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rust-bitcoin-m31

This repository implements M31 field arithmetic in Bitcoin Script.

Performance

For M31, we have:

  • addition: 18 weight units
  • subtraction: 12 weight units
  • multiplication: 1415 weight units
  • multiplication by constant: ~744 weight units (M31)

For the complex extension of M31 using x^2 + 1, we have:

  • addition: 39 weight units
  • subtraction: 28 weight units
  • multiplication: 4351 weight units
  • multiplication by constant: ~2306 weight units
  • multiplication by M31: 2840 weight units
  • multiplication by M31 constant: ~1489 weight units

For the degree-4 extension of M31 using y^2 - 2 - i over the complex field x^2 + 1, we have:

  • addition: 84 weight units
  • subtraction: 63 weight units
  • multiplication: 13321 weight units
  • multiplication by constant: ~7138 weight units
  • multiplication by M31: 4702 weight units
  • multiplication by M31 constant: ~2981 weight units

Credits

Thanks to Robin Linus for pointing out an optimization that reduces the multiplication from 1767 to 1736 (1 OP_ROLL is equivalent to OP_SWAP).

Thanks to Shahar Papini from Starkware for pointing out that double Karatsuba can improve the performance for QM31.

A windowing method is used to reduce the multiplication overhead further, but it was not as powerful as expected.

The introduction of a dual form, n31, for which m31 + n31 are more efficient than m31 + m31 or n31 + n31, brings the cost from 1505 to 1415 for BabyBear and from 14404 to 13594 for BabyBear4.

When multiplying a degree-4 element with a degree-1 base element, we reuse the bit decomposition, this avoids the redundancy of doing the bit decomposition multiple times, from 5660 to 4702. We note that an alternative route is to produce a larger lookup table for the degree-1 base element and share this table between the four subelements in the degree-4 element. But our attempts show that it is slower than this naive approach (which is expected because the naive method already uses a lookup table).

In case one of the multipliers is a constant, we can have more efficient multiplication using a relaxed NAF representation, which saves from 1415 down to ~744 for M31 on degree-1 element multiplication in this special case. We use "~" to emphasize that this cost is variable and depends on the constant.

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Arithmetic over the M31 field in Bitcoin Script

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