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Abstract
Soft-core processors and complex Field Pro-grammable Gate Array (FPGA) designs are described as an algorithmic manner, i.e. behavioural abstraction level in Hard-ware Description Languages (HDL). Lower abstraction levels add complexity and delays in the design cycle as well as in the fault injection approach. Therefore, fault simulation/emulation techniques are demanded to develop an approach for testing of design and to evaluate dependability analysis of FPGA designs at this abstraction level. Broadly, the fault injection techniques for FPGA-based designs at the HDL code level are categorised into emulation and simulation-based techniques. This work is an extension of our previous methodologies developed for FPGA designs written at data-flow and gate abstraction levels under the proposed RASP-FIT tool. These methodologies include fault injection by code parsing of the SUT, test approach for finding the test vectors using dynamic and static compaction techniques, fault coverage, and compaction ratio directly at the code level of the design. In this paper, we described the proposed approaches briefly, and the enhancement of a Verilog code modifier for the behavioural designs is presented in detail.
Highlights
During the last few decades, the Very Large Scale Integrated (VLSI) systems and soft-core processors have been developed and implemented on the Field Programmable Gate Array (FPGA)
The synthesizable Verilog design file is applied to the RASP-FIT tool to the fault injection modifier as an input which parses the code line by line
Authors developed the Automatic Test Pattern Generation (ATPG) with hybrid compaction techniques and a method to find the critical nodes of the System Under Test (SUT) at the code level under the proposed tool and presented in the previous work [1], [7], [8]
Summary
During the last few decades, the Very Large Scale Integrated (VLSI) systems and soft-core processors have been developed and implemented on the Field Programmable Gate Array (FPGA) These systems are written in Hardware Description Languages (HDL). One of the most popularly accepted HDL language for implementing soft-core processors and Application Specific Integrated Circuit (ASIC) is Verilog HDL. These designs are implemented on the FPGA [1], [3]. The faulty design is achieved the proposed www.ijacsa.thesai.org (IJACSA) International Journal of Advanced Computer Science and Applications, Vol 10, No 4, 2019 fault injection testing approach is applied and obtained the small number of test vectors for maximum FC.
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