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Heavy-ion flux is an important experimental parameter in the ground based single event tests. The flux impact on a single event effect in different memory devices is analyzed by using GEANT4 and TCAD simulation methods. The transient radial track profile depends not only on the linear energy transfer(LET) of the incident ion, but also on the mass and energy of the ion. For the ions with the energies at the Bragg peaks, the radial charge distribution is wider when the ion LET is larger. The results extracted from the GEANT4 and TCAD simulations, together with detailed analysis of the device structure, are presented to demonstrate phenomena observed in the flux related experiment. The analysis shows that the flux effect conclusions drawn from the experiment are intrinsically connected and all indicate the mechanism that the flux effect stems from multiple ion-induced pulses functioning together and relies exquisitely on the specific response of the device. 相似文献
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电离总剂量(TID)与单粒子效应(SEE)是纳米SRAM器件在航天应用中的主要威胁。随着CMOS工艺的进步,两种辐射效应在纳米SRAM器件中的协同效应出现了一些新现象,有必要进一步开展深入研究。利用γ射线以及不同种类重离子对两款纳米SRAM器件开展了辐照实验,研究了不同辐照参数、测试模式以及数据图形条件下,电离总剂量对单粒子翻转(SEU)敏感性的影响。研究结果表明,γ射线辐照过后,存储单元中反相器开关阈值减小,漏电流增大,导致SRAM存储单元抗翻转能力降低,SEU截面有明显增大;未观察到\"印记效应\",数据图形对测试结果没有明显影响;多位翻转(MBU)比例无明显变化。 相似文献
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Neutron-induced single event upset simulation in Geant4 for three-dimensional die-stacked SRAM 
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下载免费PDF全文 Three-dimensional integrated circuits(3D ICs)have entered into the mainstream due to their high performance,high integration,and low power consumption.When used in atmospheric environments,3D ICs are irradiated inevitably by neutrons.In this paper,a 3D die-stacked SRAM device is constructed based on a real planar SRAM device.Then,the single event upsets(SEUs)caused by neutrons with different energies are studied by the Monte Carlo method.The SEU cross-sections for each die and for the whole three-layer die-stacked SRAM device is obtained for neutrons with energy ranging from 1 MeV to 1000 MeV.The results indicate that the variation trend of the SEU cross-section for every single die and for the entire die-stacked device is consistent,but the specific values are different.The SEU cross-section is shown to be dependent on the threshold of linear energy transfer(LETth)and thickness of the sensitive volume(Tsv).The secondary particle distribution and energy deposition are analyzed,and the internal mechanism that is responsible for this difference is illustrated.Besides,the ratio and patterns of multiple bit upset(MBU)caused by neutrons with different energies are also presented.This work is helpful for the aerospace IC designers to understand the SEU mechanism of 3D ICs caused by neutrons irradiation. 相似文献
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Geant4 Monte Carlo simulation results of the single event upset(SEU) induced by protons with energy ranging from0.3 MeV to 1 GeV are reported.The SEU cross section for planar and three-dimensional(3 D) die-stacked SRAM are calculated.The results show that the SEU cross sections of the planar device and the 3 D device are different from each other under low energy proton direct ionization mechanism,but almost the same for the high energy proton.Besides,the multi-bit upset(MBU) ratio and pattern are presented and analyzed.The results indicate that the MBU ratio of the 3 D die-stacked device is higher than that of the planar device,and the MBU patterns are more complicated.Finally,the onorbit upset rate for the 3 D die-stacked device and the planar device are calculated by SPACE RADIATION software.The calculation results indicate that no matter what the orbital parameters and shielding conditions are,the on-orbit upset rate of planar device is higher than that of 3 D die-stacked device. 相似文献
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