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Traditional approaches to evaluating a system's vulnerability to Single Event Upsets (SEUs) require elaborate and costly radiation beam testing or time-consuming simulation. While beam testing represents definitive evidence of a processor's susceptibility to radiation-induced upsets, we believe that low-cost in-house bit error injection tests provide a valuable tool both in their own right and as an intermediate step towards approximating a processor or application's behavior in the presence of cosmic radiation, prior to beam testing. In this paper we describe a new hardware/software tool named the Memory Sentinel and Injection System (MSIS) that initially targets the two PowerPC 405s within the Xilinx Virtex-4 FX family of FPGAs. The MSIS leverages the configurable logic of an FPGA as well as a custom software interrupt to inject bit errors into the full set of a processor's registers and caches in a user-transparent fashion. By using the second PowerPC as a monitor, the MSIS is capable of performing rapid and unattended fault injection. Through 20,000 injections we demonstrate the impact of the MSIS on a sample sensor-like application and analyze its behavior in the presence of upsets. |
