Low-Power Programmable Processor for Fast Fourier Transform Based on Transport Triggered Architecture

Zadnik, Jakub; Takala, Jarmo

Low-Power Programmable Processor for Fast Fourier Transform Based on Transport Triggered Architecture

Zadnik, Jakub; Takala, Jarmo (2019-04-17)

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tta_fft_icassp.pdf (171.1Kt)

Lataukset:

Zadnik, Jakub

Takala, Jarmo

17.04.2019

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doi:10.1109/ICASSP.2019.8682289

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Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:tty-201907161973

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Non peer reviewed

Tiivistelmä

This paper describes a low-power processor tailored for fast Fourier transform computations where transport triggering template is exploited. The processor is software-programmable while retaining an energy-efficiency comparable to existing fixed-function implementations. The power savings are achieved by compressing the computation kernel into one instruction word. The word is stored in an instruction loop buffer, which is more power-efficient than regular instruction memory storage. The processor supports all power-of-two FFT sizes from 64 to 16384 and given 1 mJ of energy, it can compute 20916 transforms of size 1024.

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