Synergistic effects of total ionizing dose on single event upset sensitivity in static random access memory under proton irradiation

Nitrogen plasma passivation （NPP） on （111） germanium （Ge） was studied in terms of the interface trap density, roughness, and interfacial layer thickness using plasma-enhanced chemical vapor deposition （PECVD）. The results show that NPP not only reduces the interface states, but also improves the surface roughness of Ge, which is beneficial for suppressing the channel scattering at both low and high field regions of Ge MOSFETs. However, the interracial layer thickness is also increased by the NPP treatment, which will impact the equivalent oxide thickness （EOT） scaling and thus degrade the device performance gain from the improvement of the surface morphology and the interface passivation. To obtain better device performance of Ge MOSFETs, suppressing the interfacial layer regrowth as well as a trade-off with reducing the interface states and roughness should be considered carefully when using the NPP process.     

静态随机存储器单粒子翻转效应三维数值模拟

针对特征尺寸为1.5 μm的国产静态随机存储器（SRAM）,构建了三维SRAM存储单元模型,并对重离子引起的SRAM单粒子翻转效应进行了数值模拟.计算并分析了单粒子引起的单粒子翻转和电荷收集的物理图像,得到了SRAM器件的单粒子翻转截面曲线.单粒子翻转的数值模拟结果与重离子微束、重离子宽束实验结果比较一致,表明所建立的三维器件模型可以用来研究SRAM器件的单粒子翻转效应. 关键词： 三维数值模拟 单粒子翻转 微束 宽束     

静态单粒子翻转截面的获取及分类

为了评估静态随机访问存储器(SRAM)型现场可编程门阵列(FPGA)器件的单粒子效应,寻求单粒子翻转敏感部位,以XCV300PQ240为实验样品,利用重离子辐照装置详细测试了该器件的静态翻转截面,并根据配置存储单元用途的不同,对翻转数据进行了分类。结果表明：SRAM型FPGA的内部存储单元对单粒子翻转效应十分敏感;配置存储器翻转主要由查找表(LUT)及互连线资控制位造成,这两者的翻转占总翻转数的97.46%;配置存储器中各类资源的单粒子翻转(SEU)敏感性并不一致,输入输出端口(IOB)控制位和LUT的单粒子翻转的敏感性远高于其它几类资源,但LUT在配置存储器中占有很大比例,在加固时应予以重点考虑。     

累积辐照影响静态随机存储器单粒子翻转敏感性的仿真研究

基于解析分析对比了大尺寸与深亚微米尺度下静态随机存取存储器(static random access memory, SRAM)单元单粒子翻转敏感性的表征值及引入累积辐照后的变化趋势. 同时借助仿真模拟计算了0.18 μm工艺对应的六管SRAM单元在对应不同累积剂量情况下, 离子分别入射不同中心单管时的电学响应变化, 计算结果与解析分析所得推论相一致, 即只有当累积辐照阶段与单粒子作用阶段存储相反数值时, SRAM单元的单粒子翻转敏感性才会增强. 关键词： 累积辐照 单粒子翻转 静态随机存储器 器件仿真     

Recovery of single event upset in advanced complementary metal-oxide semiconductor static random access memory cells

Using computer-aided design three-dimensional (3D) simulation technology,the recovery mechanism of single event upset and the effects of spacing and hit angle on the recovery are studied.It is found that the multi-node charge collection plays a key role in recovery and shielding the charge sharing by adding guard rings.It cannot exhibit the recovery effect.It is also indicated that the upset linear energy transfer (LET) threshold is kept constant while the recovery LET threshold increases as the spacing increases.Additionally,the effect of incident angle on recovery is analysed and it is shown that a larger angle can bring about a stronger charge sharing effect,thus strengthening the recovery ability.     

Recovery of single event upset in advanced complementary metalben oxide semiconductor static random access memory cells

Using computer-aided design three-dimensional (3D) simulation technology, the recovery mechanism of single event upset and the effects of spacing and hit angle on the recovery are studied. It is found that the multi-node charge collection plays a key role in recovery and shielding the charge sharing by adding guard rings. It cannot exhibit the recovery effect. It is also indicated that the upset linear energy transfer (LET) threshold is kept constant while the recovery LET threshold increases as the spacing increases. Additionally, the effect of incident angle on recovery is analysed and it is shown that a larger angle can bring about a stronger charge sharing effect, thus strengthening the recovery ability.     

Ionizing radiation effect on single event upset sensitivity of ferroelectric random access memory

The impact of ionizing radiation effect on single event upset(SEU) sensitivity of ferroelectric random access memory(FRAM) is studied in this work. The test specimens were firstly subjected to ~(60)Co γ-ray and then the SEU evaluation was conducted using ~(209)Bi ions. As a result of TID-induced fatigue-like and imprint-like phenomena of the ferroelectric material, the SEU cross sections of the post-irradiated devices shift substantially. Different trends of SEU cross section with elevated dose were also found, depending on whether the same or complementary test pattern was employed during the TID exposure and the SEU measurement.     

