MPO_F_opt.m

function [result,resultm,A0,c] = MPO_F_opt
boundary = 'O'; % 'O', 'P'
figureofmerit = 1; % 1 = 2Tr(r'L)-Tr(rLL), 2 = ||2*r'-rL-Lr||^2/||2*r'||^2
n = 10;
d = 2;
noiserange = 2;
integral0 = 1;
integral1 = 0.1;
integral2 = 0.01;
lherm = 1; % 1 = yes, /else/ = no
imprecision = 10^-2;
bdpsimax = 100;
bdlmax = 100;
%rng('default');
resultm = zeros(100);
if boundary == 'O'
    bdpsi = 1;
    bdl = 2;
    a0 = sqrt(2/(d+1))*sin((1:d)*pi/(d+1));
    a0 = permute(a0,[1,3,2]);
    A0 = cell([1,n]);
    [A0{:}] = deal(a0);
    store = cell([3,2]);
    for rep = 1:2
        c = (rand([bdl,bdl,d,d,n])+1i*rand([bdl,bdl,d,d,n]))/bdl;
        c = (c+conj(permute(c,[1,2,4,3,5])))/2;
        c(2:bdl,:,:,:,1) = zeros([bdl-1,bdl,d,d]);
        c(:,2:bdl,:,:,n) = zeros([bdl,bdl-1,d,d]);
        [f,A0new,cnew] = MPO_F_OBC(figureofmerit,n,d,bdl,noiserange,integral0,integral1,integral2,lherm,imprecision,A0,c);
        store{1,rep} = f;
        store{2,rep} = A0new;
        store{3,rep} = cnew;
    end
    [resultm(bdl,bdpsi),position] = max(cell2mat(store(1,:)));
    A0 = store{2,position};
    c = store{3,position};
    while 1
        while 1
            if bdpsi == bdpsimax
                break
            else
                A0old = A0;
                bdpsi = bdpsi+1;
                factor = 1/2;
                while 1
                    A0 = cell([1,n]);
                    [s1,s2,~] = size(A0old{1});
                    for nx = 1:d
                        meanrea0old = sum(sum(abs(real(A0old{1}(:,:,nx)))))/(s1*s2);
                        meanima0old = sum(sum(abs(imag(A0old{1}(:,:,nx)))))/(s1*s2);
                        A0{1}(:,:,nx) = (meanrea0old*rand([s1,s2+1])+1i*meanima0old*rand([s1,s2+1]))*factor;
                    end
                    A0{1}(1:s1,1:s2,:) = A0old{1};
                    for x = 2:n-1
                        [s1,s2,~] = size(A0old{x});
                        for nx = 1:d
                            meanrea0old = sum(sum(abs(real(A0old{x}(:,:,nx)))))/(s1*s2);
                            meanima0old = sum(sum(abs(imag(A0old{x}(:,:,nx)))))/(s1*s2);
                            A0{x}(:,:,nx) = (meanrea0old*rand([s1+1,s2+1])+1i*meanima0old*rand([s1+1,s2+1]))*factor;
                        end
                        A0{x}(1:s1,1:s2,:) = A0old{x};
                    end
                    [s1,s2,~] = size(A0old{n});
                    for nx = 1:d
                        meanrea0old = sum(sum(abs(real(A0old{n}(:,:,nx)))))/(s1*s2);
                        meanima0old = sum(sum(abs(imag(A0old{n}(:,:,nx)))))/(s1*s2);
                        A0{n}(:,:,nx) = (meanrea0old*rand([s1+1,s2])+1i*meanima0old*rand([s1+1,s2]))*factor;
                    end
                    A0{n}(1:s1,1:s2,:) = A0old{n};
                    tensors = {conj(A0{n}),A0{n}};
                    legs = {[-1,-3,1],[-2,-4,1]};
                    r1 = ncon(tensors,legs);
                    A0{n} = A0{n}/norm(r1(:))^(1/2);
                    tensors = {conj(A0{n}),A0{n}};
                    legs = {[-1,-3,1],[-2,-4,1]};
                    r2 = ncon(tensors,legs);
                    for x = n-1:-1:2
                        tensors = {conj(A0{x}),A0{x},r2};
                        legs = {[-1,2,1],[-2,3,1],[2,3]};
                        r1 = ncon(tensors,legs);
                        A0{x} = A0{x}/norm(r1(:))^(1/2);
