Publication Type : Journal Article
Source : Lecture Notes in Networks and Systems, vol.190, pp. 709 -720, 2020
Url : https://link.springer.com/chapter/10.1007/978-981-16-0882-7_63
Campus : Coimbatore
School : School of Engineering
Department : Electronics and Communication
Verified : No
Year : 2020
Abstract : Due to advancement in the design technology of digital integrated circuits, the complexity of the circuit structure increases. As a result, the number of pins in a digital board also increases. Hence, the testing of the board’s input–output pins becomes difficult. Also, while manufacturing the board, if there is any fault, then it is going to affect the functionality of the board. Since FPGAs are widely used in critical applications such as military, avionics and medical devices, it is of utmost importance that testing of FPGA boards should be made so as to detect the faults and remove them before it is placed into a system. So, in this paper, an architecture which can test the input–output pins of an FPGA board (800 pins) and detect single stuck-at faults is proposed. The results were simulated in Xilinx ISE Design Suite14.4 using VHDL.
Cite this Research Publication : S Gurusharan, Rahul Adhithya R, S Sri Harish, J P Anita, “Testing of FPGA Input/output Pins Using BIST”, Lecture Notes in Networks and Systems, vol.190, pp. 709 -720, 2020.