单粒子翻转脉冲激光模拟的能量阈值的计算

 根据光的吸收机理,分析了单粒子效应脉冲激光模拟实验中所需用的脉冲激光的特点,探讨了脉冲激光单粒子效应的Monte Carlo计算模拟途径。在只考虑光电效应的简化下,得到存储器硅片单粒子翻转时入射脉冲激光能量阈值与临界电荷的计算关系式,进而给出该硅片的翻转截面的计算公式。在给定了存储器硅片的临界电荷的情况下,对入射脉冲激光能量阈值和单粒子翻转截面进行了计算。     

基于蒙特卡洛和器件仿真的单粒子翻转计算方法

文章提出了一种基于蒙特卡洛和器件仿真的存储器单粒子翻转截面获取方法,可以准确计算存储器单粒子效应,并定位单粒子翻转的灵敏区域.基于该方法,计算了国产静态存储器和现场可编程门阵列(FPGA)存储区的单粒子效应的截面数据,仿真结果和重离子单粒子效应试验结果符合较好.仿真计算揭示了器件单粒子翻转敏感程度与器件n,p截止管区域面积相关的物理机理,并获得了不同线性能量转移(LET)值下单粒子翻转灵敏区域分布.采用蒙特卡洛方法计算了具有相同LET、不同能量的离子径迹分布,结果显示高能离子的电离径迹半径远大于低能离子,而低能离子径迹中心的能量密度却要高约两到三个数量级.随着器件特征尺寸的减小,这种差别的影响将会越来越明显,阈值LET和饱和截面将不能完全描述器件单粒子效应结果.     

静态随机存储器单粒子效应的角度影响研究

利用兰州重离子加速器加速的高能离子研究了入射角度对IDT71256的单粒子翻转截面和多位翻转比例的影响.研究表明：在大角度掠射轰击下单粒子翻转截面的增大包括了多位翻转的贡献；离子在器件敏感层中沉积的能量及其横向分布是影响多位翻转的两个重要参数，IDT71256发生三位以上多位翻转的比例随着离子入射角度的增大而增加. 关键词： 静态存储器 单粒子翻转 多位翻转 沉积能量 横向分布     

14 nm FinFET和65 nm平面工艺静态随机存取存储器中子单粒子翻转对比

使用中国散裂中子源提供的宽能谱中子束流,开展14 nm FinFET工艺和65 nm平面工艺静态随机存取存储器中子单粒子翻转对比研究,发现相比于65 nm器件,14 nm FinFET器件的大气中子单粒子翻转截面下降至约1/40,而多位翻转比例从2.2%增大至7.6%,源于14 nm FinFET器件灵敏区尺寸(80 nm×30 nm×45 nm)、间距和临界电荷(0.05 fC)的减小.不同于65 nm器件对热中子免疫的现象,14 nm FinFET器件中M0附近10B元素的使用导致其表现出一定的热中子敏感性.进一步的中子输运仿真结果表明,高能中子在器件灵敏区中产生的大量的射程长、LET值大的高Z二次粒子是多位翻转的产生诱因,而单粒子翻转主要来自于p,He,Si等轻离子的贡献.     

Study on the dose rate upset effect of partially depleted silicon-on-insulator static random access memory

This paper implements the study on the Dose Rate Upset effect of PDSOI SRAM (Partially Depleted Silicon-On-Insulator Static Random Access Memory) with the Qiangguang-I accelerator in Northwest Institute of Nuclear Technology. The SRAM (Static Random Access Memory) chips are developed by the Institute of Microelectronics of Chinese Academy of Sciences. It uses the full address test mode to determine the upset mechanisms. Specified address test is taken in the same time. The test results indicate that the upset threshold of the PDSOI SRAM is about 1x10⁸Gy(Si)/s. However, there are few bits upset when the dose rate reaches up to 1.58x10⁹Gy(Si)/s. The SRAM circuit can still work after the high level γ ray pulse. Finally, the upset mechanism is determined to be the rail span collapse by comparing the critical charge with the collected charge after γ ray pulse. The physical locations of upset cells are plotted in the layout of the SRAM to investigate the layout defect. Then, some layout optimizations have been taken to improve the dose rate hardened performance of the PDSOI SRAM.     

累积剂量影响静态随机存储器单粒子效应敏感性研究

本文利用60Coγ源和兰州重离子加速器,开展不同累积剂量下,静态随机存储器(static random access memory,SRAM)单粒子效应敏感性研究,获取不同累积剂量下SRAM器件单粒子效应敏感性的变化趋势,分析其辐照损伤机理.研究表明,随着累积剂量的增加,SRAM器件漏电流增大,影响存储单元低电平保持电压、高电平下降时间等参数,导致"反印记效应".研究结果为空间辐射环境中宇航器件的可靠性分析提供技术支持.     

