Jakub Podivinsky scite author profile

The aim of this paper is to present a new platform for estimating the fault-tolerance quality of electro-mechanical applications based on FPGAs. We demonstrate one working example of such EM application that was evaluated using our platform: the mechanical robot and its electronic controller in an FPGA. Different building blocks of the electronic robot controller allow to model different effects of faults on the whole mission of the robot (searching a path in a maze). In the experiments, the mechanical robot is simulated in the simulation environment, where the effects of faults injected into its controller can be seen. In this way, it is possible to differentiate between the fault that causes the failure of the system and the fault that only decreases the performance. Further extensions of the platform focus on the interconnection of the platform with the functional verification environment working directly in FPGA that allows automation and speed-up of checking the correctness of the system after the injection of faults.

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Data types and operations modifications: A practical approach to fault tolerance in HLS

Lojda

Podivinsky

Kotásek

et al. 2017

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Jakub Podivinsky

Functional verification based platform for evaluating fault tolerance properties

HLS-based fault tolerance approach for SRAM-based FPGAs

An Experimental Evaluation of Fault-Tolerant FPGA-Based Robot Controller

The Evaluation Platform for Testing Fault-Tolerance Methodologies in Electro-Mechanical Applications

Data types and operations modifications: A practical approach to fault tolerance in HLS

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