基于基数-2r乘法器和管道前馈-无截距前瞻加法器的面积和功耗高效融合浮点点积单元

Information Technology in Industry Pub Date : 2021-04-02 DOI:10.17762/ITII.V9I2.411

M. M. Babu, K. R. Naidu

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摘要

融合浮点运算在许多DSP应用中发挥着重要作用，以减少运算面积和功耗。采用Radix-2r乘法器(采用7位编码器技术)和流水线前馈无截割进位前置加法器(PFCF-CLA)来增强传统的FDP单元。在系统中引入流水线概念，得到所需的流水线融合浮点点积(PFFDP)运算。采用60nm标准库和1GHz时钟获得合成结果。单精度和双精度运行的功耗分别为2.24mW和3.67mW。模具面积分别为27.48 mm2、46.72mm2，单、双精度运算的执行时间分别为1.91 ns、2.07 ns。并与以往数据进行了比较。该架构的面积延迟积(ADP)和功率延迟积(PDP)在单精度和双精度运算中分别为18%，22%和27%，18%。

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Area and Power Efficient Fused Floating-point Dot Product Unit based on Radix-2r Multiplier & Pipeline Feedforward-Cutset-Free Carry-Lookahead Adder

Fused floating point operations play a major role in many DSP applications to reduce operational area & power consumption. Radix-2r multiplier (using 7-bit encoder technique) & pipeline feedforward-cutset-free carry-lookahead adder(PFCF-CLA) are used to enhance the traditional FDP unit. Pipeline concept is also infused into system to get the desired pipeline fused floating-point dot product (PFFDP) operations. Synthesis results are obtained using 60nm standard library with 1GHz clock. Power consumption of single & double precision operations are 2.24mW & 3.67mW respectively. The die areas are 27.48 mm2 , 46.72mm2 with an execution time of 1.91 ns , 2.07 ns for a single & double precision operations respectively. Comparison with previous data has also been performed. The area-delay product(ADP) & power-delay product(PDP) of our proposed architecture are 18%,22% & 27%,18% for single and double precision operations respectively.

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Information Technology in Industry COMPUTER SCIENCE, SOFTWARE ENGINEERING-

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