Title :
R3TOS-Based Autonomous Fault-Tolerant Systems
Author :
Iturbe, X. ; Ebrahim, A. ; Benkrid, K. ; Hong, C. ; Arslan, T. ; Perez, J. ; Keymeulen, D. ; Santambrogio, M.D.
Abstract :
An autonomous fault-tolerant system (AFTS) is one that can reconfigure its own resources in the presence of permanent defects and spontaneous random faults occurring in its silicon substrate in order to maintain the original functionality. This capability makes an AFTS especially suitable for use in harsh environments, where traditional electronics technology is susceptible to failure. This article describes the contributions of the Reliable Reconfigurable Real-Time Operating System (R3TOS) for building an AFTS using currently available Xilinx partially-reconfigurable field-programmable gate arrays. Namely, this article discusses what R3TOS offers for developing durable, dependable, and real-time embedded systems to be used in rugged environments. In this context, the article presents an R3TOS-based inverter controller of a real-world railway traction system that is proven to recover from most of the errors injected without requiring any human intervention.
Keywords :
embedded systems; fault tolerant computing; field programmable gate arrays; operating systems (computers); rail traffic; traction; traffic engineering computing; AFTS system; R3TOS-based autonomous fault-tolerant system; R3TOS-based inverter controller; Xilinx partially-reconfigurable field-programmable gate arrays; electronics technology; embedded systems; real-world railway traction system; reliable reconfigurable realtime operating system; silicon substrate; Circuit faults; Embedded systems; Fault tolerance; Field programmable gate arrays; Integrated circuits; Pulse width modulation; Real-time systems; Reconfigurable architectures; Runtime; Synchronization; Table lookup; R3TOS; fault tolerance; real-time and embedded systems; reconfigurable hardware;
Journal_Title :
Micro, IEEE
