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How can double-precision arithmetic be emulated using single-precision floats in embedded hardware systems with limited precision?

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Release: 2024-10-30 17:13:26
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How can double-precision arithmetic be emulated using single-precision floats in embedded hardware systems with limited precision?

Emulating Double-Precision Arithmetic with Float Pairs

Question:

An embedded hardware system with limited floating-point precision requires the emulation of double-precision arithmetic using single-precision floats. Specifically, a 64-bit double-precision addition and comparison are needed.

Addition:

The addition process raises complexities in determining the base and carry detection mechanism. What approach should be used, and how can the carry be handled?

Comparison:

The comparison operation can be implemented using lexicographic ordering.

Background:

The objective is to obtain additional significant digits rather than extending the exponent range.

Answer:

Double-Float Emulation

Double-float or float-float is a technique that utilizes pairs of single-precision numbers to simulate double-precision precision. While this provides enhanced precision, it comes at the expense of reduced exponent range.

Recommended Resources

For further guidance on double-float emulation, refer to these technical papers:

  • [Implementation of float-float operators on graphics hardware](https://hal.archives-ouvertes.fr/hal-00021443)
  • [Extended-Precision Floating-Point Numbers for GPU Computation](http://andrewthall.org/papers/df64_qf128.pdf)

These papers provide insights into adapting float-float techniques to various platforms, including embedded systems.

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