Single event effects (SEEs) in a 28-nm system-on-chip (SoC) were assessed using heavy ion irradiations and susceptibility in different processor configurations with data accessing patterns are investigated. The patterns included the sole processor (SP) and asymmetric multiprocessing (AMP) patterns with static and dynamic data accessing. Single event upset (SEU) cross sections in static accessing can be more than twice as high as those of the dynamic accessing and processor configuration pattern is not a critical factor for the SEU cross sections. Cross section interval of upset events was evaluated and the soft error rates in aerospace were predicted for the SoC. The tests also indicated that ultra-high linear energy transfer (LET) par...
International audienceParticles originating from primary cosmic radiation, which hit the Earth's atm...
The 28 nm system-on-chip (SoC) was irradiated by 12 MeV electron at the China Institute of Atomic En...
International audienceThis work evaluates the SEE static and dynamic sensitivityof a single-chip man...
Single Event Effect (SEE) on Xilinx 28-nm System-on-Chip (SoC) was investigated by both simulation a...
International audienceDesigning integrated circuits in radiation environments such as the High Lumin...
With the development of silicon technologies, the minimum feature size of transistors has scaled dow...
As an important spaceborne electronic device, the static random access memory (SRAM) device is inevi...
Microelectronic devices and systems have been extensively utilized in a variety of radiation environ...
Radiation encountered in space environments can be damaging to microelectronics and potentially caus...
Experimental methods are emphatically described for doing Single Event Effects (SEE) experiments on ...
Abstract — Single-event upset effects from heavy ions were measured for Motorola silicon-on-insulato...
The single event upset (SEU) imaging has been applied at the GSI heavy ion microprobe to determine t...
This article studies the impact of radiation-induced single-event effects (SEEs) in the Zynq-7000 fi...
International audienceParticles originating from primary cosmic radiation, which hit the Earth's atm...
The 28 nm system-on-chip (SoC) was irradiated by 12 MeV electron at the China Institute of Atomic En...
International audienceThis work evaluates the SEE static and dynamic sensitivityof a single-chip man...
Single Event Effect (SEE) on Xilinx 28-nm System-on-Chip (SoC) was investigated by both simulation a...
International audienceDesigning integrated circuits in radiation environments such as the High Lumin...
With the development of silicon technologies, the minimum feature size of transistors has scaled dow...
As an important spaceborne electronic device, the static random access memory (SRAM) device is inevi...
Microelectronic devices and systems have been extensively utilized in a variety of radiation environ...
Radiation encountered in space environments can be damaging to microelectronics and potentially caus...
Experimental methods are emphatically described for doing Single Event Effects (SEE) experiments on ...
Abstract — Single-event upset effects from heavy ions were measured for Motorola silicon-on-insulato...
The single event upset (SEU) imaging has been applied at the GSI heavy ion microprobe to determine t...
This article studies the impact of radiation-induced single-event effects (SEEs) in the Zynq-7000 fi...
International audienceParticles originating from primary cosmic radiation, which hit the Earth's atm...
The 28 nm system-on-chip (SoC) was irradiated by 12 MeV electron at the China Institute of Atomic En...
International audienceThis work evaluates the SEE static and dynamic sensitivityof a single-chip man...