Sensors (Feb 2021)

Fault Injection Emulation for Systems in FPGAs: Tools, Techniques and Methodology, a Tutorial

  • Óscar Ruano,
  • Francisco García-Herrero,
  • Luis Alberto Aranda,
  • Alfonso Sánchez-Macián,
  • Laura Rodriguez,
  • Juan Antonio Maestro

DOI
https://doi.org/10.3390/s21041392
Journal volume & issue
Vol. 21, no. 4
p. 1392

Abstract

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Communication systems that work in jeopardized environments such as space are affected by soft errors that can cause malfunctions in the behavior of the circuits such as, for example, single event upsets (SEUs) or multiple bit upsets (MBUs). In order to avoid this erroneous functioning, this kind of systems are usually protected using redundant logic such as triple modular redundancy (TMR) or error correction codes (ECCs). After the implementation of the protected modules, the communication modules must be tested to assess the achieved reliability. These tests could be driven into accelerator facilities through ionization processes or they can be performed using fault injection tools based on software simulation such as the SEUs simulation tool (SST), or based on field-programmable gate array (FPGA) emulation like the one described in this work. In this paper, a tutorial for the setup of a fault injection emulation platform based on the Xilinx soft error mitigation (SEM) intellectual property (IP) controller is depicted step by step, showing a complete cycle. To illustrate this procedure, an online repository with a complete project and a step-by-step guide is provided, using as device under test a classical communication component such as a finite impulse response (FIR) filter. Finally, the integration of the automatic configuration memory error-injection (ACME) tool to speed up the fault injection process is explained in detail at the end of the paper.

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