using MatrixMarket, SuiteSparseMatrixCollection
using Krylov, LinearOperators
using LinearAlgebra, Printf
ssmc = ssmc_db(verbose=false)
matrix = ssmc_matrices(ssmc, "HB", "illc1850")
path = fetch_ssmc(matrix, format="MM")
A = MatrixMarket.mmread(joinpath(path[1], "$(matrix.name[1]).mtx"))
b = MatrixMarket.mmread(joinpath(path[1], "$(matrix.name[1])_b.mtx"))[:]
(m, n) = size(A)
@printf("System size: %d rows and %d columns\n", m, n)
# Define a regularization parameter.
λ = 1.0e-3
(x, stats) = lsmr(A, b, λ=λ, atol=0.0, btol=0.0)
show(stats)
resid = norm(A' * (A * x - b) + λ * x) / norm(b)
@printf("LSMR: Relative residual: %8.1e\n", resid)
@printf("LSMR: ‖x‖: %8.1e\n", norm(x))
Downloading artifact: HB/illc1850.MM
System size: 1850 rows and 712 columns
LsmrStats
niter: 1089
solved: true
inconsistent: true
residuals: []
Aresiduals: []
residual: 16.205292437207024
Aresidual: 0.0017428188278374097
κ₂(A): 65.3013701595396
‖A‖F: 45.007607017379236
xNorm: 16060.87554733281
timer: 19.23ms
status: truncated forward error small enough
LSMR: Relative residual: 2.4e-03
LSMR: ‖x‖: 1.6e+04