可重构硬件极性编码器的高效无 XOR 实现

IF 2.2 3区工程技术 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE

Integration-The Vlsi Journal Pub Date : 2024-09-24 DOI:10.1016/j.vlsi.2024.102291

Navin Kumar , Deepak Kedia , Gaurav Purohit

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引用次数: 0

摘要

- 本文介绍了一种为 5G 射频实现无 XOR 架构的非系统极性编码器（NSPE）的新方法。优化硬件（HW）实现的 XOR 逻辑对于减少延迟和功耗至关重要。所提出的 NSPE 架构用组合逻辑模式取代了 XOR 操作，并通过位操作删除了一些冗余模式，从而提高了效率。该设计推导出多路复用器（2:1 或 4:1）和反相器作为其功能单元，使该设计能够充分有效地降低硬件复杂性。无 XOR 编码器的功能与基于 XOR 的传统编码器相同。我们编写了一个 MATLAB 脚本，可生成完全或部分并行极性编码器的 Verilog 硬件描述语言 (HDL) 代码，并根据特定的代码长度 (N) 和并行程度 (M) 进行定制。本文对采用 XOR-Free 算法的各种完全并行和部分并行编码器进行了比较分析。实施结果表明，就硬件成本、功耗、吞吐量和延迟而言，所提出的架构更为高效。

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An efficient XOR-free implementation of polar encoder for reconfigurable hardware

— This paper presents a novel approach to implementing an XOR-Free architecture of the non-systematic polar encoder (NSPE) for 5G radio. The optimization of XOR logic for hardware (HW) implementation is essential to reduce delay and power consumption. The proposed architecture for NSPE replaces XOR operations with combinational logical patterns, and some redundant patterns are removed with the help of bit manipulation to make it more efficient. The design infers multiplexers (2:1 or 4:1) and inverters as its functional units, making the design adequate and effective in alleviating HW complexity. The XOR-Free encoder performs the same functionality as the XOR-based conventional encoder. We have written a MATLAB script that generates Verilog hardware description language (HDL) code for fully or partially parallel polar encoders tailored to specific code lengths (N) and degrees of parallelism (M). A comparative analysis of various fully and partially parallel encoders with the XOR-Free algorithm is presented. The implementation results show that the proposed architectures are more efficient in terms of HW cost, power consumption, throughput, and latency.

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来源期刊

Integration-The Vlsi Journal 工程技术-工程：电子与电气

CiteScore

3.80

自引率

5.30%

发文量

107

审稿时长

6 months

期刊介绍： Integration''s aim is to cover every aspect of the VLSI area, with an emphasis on cross-fertilization between various fields of science, and the design, verification, test and applications of integrated circuits and systems, as well as closely related topics in process and device technologies. Individual issues will feature peer-reviewed tutorials and articles as well as reviews of recent publications. The intended coverage of the journal can be assessed by examining the following (non-exclusive) list of topics: Specification methods and languages; Analog/Digital Integrated Circuits and Systems; VLSI architectures; Algorithms, methods and tools for modeling, simulation, synthesis and verification of integrated circuits and systems of any complexity; Embedded systems; High-level synthesis for VLSI systems; Logic synthesis and finite automata; Testing, design-for-test and test generation algorithms; Physical design; Formal verification; Algorithms implemented in VLSI systems; Systems engineering; Heterogeneous systems.