ILUZero.jl is a Julia implementation of incomplete LU factorization with zero level of fill-in. It allows for non-allocating updates of the factorization.
- Julia 1.0 and up
julia> ]
pkg> add ILUZeroThis package was created to exploit some specific properties of a problem I had:
- the non-zero elements of the matrix were frequently updated
- an approximation of the matrix inverse was needed each time the non-zero elements were changed
- the sparsity structure of the matrix was never altered
- the non-zero elements of the matrix weren't necessarily floating point numbers
The ILU(0) preconditioner was a great solution for this problem. The method is simple enough to write a performant version purely in Julia which allowed using Julia's flexible type system for the elements. Also, ILU(0) has constant memory requirements so the updating matrix could re-use previously allocated structures*. Win win (win win)!
*Hint: take a look at ConjugateGradients.jl if this type of preconditioner would be beneficial to your project. Combined, these packages can help reduce allocations in those hot paths.
julia> using ILUZeroLU = ilu0(A): Create a factorization based on a sparse matrixAilu0!(LU, A): Update factorizationLUin-place based on a sparse matrixA. This assumes the original factorization was created with another sparse matrix with the exact same sparsity pattern asA. No check is made for this.- To solve for
xin(LU)x=b, use the same methods as you typically would:\orldiv!(x, LU, b). See the docs for further information. - There's also:
- Forward substitution:
forward_substitution!(y, LU, b)solvesL\band stores the solution in y. - Backward substitution:
backward_substitution!(x, LU, y)solvesU\yand stores the solution in x. - Nonzero count:
nnz(LU)will return the number of nonzero entries inLU.
- Forward substitution:
julia> using ILUZero
julia> using BenchmarkTools, LinearAlgebra, SparseArrays
julia> A = sprand(1000, 1000, 5 / 1000) + 10I
julia> fact = @btime ilu0(A)
119.475 μs (21 allocations: 165.31 KiB)
julia> updated_fact = @btime ilu0!($fact, $A)
83.079 μs (0 allocations: 0 bytes)