This article presents Lock-V, a heterogeneous fault tolerance architecture that explores a dual-core lockstep (DCLS) technique to mitigate single event upset (SEU) and common-mode failure (CMF) problems. The Lock-V was deployed in two versions, Lock-VA and Lock-VM by applying design diversity in two processor architectures at the instruction set architecture (ISA)-level. Lock-VA features an Arm Cortex-A9 with a RISC-V RV64GC, while Lock-VM includes an Arm Cortex-M3 along with a RISC-V RV32IMA processor. The solution explores fieldprogrammable gate array (FPGA) technology to deploy softcore versions of the RISC-V processors, and dedicated accelerators for performing error detection and triggering the software rollback system used for error r...
Due to technology scaling, which means reduced transistor size, higher density, lower voltage and mo...
Safety-critical systems such as those in automotive, avionics and space, require appropriate safety ...
This paper presents a detailed analysis of the behavior of a novel fault-tolerant 32-bit embedded CP...
Computer systems are permanently present in our daily basis in a wide range of applications. In syst...
Dissertação de mestrado integrado em Engenharia Eletrónica Industrial e Computadores (área de especi...
Dissertação de mestrado em Engenharia Eletrónica Industrial e ComputadoresSafety-critical systems de...
This article presents a software protection technique against radiation-induced faults which is base...
This work presents the evaluation of a new dualcore lockstep hybrid approach aimed to improve the fa...
Soft errors are one of the significant design technology challenges at smaller technology nodes and ...
All-Programmable System-on-Chips (APSoCs) constitute a compelling option for employing applications ...
The embedded processors operating in safety- or mission-critical systems are not allowed to fail. An...
International audienceIn this paper, we propose a new approach to implement a reliable softcore proc...
As predicted by Gordon E. Moore in 1975, the number of transistors has doubled every two years over ...
The growing availability of embedded processors inside FPGAs provides unprecedented flexibility for ...
Due to technology scaling, which means reduced transistor size, higher density, lower voltage and mo...
Safety-critical systems such as those in automotive, avionics and space, require appropriate safety ...
This paper presents a detailed analysis of the behavior of a novel fault-tolerant 32-bit embedded CP...
Computer systems are permanently present in our daily basis in a wide range of applications. In syst...
Dissertação de mestrado integrado em Engenharia Eletrónica Industrial e Computadores (área de especi...
Dissertação de mestrado em Engenharia Eletrónica Industrial e ComputadoresSafety-critical systems de...
This article presents a software protection technique against radiation-induced faults which is base...
This work presents the evaluation of a new dualcore lockstep hybrid approach aimed to improve the fa...
Soft errors are one of the significant design technology challenges at smaller technology nodes and ...
All-Programmable System-on-Chips (APSoCs) constitute a compelling option for employing applications ...
The embedded processors operating in safety- or mission-critical systems are not allowed to fail. An...
International audienceIn this paper, we propose a new approach to implement a reliable softcore proc...
As predicted by Gordon E. Moore in 1975, the number of transistors has doubled every two years over ...
The growing availability of embedded processors inside FPGAs provides unprecedented flexibility for ...
Due to technology scaling, which means reduced transistor size, higher density, lower voltage and mo...
Safety-critical systems such as those in automotive, avionics and space, require appropriate safety ...
This paper presents a detailed analysis of the behavior of a novel fault-tolerant 32-bit embedded CP...