论文信息 - Efficient Reliability Testing of Emerging Memory Technologies Using Multiple Radiation Sources

Efficient Reliability Testing of Emerging Memory Technologies Using Multiple Radiation Sources

Abstract New semiconductor technologies can be difficult and costly to test for radiation reliability. Because the sample space for experiments may be large with new technologies, cost-effect use of specific testing methods can maximize the information obtained while reducing cost. Alternatives to particle accelerator testing are described that can inform later accelerator tests to maximize the use of the available accelerator beam time. Resistive Random Access Memories, a new emerging non-volatile memory, are used as a case study to guide this discussion.

[1] S. Buchner,et al. Critical evaluation of the pulsed laser method for single event effects testing and fundamental studies , 1994 .

[2] G. L. Hash,et al. Impact of Heavy Ion Energy and Nuclear Interactions on Single-Event Upset and Latchup in Integrated Circuits , 2007, IEEE Transactions on Nuclear Science.

[3] R. Pease,et al. Subbandgap laser-induced single event effects: carrier generation via two-photon absorption , 2002 .

[4] A.F. Witulski,et al. Soft-Error Charge-Sharing Mechanisms at Sub-100nm Technology Nodes , 2007, 2007 IEEE International Conference on Integrated Circuit Design and Technology.

[5] Robert J. Walters,et al. Damage correlations in semiconductors exposed to gamma, electron and proton radiations , 1993 .

[6] J.A. Felix,et al. Radiation Effects in MOS Oxides , 2008, IEEE Transactions on Nuclear Science.

[7] L. W. Massengill,et al. Three-dimensional mapping of single-event effects using two photon absorption , 2003 .

[8] Qi Liu,et al. Highly Stable Radiation-Hardened Resistive-Switching Memory , 2010, IEEE Electron Device Letters.

[9] Daniel M. Fleetwood,et al. Using laboratory X-ray and cobalt-60 irradiations to predict CMOS device response in strategic and space environments , 1988 .