Path coverage based functional test generation for processor marginality validation

Abstract

Functional test content to screen for electrical marginalities during silicon validation are not generated with the goal of identifying speed-limiting paths, adversely affecting the quality and efficiency of validation. We propose a methodology to generate functional tests to excite pre-silicon timing-critical paths along with environmental effects such as voltage droop. These tests are to replace random/function-targeted content as the source for identifying speed failures during silicon validation. The effectiveness of this methodology is demonstrated through silicon experiments on a recent processor.