                        tensors = {conj(A0{x}),A0{x},r2};
                        legs = {[-1,2,1],[-2,3,1],[2,3]};
                        r2 = ncon(tensors,legs);
                    end
                    tensors = {conj(A0{1}),A0{1},r2};
                    legs = {[-1,2,1],[-2,3,1],[2,3]};
                    r1 = ncon(tensors,legs);
                    A0{1} = A0{1}/norm(r1(:))^(1/2);
                    [resultm(bdl,bdpsi),A0new,cnew] = MPO_F_OBC(figureofmerit,n,d,bdl,noiserange,integral0,integral1,integral2,lherm,imprecision,A0,c);
                    if resultm(bdl,bdpsi) > resultm(bdl,bdpsi-1)
                        break
                    end
                    factor = factor/2;
                end
                if resultm(bdl,bdpsi) < (1+imprecision)*resultm(bdl,bdpsi-1)
                    bdpsi = bdpsi-1;
                    A0 = A0old;
                    A0copy = A0new;
                    ccopy = cnew;
                    break
                else
                    A0 = A0new;
                    c = cnew;
                end
            end
        end
        if bdl == bdlmax
            if bdpsi == bdpsimax
                resultm = resultm(1:bdl,1:bdpsi);
                result = resultm(bdl,bdpsi);
            else
                A0 = A0copy;
                c = ccopy;
                resultm = resultm(1:bdl,1:bdpsi+1);
                result = resultm(bdl,bdpsi+1);
            end
            break
        else
            cold = c;
            bdl = bdl+1;
            factor = 1/10;
            while 1
                c = zeros([bdl,bdl,d,d,n]);
                for nx = 1:d
                    for nxp = 1:d
                        meanrecold = sum(sum(abs(real(cold(:,:,nx,nxp,1)))))/(bdl-1);
                        meanimcold = sum(sum(abs(imag(cold(:,:,nx,nxp,1)))))/(bdl-1);
                        c(1,:,nx,nxp,1) = (meanrecold*rand([1,bdl])+1i*meanimcold*rand([1,bdl]))*factor;
                        for x = 2:n-1
                            meanrecold = sum(sum(abs(real(cold(:,:,nx,nxp,x)))))/(bdl-1)^2;
                            meanimcold = sum(sum(abs(imag(cold(:,:,nx,nxp,x)))))/(bdl-1)^2;
                            c(:,:,nx,nxp,x) = (meanrecold*rand(bdl)+1i*meanimcold*rand(bdl))*factor;
                        end
                        meanrecold = sum(sum(abs(real(cold(:,:,nx,nxp,n)))))/(bdl-1);
                        meanimcold = sum(sum(abs(imag(cold(:,:,nx,nxp,n)))))/(bdl-1);
                        c(:,1,nx,nxp,n) = (meanrecold*rand([bdl,1])+1i*meanimcold*rand([bdl,1]))*factor;
                    end
                end
                c = (c+conj(permute(c,[1,2,4,3,5])))/2;
                c(1:bdl-1,1:bdl-1,:,:,:) = cold;
                [resultm(bdl,bdpsi),A0new,cnew] = MPO_F_OBC(figureofmerit,n,d,bdl,noiserange,integral0,integral1,integral2,lherm,imprecision,A0,c);
                if resultm(bdl,bdpsi) > resultm(bdl-1,bdpsi)
                    A0 = A0new;
                    c = cnew;
                    break
                end
                factor = factor/2;
            end
            if resultm(bdl,bdpsi) < (1+imprecision)*resultm(bdl-1,bdpsi)
                if bdpsi == bdpsimax
                    resultm = resultm(1:bdl,1:bdpsi);
                    result = resultm(bdl,bdpsi);
                else
