Optical implementation of a constant-time multicomparand bit-parallel magnitude-comparison algorithm using wavelength- and polarization-division multiplexing with application to parallel database processing

Detofsky A.; Louri A.; Choo PY.

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Optical implementation of a constant-time multicomparand bit-parallel magnitude-comparison algorithm using wavelength- and polarization-division multiplexing with application to parallel database processing

机译：光学实现的使用波分和偏振分复用的恒定时间多比较位并行幅度比较算法及其在并行数据库处理中的应用

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We present a word- and bit-parallel magnitude-comparison architecture that permits multiple comparands to be compared with multiple relations in constant time. The proposed magnitude-comparison algorithm uses a novel polarization and wavelength-encoding scheme to achieve a fast, scalable realization. Distinctive features of the proposed architecture include (1) the use of a multiple-wavelength encoding scheme to increase processing parallelism and (2) multiple-comparand word- and bit-parallel comparison with an execution time that is independent of the data or word size. (C) 1998 Optical Society of America. [References: 9]

机译：我们提出了一个字和位并行的幅度比较架构，该架构允许在恒定时间内将多个比较项与多个关系进行比较。提出的幅度比较算法使用新颖的偏振和波长编码方案来实现快速，可扩展的实现。所提出的体系结构的显着特征包括：（1）使用多波长编码方案来提高处理并行性;（2）多次比较字和位并行比较，执行时间与数据或字的大小无关。（C）1998年美国眼镜学会。 [参考：9]

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《Optics Letters》 |1998年第17期|共3页
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Detofsky A.; Louri A.; Choo PY.;
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正文语种 eng
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1. Optical implementation of a constant-time multicomparand bit-parallel magnitude-comparison algorithm using wavelength- and polarization-division multiplexing with application to parallel database processing [J] . Detofsky A., Louri A., Choo PY. Optics Letters . 1998,第17期

机译：光学实现的使用波分和偏振分复用的恒定时间多比较位并行幅度比较算法及其在并行数据库处理中的应用
2. CONSTANT-TIME PARALLEL SORTING ALGORITHM AND ITS OPTICAL IMPLEMENTATION USING SMART PIXELS [J] . Louri A., Na JW., Hatch JA. Applied optics . 1995,第17期

机译：恒定时间并行排序算法及其在智能像素上的光学实现
3. Guided-wave multiwavelength polarization-insensitive processing module for a parallel multicomparand perfect-match algorithm [J] . Peng Yin Choo, Ahmed Louri Optics Letters . 2000,第20期

机译：并行多比较完美匹配算法的导波多波长偏振不敏感处理模块
4. Bit-parallel selfrouting optoelectronic switching fabrics for massively parallel wide-format data processing: principle and optical architecture [C] . Fyodorov, V.B. . 1997

机译：用于大规模并行宽格式数据处理的位并行自路由光电交换结构：原理和光学架构
5. A multi-wavelength optical content-addressable parallel processor (MW-OCAPP) for high-speed relational database processing: Free-space experimental implementation and monolithic adaptation based on guided-wave technology [D] . Detofsky, Abram Maximilian 1999

机译：用于高速关系数据库处理的多波长光学内容可寻址并行处理器（MW-OCAPP）：自由空间实验实现和基于导波技术的单片自适应
6. A Parallel Architecture for the Partitioning around Medoids (PAM) Algorithm for Scalable Multi-Core Processor Implementation with Applications in Healthcare [O] . Hassan Mushtaq, Sajid Gul Khawaja, Muhammad Usman Akram, 2018

机译：围绕Medoids（PAM）算法进行分区的并行体系结构可实现可扩展的多核处理器及其在医疗保健中的应用
7. Optical Implementation of a Single-Iteration Thresholding Algorithm with Applications to Parallel Database/Knowledge-base Processing [O] . Ahmed Louri And, Ahmed Louri, James A Hatch 1993

机译：单迭代阈值算法的光学实现及其在并行数据库/知识库处理中的应用
8. Development and Implementation of GPS Correlator Structures in MATLAB and Simulink with Focus on SDR Applications: Implementation of a Standard GPS Correlator Architecture (Baseline) Implementation of the MIT Quicksynch Sparse Algorithm Development and Implementation of Parallel Circular Correlator Constructs. [R] . Miralles, D., Ortiz, M. J., Sandoval, J., 2014

机译：基于sDR应用的maTLaB和simulink中Gps相关器结构的开发和实现：标准Gps相关器结构的实现（基线）mIT Quicksynch稀疏算法的实现并行循环相关器结构的开发和实现。

Optical implementation of a constant-time multicomparand bit-parallel magnitude-comparison algorithm using wavelength- and polarization-division multiplexing with application to parallel database processing

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