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PropertyT.jl/scripts/SpN_Adj.jl

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using LinearAlgebra
BLAS.set_num_threads(8)
ENV["OMP_NUM_THREADS"] = 1
using Groups
import Groups.MatrixGroups
include(joinpath(@__DIR__, "../test/optimizers.jl"))
using PropertyT
using PropertyT.SymbolicWedderburn
using PropertyT.PermutationGroups
using PropertyT.StarAlgebras
include(joinpath(@__DIR__, "argparse.jl"))
include(joinpath(@__DIR__, "utils.jl"))
const N = parsed_args["N"]
const HALFRADIUS = parsed_args["halfradius"]
const UPPER_BOUND = parsed_args["upper_bound"]
const GENUS = 2N
G = MatrixGroups.SymplecticGroup{GENUS}(Int8)
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RG, S, sizes = @time PropertyT.group_algebra(G, halfradius = HALFRADIUS)
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wd = let RG = RG, N = N
G = StarAlgebras.object(RG)
P = PermGroup(perm"(1,2)", Perm(circshift(1:N, -1)))
Σ = Groups.Constructions.WreathProduct(PermGroup(perm"(1,2)"), P)
# Σ = P
act = PropertyT.action_by_conjugation(G, Σ)
@info "Computing WedderburnDecomposition"
wdfl = @time SymbolicWedderburn.WedderburnDecomposition(
Float64,
Σ,
act,
basis(RG),
StarAlgebras.Basis{UInt16}(@view basis(RG)[1:sizes[HALFRADIUS]]),
)
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@info wdfl
wdfl
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end
Δ = RG(length(S)) - sum(RG(s) for s in S)
Δs = PropertyT.laplacians(
RG,
S,
x -> (gx = PropertyT.grading(x); Set([gx, -gx])),
)
# elt = Δ^2
elt = PropertyT.Adj(Δs, :C₂)
unit = Δ
@time model, varP = PropertyT.sos_problem_primal(
elt,
unit,
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wd;
upper_bound = UPPER_BOUND,
augmented = true,
show_progress = true,
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)
solve_in_loop(
model,
wd,
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varP;
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logdir = "./log/Sp($N,Z)/r=$HALFRADIUS/Adj_C₂-$(UPPER_BOUND)Δ",
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optimizer = cosmo_optimizer(;
eps = 1e-10,
max_iters = 20_000,
accel = 50,
alpha = 1.95,
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),
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data = (elt = elt, unit = unit, halfradius = HALFRADIUS),
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)