Wrote a code that generates coefficients for bicubic interpolation, in 3D. Code makes the coefficients in Matlab because it uses a computer algebra system to optimize and factor the equations. Real question is how do we get a computer algebra system at compile time. Maybe pipe to one?
Like build strings at compile time, in C++, and pipe to Matlab or Mathematica for the factoring, simplification
Basically I make an equation that is applied to each pixel. So. If it were runtime, indirection would mess it up, unless it was somehow correctly JIT-ed.
In this case, the formula is very fudging long because sit fits a 3rd order polynomial for every voxel output element. To do that it need to calculate the 1st and 2nd derivatives.
For each control point. But also because the embding space is 3d, you need the cross derivatives... Aka Fxyz, in addition to Fxxx (derivative with each dimension).
Why not? A computer algebra system could optimize it. The resulting c++ would then be processed by the c++ compiler. For example, in fftw, an ocml source script generates a C code.
You'd get some static prietection if you did it in c++. For example, imagine a c++ function that returns the derivative of a complex expression, or an automatic differention formula.
So someone made a fast 512-bit (non-cryptographic) hash based on AES instructions: github.com/cmuratori/meow_hash claims to have 16 bytes per cycle (until the cpu cache runs out and you are bottlenecked by mem bus throughput).
@wilx he claims that truncation isn't an issue, There is a lane mixing step after the hash, but yeah he should have used the Sub32 union member instead