Journal of Electrical and Computer Engineering (Jan 2012)

High-Level Synthesis under Fixed-Point Accuracy Constraint

  • Daniel Menard,
  • Nicolas Herve,
  • Olivier Sentieys,
  • Hai-Nam Nguyen

DOI
https://doi.org/10.1155/2012/906350
Journal volume & issue
Vol. 2012

Abstract

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Implementing signal processing applications in embedded systems generally requires the use of fixed-point arithmetic. The main problem slowing down the hardware implementation flow is the lack of high-level development tools to target these architectures from algorithmic specification language using floating-point data types. In this paper, a new method to automatically implement a floating-point algorithm into an FPGA or an ASIC using fixed-point arithmetic is proposed. An iterative process on high-level synthesis and data word-length optimization is used to improve both of these dependent processes. Indeed, high-level synthesis requires operator word-length knowledge to correctly execute its allocation, scheduling, and resource binding steps. Moreover, the word-length optimization requires resource binding and scheduling information to correctly group operations. To dramatically reduce the optimization time compared to fixed-point simulation-based methods, the accuracy evaluation is done through an analytical method. Different experiments on signal processing algorithms are presented to show the efficiency of the proposed method. Compared to classical methods, the average architecture area reduction is between 10% and 28%.