Radiation-Induced Soft Error Rates of Advanced CMOS Bulk Devices

Author

Seifert, N. ; Slankard, P. ; Kirsch, M. ; Narasimham, B. ; Zia, V. ; Brookreson, C. ; Vo, A. ; Mitra, S. ; Gill, B. ; Maiz, J.

Author_Institution

Logic Technol. Dev. Q & R, Intel Corp., Hillsboro, OR

fYear

2006

fDate

26-30 March 2006

Firstpage

217

Lastpage

225

Abstract

This work provides a comprehensive summary of radiation-induced soft error rate (SER) scaling trends of key CMOS bulk devices. Specifically we analyzed the SER per bit scaling trends of SRAMs, sequentials and static combinational logic. Our results show that for SRAMs the single-bit soft error rate continues to decrease whereas the multi-bit SER increases dramatically. While the total soft error rate of logic devices (sequentials and static combinational devices) has not changed significantly, a substantial increase in the susceptibility to alpha particles is observed. Finally, a novel methodology to extract one-dimensional cross sections of the collected charge distributions from measured multi-bit statistics is introduced

Keywords

CMOS integrated circuits; SRAM chips; alpha-particle effects; combinational circuits; logic devices; sequential circuits; CMOS bulk devices; SRAM; alpha particles; charge distributions; logic devices; radiation-induced soft error rates; sequentials logic; static combinational logic; Alpha particles; CMOS logic circuits; CMOS technology; Error analysis; Interleaved codes; Logic devices; Microprocessors; Neutrons; Random access memory; Testing; MBU; SER; SEU; SRAM; charge collection; logic; radiation; sequential; soft error;

fLanguage

English

Publisher

ieee

Conference_Titel

Reliability Physics Symposium Proceedings, 2006. 44th Annual., IEEE International

Conference_Location

San Jose, CA

Print_ISBN

0-7803-9498-4

Electronic_ISBN

0-7803-9499-2

Type

conf

DOI

10.1109/RELPHY.2006.251220

Filename

4017161