Analysis of radiation-hardening techniques for 6T SRAMs with structured layouts

2009 IEEE International Reliability Physics Symposium Pub Date : 2009-04-26 DOI:10.1109/IRPS.2009.5173351
G. Torrens, B. Alorda, S. Bota, J. Segura
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引用次数: 11

Abstract

We analyze two complementary radiation-hardening techniques for 6T SRAM memories compatible with structured layouts. One approach relies on the individual selection of the threshold voltage of each of the four transistors forming the cross-coupled inverters of the SRAM cell. The other one is based on the modification of the widths of all pmos or all nmos transistors of the cell. The first technique does not affect the cell layout. The second one increases the minimum width of all pmos by a factor cp and the minimum width of all nmos by a factor cn. This prevents the formation of diffusion bends, allowing structured layouts. Both techniques provide an improvement in SEU robustness.
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6T结构sram辐射硬化技术分析
我们分析了兼容结构化布局的6T SRAM存储器的两种互补辐射硬化技术。一种方法依赖于形成SRAM单元的交叉耦合逆变器的四个晶体管中每个晶体管的阈值电压的单独选择。另一种是基于修改电池的所有pmos或所有nmos晶体管的宽度。第一种技术不会影响单元格布局。第二种方法将所有pmo的最小宽度增加一个因子cp,将所有nmo的最小宽度增加一个因子cn。这可以防止扩散弯曲的形成,从而实现结构化布局。这两种技术都提高了SEU的鲁棒性。
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2009 IEEE International Reliability Physics Symposium
2009 IEEE International Reliability Physics Symposium
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