single event upset (SEU) imaging has been applied at the GSI heavy ion microprobe to determine t...
Characteristics of single event effects on 14/16-nm bulk FinFETs and static random access memories (...
Single event effects (SEEs) in a 28-nm system-on-chip (SoC) were assessed using heavy ion irradiatio...
International audienceWhile single bit upsets on memories and storage elements are mitigated with ei...
The total ionizing dose (TID) effects on single-event upset (SEU) hardness are investigated for two ...
As transistor sizes scale down to nanometres dimensions, CMOS circuits become more sensitive to radi...