SafeDE: A Low-Cost Hardware Solution to Enforce Diverse Redundancy in Multicores

Abstract

Failure risk must be tiny in high-integrity systems, such as those in cars, satellites and aircraft. Hence, safety measures must be deployed to avoid a single fault leading to a failure. Redundancy has been often used to address this concern, but it has been proven insufficient if a single fault can cause the same error in all redundant elements, which defeats the purpose of redundancy for error detection. Hence, to avoid this scenario, diversity is implemented along with redundancy, being lockstep execution the most popular diverse redundancy solution for computing cores. However, classic lockstep solutions have non-negligible limitations if implemented in hardware (e.g., half of the cores can only be used for redundant execution and are not even visible at user level), or in software (e.g., the software loop to enforce staggering is long and costs performance). This paper tackles the limitations of classic lockstep solutions by providing an extended analysis and evaluation of <bold xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">SafeDE</b> , a Diversity Enforcement hardware module combining the short loop to enforce diversity of hardware solutions, and the non-intrusiveness of software solutions. Hence, cores can operate in lockstep mode efficiently or run independent tasks. In this paper, we present SafeDE and its rationale, its application to N-modular systems, its hardware and software integration, and an evaluation showing its performance and area efficiency, and its behavior in the presence of faults.