Experimental study on radiation effects in floating gate read-only-memories and static random access memories

Radiation effects of the floating gate read-only-memory (FG ROM) and the static random access memory (SRAM) have been evaluated using the 14~MeV neutron and 31.9MeV proton beams and Co-60 $\gamma $-rays. The neutron fluence, when the first error occurs in the FG ROMs, is at least 5 orders of magnitude higher than that in the SRAMs, and the proton fluence, 4 orders of magnitude higher. The total dose threshold for Co-60 $\gamma $-ray irradiation is about 10$^{4}$~rad (Si) for both memories. The difference and similarity are attributed to the structure of the memory cells and the mechanism of radiation effects. It is concluded that the FG ROMs are more reliable as semiconductor memories for storing data than the SRAMs, when they are used in the satellites or space crafts exposed to high energy particle radiation.     

Supply voltage scaled dependency of the recovery of single event upset in advanced complementary metal-oxide-semiconductor static random-access memory cells

Using the technology computer-aided design three-dimensional simulation, the supply voltage scaled dependency of the recovery of single event upset and charge collection in static random-access memory cells are investigated. It reveals that the recovery linear energy transfer threshold decreases with the supply voltage reducing, which is quite attractive to the dynamic voltage scaling and subthreshold circuits radiation-hardened design. Additionally, the effect of supply voltage on charge collection is also investigated. It is concluded that the supply voltage mainly affects the bipolar gain of parasitical bipolar junction transistor (BJT) and the existence of the source plays an important role in the supply voltage variation.     

The supply voltage scaled dependency of the recovery of single event upset in advanced complementary metal-oxide-semiconductor static random-access memory cells

Using computer-aided design three-dimensional simulation technology,the supply voltage scaled dependency of the recovery of single event upset and charge collection in static random-access memory cells are investigated.It reveals that the recovery linear energy transfer threshold decreases with the supply voltage reducing,which is quite attractive for dynamic voltage scaling and subthreshold circuit radiation-hardened design.Additionally,the effect of supply voltage on charge collection is also investigated.It is concluded that the supply voltage mainly affects the bipolar gain of the parasitical bipolar junction transistor(BJT) and the existence of the source plays an important role in supply voltage variation.     

Pattern dependence in synergistic effects of total dose on single-event upset hardness

The pattern dependence in synergistic effects was studied in a 0.18 μm static random access memory(SRAM) circuit.Experiments were performed under two SEU test environments:3 Me V protons and heavy ions.Measured results show different trends.In heavy ion SEU test,the degradation in the peripheral circuitry also existed because the measured SEU cross section decreased regardless of the patterns written to the SRAM array.TCAD simulation was performed.TIDinduced degradation in n MOSFETs mainly induced the imprint effect in the SRAM cell,which is consistent with the measured results under the proton environment,but cannot explain the phenomena observed under heavy ion environment.A possible explanation could be the contribution from the radiation-induced GIDL in pMOSFETs.     

单粒子翻转脉冲激光模拟的能量阈值的计算

根据光的吸收机理,分析了单粒子效应脉冲激光模拟实验中所需用的脉冲激光的特点,探讨了脉冲激光单粒子效应的Monte Carlo计算模拟途径。在只考虑光电效应的简化下,得到存储器硅片单粒子翻转时入射脉冲激光能量阈值与临界电荷的计算关系式,进而给出该硅片的翻转截面的计算公式。在给定了存储器硅片的临界电荷的情况下,对入射脉冲激光能量阈值和单粒子翻转截面进行了计算。     

Pattern imprinting in deep sub-micron static random access memories induced by total dose irradiation

Pattern imprinting in deep sub-micron static random access memories(SRAMs) during total dose irradiation is investigated in detail. As the dose accumulates, the data pattern of memory cells loading during irradiation is gradually imprinted on their background data pattern. We build a relationship between the memory cell’s static noise margin(SNM) and the background data, and study the influence of irradiation on the probability density function of ?SNM, which is the difference between two data sides’ SNMs, to discuss the reason for pattern imprinting. Finally, we demonstrate that, for micron and deep sub-micron devices, the mechanism of pattern imprinting is the bias-dependent threshold shift of the transistor, but for a deep sub-micron device the shift results from charge trapping in the shallow trench isolation(STI) oxide rather than from the gate oxide of the micron-device.     

Impact of energy straggle on proton-induced single event upset test in a 65-nm SRAM cell

This paper presents a simulation study of the impact of energy straggle on a proton-induced single event upset(SEU)test in a commercial 65-nm static random access memory cell. The simulation results indicate that the SEU cross sections for low energy protons are significantly underestimated due to the use of degraders in the SEU test. In contrast, using degraders in a high energy proton test may cause the overestimation of the SEU cross sections. The results are confirmed by the experimental data and the impact of energy straggle on the SEU cross section needs to be taken into account when conducting a proton-induced SEU test in a nanodevice using degraders.