DFF Architecture Impact on SEU Response in Different Semiconductor Technologies
Abstract not provided.
Publications
DFF Layout Variations in CMOS SOI -Analysis of Hardening by Design Options
IEEE Transactions on Nuclear Science
Four D flip-flop (DFF) layouts were created from the same schematic in Sandia National Laboratories' CMOS7 silicon-on-insulator (SOI) process. Single-event upset (SEU) modeling and testing showed an improved response with the use of shallow (not fully bottomed) N-type metal-oxide-semiconductor field-effect transistors (NMOSFETs), extending the size of the drain implant and increasing the critical charge of the transmission gates in the circuit design and layout. This research also shows the importance of correctly modeling nodal capacitance, which is a major factor determining SEU critical charge. Accurate SEU models enable the understanding of the SEU vulnerabilities and how to make the design more robust.
DFF Layout Variations in CMOS SOI ? Analysis of Hardening by Design Options
Abstract not provided.
Using MRED to Screen Multiple-Node Charge-Collection Mitigated SOI Layouts
IEEE Transactions on Nuclear Science
Silicon-on-insulator latch designs and layouts that are robust to multiple-node charge collection are introduced. A general Monte Carlo radiative energy deposition (MRED) approach is used to identify potential single-event susceptibilities associated with different layouts prior to fabrication. MRED is also applied to bound single-event testing responses of standard and dual interlocked cell latch designs. Heavy ion single-event testing results validate new latch designs and demonstrate bounds for standard latch layouts.
Using MRED to Screen Multiple Node Charge Collection Mitigated SOI Layouts
Abstract not provided.
5 Results