2021
DOI: 10.3390/electronics11010122
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DuckCore: A Fault-Tolerant Processor Core Architecture Based on the RISC-V ISA

Abstract: With the development of large-scale CMOS-integrated circuit manufacturing technology, microprocessor chips are more vulnerable to soft errors and radiation interference, resulting in reduced reliability. Core reliability is an important element of the microprocessor’s ability to resist soft errors. This paper proposes DuckCore, a fault-tolerant processor core architecture based on the free and open instruction set architecture (ISA) RISC-V. This architecture uses improved SECDED (single error correction, doubl… Show more

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Cited by 16 publications
(10 citation statements)
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References 32 publications
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“…Table 4 shows the Artix-7 FPGA resource requirements for MicroBlaze, Cortex-M3, RISC-V, MIPS32 and HW_nMPRA_RTOS FPGA implementation architectures ( Włostowski, Serrano & Vaga, 2015 ; Li, Zhang & Bao, 2022 ; Tsai & Lee, 2022 ; Sarjoughian, Chen & Burger, 2008 ). It can be stated that the flip-flops and combinational logic requirements are convenient for the architecture proposed in this article, considering that HW_nMPRA_RTOS guarantees context switching in 1 ÷ 2 clock cycles and predictable response to interrupt events.…”
Section: Resultsmentioning
confidence: 99%
“…Table 4 shows the Artix-7 FPGA resource requirements for MicroBlaze, Cortex-M3, RISC-V, MIPS32 and HW_nMPRA_RTOS FPGA implementation architectures ( Włostowski, Serrano & Vaga, 2015 ; Li, Zhang & Bao, 2022 ; Tsai & Lee, 2022 ; Sarjoughian, Chen & Burger, 2008 ). It can be stated that the flip-flops and combinational logic requirements are convenient for the architecture proposed in this article, considering that HW_nMPRA_RTOS guarantees context switching in 1 ÷ 2 clock cycles and predictable response to interrupt events.…”
Section: Resultsmentioning
confidence: 99%
“…STRV [46] implements TMR at a very fine granularity within a RISC-V core, replicating the circuitry and voting after each register to ensure correct processing. The Duck-Core [33] takes a different approach, implementing ECC in the pipeline registers and instruction rollback to allow re-execution of the last instruction in case a fault occurs. SHAKTI-F [23] uses a hybrid approach, using ECC for registers and memory while implementing DMR for the ALU within the processor's execution stage, ensuring the calculation is executed correctly.…”
Section: Architectural Modificationsmentioning
confidence: 99%
“…In Table 2, we also compare our design with other works, such as SHATKI-F [23] and Duck Core [33]. The two works propose modifications to RISC-V cores' internal microarchitecture for pipeline rollback, showing a valuable approach that leads to just 3 clock cycles to perform a fault recovery and allowing for a single core to be reliable without the need for redundant grouping, thus saving resources.…”
Section: State Of the Art Comparisonmentioning
confidence: 99%
“…The RISC architecture is used to embed the sensing system to reduce the size when implemented in the FPGA device [19]- [21]. The RISC processor is analyzed for single event transient fault for the possibility of multiple bit upsets by implementing in the FPGA [22]- [24].…”
Section: Introductionmentioning
confidence: 99%