Low-complexity detection schemes are studied for additive white Gaussian noise channels with an unknown and unbounded offset constant over each memory read. Detectors based on the Pearson distance are analyzed, and a new lower bound on the word error rate of Modified Pearson (MP) detection is derived. Three novel detectors are proposed: the Simplified Pearson (SP), the Ultra-Simplified Pearson (USP), and the Adjusted-Threshold (AT) detectors. The USP and AT detectors are designed to be robust against destructive readings. The proposed schemes are particularly suited for memory systems employing ramp-reading architectures. The analysis demonstrates that the proposed detectors achieve competitive error-rate performance with significantly reduced complexity compared to MP detection.
Low-Complexity Detection for Balanced Codes in AWGN Channels With Offset
Favano, Antonino;Barletta, Luca;Ferrari, Marco
2026-01-01
Abstract
Low-complexity detection schemes are studied for additive white Gaussian noise channels with an unknown and unbounded offset constant over each memory read. Detectors based on the Pearson distance are analyzed, and a new lower bound on the word error rate of Modified Pearson (MP) detection is derived. Three novel detectors are proposed: the Simplified Pearson (SP), the Ultra-Simplified Pearson (USP), and the Adjusted-Threshold (AT) detectors. The USP and AT detectors are designed to be robust against destructive readings. The proposed schemes are particularly suited for memory systems employing ramp-reading architectures. The analysis demonstrates that the proposed detectors achieve competitive error-rate performance with significantly reduced complexity compared to MP detection.| File | Dimensione | Formato | |
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Low_Complexity_Detection_for_Balanced_Codes_in_AWGN_Channels_with_Offset.pdf
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