                    if resultm(bdl,bdpsi) < resultm(bdl-1,bdpsi+1)
                        A0 = A0copy;
                        c = ccopy;
                        resultm = resultm(1:bdl,1:bdpsi+1);
                        result = resultm(bdl-1,bdpsi+1);
                    else
                        resultm = resultm(1:bdl,1:bdpsi+1);
                        result = resultm(bdl,bdpsi);
                    end
                end
                break
            end
        end
    end
    %{
    if noiserange == 1
        eta = exp(-integral0/2);
        boundloc = eta^2/(1-eta^2);
    elseif noiserange == 2
        bound05 = Bound_F(1/2,d,integral0,integral1);
        bound1 = Bound_F(1,d,integral0,integral1);
        bound2 = Bound_F(2,d,integral0,integral1);
        bound3 = Bound_F(3,d,integral0,integral1);
    end
    %}
    %exact = Exact_F_OBC(n,d,noiserange,integral0,integral1,integral2,imprecision);
elseif boundary == 'P'
    bdpsi = 1;
    bdl = 2;
    a0 = sqrt(2/(d+1))*sin((1:d)*pi/(d+1));
    a0 = permute(a0,[1,3,2]);
    A0 = repmat(a0,[1,1,1,n]);
    store = cell([3,2]);
    for rep = 1:2
        c = (rand([bdl,bdl,d,d,n])+1i*rand([bdl,bdl,d,d,n]))/bdl;
        c = (c+conj(permute(c,[1,2,4,3,5])))/2;
        [f,A0new,cnew] = MPO_F_PBC(figureofmerit,n,d,bdpsi,bdl,noiserange,integral0,integral1,integral2,lherm,imprecision,A0,c);
        store{1,rep} = f;
        store{2,rep} = A0new;
        store{3,rep} = cnew;
    end
    [resultm(bdl,bdpsi),position] = max(cell2mat(store(1,:)));
    A0 = store{2,position};
    c = store{3,position};
    while 1
        while 1
            if bdpsi == bdpsimax
                break
            else
                A0old = A0;
                bdpsi = bdpsi+1;
                factor = 1/2;
                while 1
                    A0 = zeros([bdpsi,bdpsi,d,n]);
                    for nx = 1:d
                        for x = 1:n
                            meanrea0old = sum(sum(abs(real(A0old(:,:,nx,x)))))/(bdpsi-1)^2;
                            meanima0old = sum(sum(abs(imag(A0old(:,:,nx,x)))))/(bdpsi-1)^2;
                            A0(:,:,nx,x) = (meanrea0old*rand(bdpsi)+1i*meanima0old*rand(bdpsi))*factor;
                        end
                    end
                    A0(1:bdpsi-1,1:bdpsi-1,:,:) = A0old;
                    tensors = {conj(A0(:,:,:,n)),A0(:,:,:,n)};
                    legs = {[-1,-3,1],[-2,-4,1]};
                    r1 = ncon(tensors,legs);
                    A0(:,:,:,n) = A0(:,:,:,n)/norm(r1(:))^(1/2);
                    tensors = {conj(A0(:,:,:,n)),A0(:,:,:,n)};
                    legs = {[-1,-3,1],[-2,-4,1]};
                    r2 = ncon(tensors,legs);
                    for x = n-1:-1:2
                        tensors = {conj(A0(:,:,:,x)),A0(:,:,:,x),r2};
                        legs = {[-1,2,1],[-2,3,1],[2,3,-3,-4]};
                        r1 = ncon(tensors,legs);
                        A0(:,:,:,x) = A0(:,:,:,x)/norm(r1(:))^(1/2);
                        tensors = {conj(A0(:,:,:,x)),A0(:,:,:,x),r2};
                        legs = {[-1,2,1],[-2,3,1],[2,3,-3,-4]};
                        r2 = ncon(tensors,legs);
                    end
                    tensors = {conj(A0(:,:,:,1)),A0(:,:,:,1),r2};
                    legs = {[4,2,1],[5,3,1],[2,3,4,5]};
                    r1 = ncon(tensors,legs);
