English

Converting Binary Floating-Point Numbers to Shortest Decimal Strings: An Experimental Review

Hardware Architecture 2026-03-10 v1

Abstract

When sharing or logging numerical data, we must convert binary floating-point numbers into their decimal string representations. For example, the number π\pi might become 3.1415927. Engineers have perfected many algorithms for producing such accurate, short strings. We present an empirical comparison across diverse hardware architectures and datasets. Cutting-edge techniques like Schubfach and Dragonbox achieve up to a tenfold speedup over Steele and White's Dragon4, executing as few as 210 instructions per conversion compared to Dragon4's 1500-5000 instructions. Often per their specification, none of the implementations we surveyed consistently produced the shortest possible strings-some generate outputs up to 30% longer than optimal. We find that standard library implementations in languages such as C++ and Swift execute significantly more instructions than the fastest methods, with performance gaps varying across CPU architectures and compilers. We suggest some optimization targets for future research.

Keywords

Cite

@article{arxiv.2603.06581,
  title  = {Converting Binary Floating-Point Numbers to Shortest Decimal Strings: An Experimental Review},
  author = {Jaël Champagne Gareau and Daniel Lemire},
  journal= {arXiv preprint arXiv:2603.06581},
  year   = {2026}
}

Comments

software at https://github.com/fastfloat/float_serialization_benchmark

R2 v1 2026-07-01T11:07:29.380Z