Accelerators for critical experiments involving single-particle upset in solid-state microcircuits
Abstract
Charged-particle interactions in microelectronic circuit chips (integrated circuits) present a particularly insidious problem for solid-state electronic systems due to the generation of soft errors or single-particle event upset (SEU) by either cosmic rays or other radiation sources. Particle accelerators are used to provide both light and heavy ions in order to assess the propensity of integrated circuit chips for SEU. Critical aspects of this assessment involve the ability to analytically model SEU for the prediction of error rates in known radiation environments. In order to accurately model SEU, the measurement and prediction of energy deposition in the form of an electron-hole plasma generated along an ion track is of paramount importance. This requires the use of accelerators which allow for ease in both energy control (change of energy) and change of ion species. This and other aspects of ion-beam control and diagnostics (e.g., uniformity and flux) are of critical concern for the experimental verification of theoretical SEU models.
- Publication:
-
Nuclear Instruments and Methods in Physics Research A
- Pub Date:
- 1985
- Bibcode:
- 1985NIMPA..10..757Z
- Keywords:
-
- Cosmic Rays;
- Critical Experiments;
- Integrated Circuits;
- Microelectronics;
- Particle Interactions;
- Single Event Upsets;
- Charged Particles;
- Electron Plasma;
- Flip-Flops;
- Heavy Ions;
- Ion Beams;
- Logic Circuits;
- Particle Accelerators;
- Solid State Physics;
- Electronics and Electrical Engineering