The data transfer between a processor and memory has become a design bottleneck in data-intensive applications. Processing-In-Memory (PIM) is a practical approach to overcome the memory wall bottleneck. The 4:2 compressor is suitable for implementing the processor's crucial arithmetic circuits, including multiplier. Some area-efficient memristive structures, like Material Implication (IMPLY) in serial architecture, are compatible with the crossbar array. This paper proposes a serial memristive IMPLY-based 4:2 compressor, which is applied to present new 4-bit and 8-bit multipliers. The proposed circuits are evaluated regarding latency, area, and energy consumption. Compared to the existing serial compressor, the proposed 4:2 compressor's algorithm improves the area, energy consumption, and speed by 36%, 17%, and 15%, respectively. The proposed 4-bit and 8-bit multipliers are improved by 7.3% and 10%, respectively, regarding the latency, and reduced energy consumption by up to 12%, compared to the serial multiplier based on a 4:2 compressor with XOR/MUX design.
@article{arxiv.2407.09980,
title = {Power-Area Efficient Serial IMPLY-based 4:2 Compressor Applied in Data-Intensive Applications},
author = {Bahareh Bagheralmoosavi and Seyed Erfan Fatemieh and Mohammad Reza Reshadinezhad and Antonio Rubio},
journal= {arXiv preprint arXiv:2407.09980},
year = {2024}
}