ASIC vs FPGA based Implementations of Built-In Self-Test
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DOI:
https://doi.org/10.59287/ijanser.942Keywords:
FPGA, ASIC, BIST, LFSR, Power Dissipation, Bit SwappingAbstract
Linear Feedback Shift Registers (LFSRs) are play key role in testing of for Very Large Scale Integration (VLSI) Integrated Circuits (ICs) testing. Due to tremendous IC complex growth, testing of recent VLSI ICs technology have become more complicated. This led to develop a popular alternate viable solution in the form of Built-In Self-Test (BIST) technology as compared to Automatic Test Equipment (ATE). However, the challenges of BIST technology remain the subject of research. Furthermore, implementation of BIST’s LFSR on Application Specific Integrated Circuit (ASIC) versus Field Programmable Gate Array on (FPGA) platform is current area of research especially in context to power consumption. Hence, to make an informed choice between ASIC and FPGA for implementing BIST’s LFSR we focus on study of design of reconfigurable LFSR on ASIC versus FPGA platform. The Electronic Design Automation (EDA) tool, Cadence is used for implementing BIST’s LFSR on ASIC platform. Whereas, Hardware Description Language (HDL), Verilog is used to implement BIST’s LFSR on FPGA platform. During experimental methodology, maximum frequency, the critical path delay is investigated to assess the power dissipation. The functional and timing simulation models are used to verify the implemented reconfigurable BIST’s LFSR designs. The obtained results show that the performance, in terms of speed and power, of ASIC implementation is far better than traditional FPGA implementation.
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References
A. Ahmad, “Reliable and fault tolerant systems on chip through design for testability,” in Proc. 2019 Amity International Conference on Artificial Intelligence – (AICAI’19), Dubai, UAE, Feb. 4-7, 2019, pp. 50-53.
A. Ahmad, “Automotive semiconductor industry – trends, safety and security challenges,” in Proc. 8th International Conference on Reliability, Infocom Technologies and Optimization (Trends and Future Directions) (ICRITO), Noida, India, June 2020, pp. 1373-1377.
S. Wang and S. K. Gupta, “A BIST TPG for low switching activity,” IEEE Transactions on Computer Aided Design of Integrated Circuits and Systems, vol. 21, no. 7, 2002, pp. 834-843.
A. S. Abu-Issa and S. F. Quigley, “Bit- swapping LFSR and scan-chain ordering: a novel technique for peak and average- power reduction in scan-based BIST,” IEEE Trans. Computer-Aided Design of Integrated Circuits and Systems, vol. 28, no. 5, 2009, pp. 755-759.
A. S. Abu-Issa, “Energy efficient scheme for multiple scan chains BIST using weight based segmentation,” IEEE Trans. Circuits Syst. II Express Briefs, vol. 65, no. II(3), 2018, pp. 361-365.
M. Nourani, M. Tehranipoor and N. Ahmed, “Low-transition test pattern generation for BIST based applications,” IEEE Trans. Computers, vol. 57, no, 3, 2008, pp. 303-315.
S. Wang and S. K. Gupta, “LT-RTPG: a new test per scan BIST TPG for low switching activity,” IEEE Trans. CAD. vol. 25, 2006 (Aug), pp. 1565-1574.
S. Hussain, M. A. Raheem and A. Ahmad, “SIC-TPG for path delay fault detection in VLSI circuits using scan insertion method,” in Proc. International Conference Devices for Integrated Circuit (DevIC), Kalyani, India, 2021, pp. 284-288.
A. Ahmad, D. Al-Abri and S. S. Al-Busaidi, “Adding pseudo-random test sequence generator in the test simulator for DFT approach,” Journal Computer Technology and Applications, David Publishing (USA), vol. 3, no. 7, 2012, pp. 463-470.
A. Ahmad and D. Ruelens, “Development of digital logic design teaching tool using MATLAB & SIMULINK,” IEEE Technology and Engineering Education (ITEE), vol. 8, no. 1, 2013, pp. 7-11.
A. Ahmad A. and A. Al-Maashri, “Investigating some special sequence length generated through an external exclusive-NOR type LFSRs,” International Journal Electrical and Computer Engineering, (PERGAMON, Elsevier Science), vol. 34, no. 1, 2008, pp. 270-280.
A. Al-Maashri and A. Ahmad, “Synthesis of a Fibonacci LFSR structure for FPGAs,” in Proc. of 3rd International Scientific Research and Innovation Congress, International Science and Art Research Centre (isarc) - Scientific Development and Innovative Approach, Istanbul, Turkey, Aug. 26-27, 2022, pp. 845-853.