                    A0(:,:,:,1) = A0(:,:,:,1)/abs(r1)^(1/2);
                    [resultm(bdl,bdpsi),A0new,cnew] = MPO_F_PBC(figureofmerit,n,d,bdpsi,bdl,noiserange,integral0,integral1,integral2,lherm,imprecision,A0,c);
                    if resultm(bdl,bdpsi) > resultm(bdl,bdpsi-1)
                        break
                    end
                    factor = factor/2;
                end
                if resultm(bdl,bdpsi) < (1+imprecision)*resultm(bdl,bdpsi-1)
                    bdpsi = bdpsi-1;
                    A0 = A0old;
                    A0copy = A0new;
                    ccopy = cnew;
                    break
                else
                    A0 = A0new;
                    c = cnew;
                end
            end
        end
        if bdl == bdlmax
            if bdpsi == bdpsimax
                resultm = resultm(1:bdl,1:bdpsi);
                result = resultm(bdl,bdpsi);
            else
                A0 = A0copy;
                c = ccopy;
                resultm = resultm(1:bdl,1:bdpsi+1);
                result = resultm(bdl,bdpsi+1);
            end
            break
        else
            cold = c;
            bdl = bdl+1;
            factor = 1/10;
            while 1
                c = zeros([bdl,bdl,d,d,n]);
                for nx = 1:d
                    for nxp = 1:d
                        for x = 1:n
                            meanrecold = sum(sum(abs(real(cold(:,:,nx,nxp,x)))))/(bdl-1)^2;
                            meanimcold = sum(sum(abs(imag(cold(:,:,nx,nxp,x)))))/(bdl-1)^2;
                            c(:,:,nx,nxp,x) = (meanrecold*rand(bdl)+1i*meanimcold*rand(bdl))*factor;
                        end
                    end
                end
                c = (c+conj(permute(c,[1,2,4,3,5])))/2;
                c(1:bdl-1,1:bdl-1,:,:,:) = cold;
                [resultm(bdl,bdpsi),A0new,cnew] = MPO_F_PBC(figureofmerit,n,d,bdpsi,bdl,noiserange,integral0,integral1,integral2,lherm,imprecision,A0,c);
                if resultm(bdl,bdpsi) > resultm(bdl-1,bdpsi)
                    A0 = A0new;
                    c = cnew;
                    break
                end
                factor = factor/2;
            end
            if resultm(bdl,bdpsi) < (1+imprecision)*resultm(bdl-1,bdpsi)
                if bdpsi == bdpsimax
                    resultm = resultm(1:bdl,1:bdpsi);
                    result = resultm(bdl,bdpsi);
                else
                    if resultm(bdl,bdpsi) < resultm(bdl-1,bdpsi+1)
                        A0 = A0copy;
                        c = ccopy;
                        resultm = resultm(1:bdl,1:bdpsi+1);
                        result = resultm(bdl-1,bdpsi+1);
                    else
                        resultm = resultm(1:bdl,1:bdpsi+1);
                        result = resultm(bdl,bdpsi);
                    end
                end
                break
            end
        end
    end
    %{
    if noiserange == 1
        eta = exp(-integral0/2);
        boundloc = eta^2/(1-eta^2);
    elseif noiserange == 2
        bound05 = Bound_F(1/2,d,integral0,integral1);
        bound1 = Bound_F(1,d,integral0,integral1);
        bound2 = Bound_F(2,d,integral0,integral1);
        bound3 = Bound_F(3,d,integral0,integral1);
    end
    %}
    %exact = Exact_F_PBC(n,d,noiserange,integral0,integral1,integral2,imprecision);
end
end