Jan
12
Paper accepted at ACM Transactions on Reconfigurable Technology and Systems
January 12, 2026 | | Comments Off on Paper accepted at ACM Transactions on Reconfigurable Technology and Systems
The paper entitled “An open-source methodology to emulate transient faults in ASIC storage cells using AMD Ultrascale+ FPGAs”, written by Ilya Tuzov, David de Andrés, Juan Carlos Ruiz and Carles Hernández has been accepted at ACM Transactions on Reconfigurable Technology and Systems
Abstract
The dependability assessment of critical systems must consider the emulation of transient faults, as they pose an important dependability threat for modern VLSI designs. FPGA-based systems are dominated by bit-flips in configuration memory (CM), which are relatively easy to emulate using partial runtime reconfiguration (RTR) FPGA fault injection (FFI) approaches. However, when FPGA is used as an ASIC prototyping platform, transient fault models representative of ASIC designs must be considered, such as bit-flips in sequential logic cells (Flip-Flops and on-chip RAM blocks). Existing RTR-FFI approaches do not adequately cover these faults, as they require the orchestrated manipulation of multiple CM bits for each target logic cell, and the location of these CM bits is unknown (not documented) for modern FPGA generations. This work experimentally formalises the mapping of the necessary CM bits, proposes an enhanced RTR-FFI methodology to emulate bit-flips in registers and on-chip RAMs of current-generation AMD Ultrascale+ FPGAs, and provides an upgraded publicly available open-source FFI tool (BAFFI: https://gitlab.com/selene-riscv-platform/DAVOS) supporting the proposed methodology. The validity of the proposed FFI approach is demonstrated by comparison with gate-level simulation-based fault injection in a case study of two soft-core processors (MC8051 and NOEL-V).
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