Maoyu Mao
Guangdong University of Science & Technology, Dongguan, Guangdong, China.
*Corresponding author: Maoyu Mao
Abstract
Nowadays, checker synthesis for assertion based verification becomes popular because of the recent progress on the FPGA prototyping environment. Several works have been proposed to synthesize assertion checkers on FPGA based emulation and FIMA-based (Finite Input Memory Automaton based) method is one of such works. FIMA-based method uses a finite input-memory automaton using finite input queue (shift-register chain) to transform SVAs to hardware checkers for FPGA prototyping. FIMA-based method keeps one queue for each input, so it is effective to share the queue on several assertions. However, if an assertion includes a long sequence of some input, then the queue becomes long and a lot of hardware resources are necessary. In the research, a method to cope with asser-tions including such long sequences has been devised, and counter based method is proposed. A binary counter can represent the length N sequence with log(N) bits and the number of registers can be reduced a lot for long sequences. The proposed method can also reduce the power consumption of the sift-registers. Registers in counter module and registers for each variables can be recycled, thus the sharing within time window and sharing between assertions can be achieved. By using embedded RAM modules, we can further save logic element. The counter based method did reduce the hardware resource for FIMA-based method, and it works extremely well for assertions with long sequence of input and less variables.
References
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How to cite this paper
Counter Based Hardware Resource Reduction for FIMA System Verilog Assertion Checker
How to cite this paper: Maoyu Mao. (2023) Counter Based Hardware Resource Reduction for FIMA System Verilog Assertion Checker. Advances in Computer and Communication, 4(1), 9-20.
DOI: https://dx.doi.org/10.26855/acc.2023.02.002