Probabilistic analysis of Gallager B faulty decoder

Today´s mainstream electronic systems typically assume that transistors and interconnections operate correctly over their useful lifetime. For coming generations of silicon technologies, several causes of hardware failures, such as erratic bit errors, transient (soft) errors, and process variations, are becoming significant. In contrast to the traditional redundancy-based reliability solutions, the aim of a probabilistic design is to achieve high quality results and efficiency using erroneous or imperfect components along with a judicious allocation of resources. In this paper we focus on a probabilistic analysis of an LDPC Gallager B decoder made out of unreliable hardware components. Our analysis reveals the dependencies between the final BER at the output of the decoder and the errors in the components of the decoder. We demonstrate that a system design guided by our analysis can produce higher quality results compared to an arbitrary resource allocation. This resource allocation is of particular relevance to emerging storage applications that need to maintain extremely high levels of reliability even as the underlying technology scales deep into the nano-regime.