I have functions f1 and f2 returning matrices m1 and m2, which are calculated using Diagonal, Tridiagonal, SymTridiagonal from LinearAlgebra package.
In a new function f3 I try computing
j = m1 - m2*im
m3 = exp(j)
but this gives a Method error on computation unless I use j=Matrix(m1-m2*im), saying that no matching method for exp(::LinearAlgebra.Tridiagonal ...)
My question is how can I do this computation in the most optimal way? I am a total beginner in Julia.
Unless you have a very special structure of j (i.e. if its exponential is sparse - which is unlikely) the best you can do AFAICT is to use a dense matrix as an input to exp:
m3 = LinearAlgebra.exp!([float(x) for x in Tridiagonal(dl, d, du)])
If you expect m3 to be sparse then I think currently there is no special algorithm implemented for that case in Julia.
Note that I use exp! to do operation in place and use a comprehension to make sure the argument to exp! is dense. As exp! expects LinearAlgebra.BlasFloat (that is Union{Complex{Float32}, Complex{Float64}, Float32, Float64}) I use float to make sure that elements of j are appropriately converted. Note that it might fail if you work with e.g. BigFloat or Float16 values - in this case you have to do an appropriate conversion to the expected types yourself.
j is a tridiagonal matrix with identically zero diagonal. So I do expect it to be very sparse. It's actually J_- = Jx - i Jy from quantum mechanics. If you have a good suggestion for that it would be very helpful. Meanwhile I will try this.