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fullMPMU.m
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fullMPMU.m
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function rez = fullMPMU(rez, DATA)
ops = rez.ops;
Nfilt = ops.Nfilt;
lam = ones(Nfilt, 1, 'single');
lam(:) = ops.lam(3);
[W, U, mu, UtU, nu] = decompose_dWU(ops, rez.dWU, ops.Nrank,rez.ops.kcoords);
pm = exp(-ops.momentum(2));
Params = double([ops.NT ops.Nfilt ops.Th(3) ops.maxFR 10 ops.Nchan ops.Nrank pm ops.epu ops.nt0]);
Params(3) = ops.Th(3);
Params(4) = 50000;
Params(5) = 50;
if ops.GPU
U0 = gpuArray(U);
else
U0 = U;
end
%%
nt0 = rez.ops.nt0;
Nrank = ops.Nrank;
WtW = zeros(Nfilt,Nfilt,2*nt0-1, 'single');
for i = 1:Nrank
for j = 1:Nrank
utu0 = U0(:,:,i)' * U0(:,:,j);
if ops.GPU
wtw0 = gather_try(mexWtW2(Params, W(:,:,i), W(:,:,j), utu0));
else
wtw0 = getWtW2(Params, W(:,:,i), W(:,:,j), utu0);
wtw0 = permute(wtw0, [2 3 1]);
end
WtW = WtW + wtw0;
clear wtw0 utu0
% wtw0 = squeeze(wtw(:,i,:,j,:));
end
end
mWtW = max(WtW, [], 3);
WtW = permute(WtW, [3 1 2]);
if ops.GPU
WtW = gpuArray(WtW);
end
%%
Nbatch_buff = rez.temp.Nbatch_buff;
Nbatch = rez.temp.Nbatch;
Nchan = ops.Nchan;
if ~ops.GPU
fW = rez.fW; % load fft-ed templates
end
% mWtW = mWtW - diag(diag(mWtW));
% rez.WtW = gather_try(WtW);
%
clear wtw0 utu0 U0
%
clear nspikes2
st3 = [];
rez.st3 = [];
if ops.verbose
fprintf('Time %3.0fs. Running the final template matching pass...\n', toc)
end
if Nbatch_buff<Nbatch
fid = fopen(ops.fproc, 'r');
end
msg = [];
if ~isempty(ops.nNeigh)
nNeigh = ops.nNeigh;
rez.cProj = zeros(5e6, nNeigh, 'single');
% sort pairwise templates
nsp = sum(rez.nspikes,2);
vld = single(nsp>100);
cr = mWtW .* (vld * vld');
cr(isnan(cr)) = 0;
[~, iNgsort] = sort(cr, 1, 'descend');
% save full similarity score
rez.simScore = cr;
maskTT = zeros(Nfilt, 'single');
rez.iNeigh = iNgsort(1:nNeigh, :);
for i = 1:Nfilt
maskTT(rez.iNeigh(:,i),i) = 1;
end
end
if ~isempty(ops.nNeighPC)
nNeighPC = ops.nNeighPC;
load PCspikes
ixt = round(linspace(1, size(Wi,1), ops.nt0));
Wi = Wi(ixt, 1:3);
rez.cProjPC = zeros(5e6, 3*nNeighPC, 'single');
% sort best channels
[~, iNch] = sort(abs(U(:,:,1)), 1, 'descend');
maskPC = zeros(Nchan, Nfilt, 'single');
rez.iNeighPC = iNch(1:nNeighPC, :);
for i = 1:Nfilt
maskPC(rez.iNeighPC(:,i),i) = 1;
end
maskPC = repmat(maskPC, 3, 1);
end
irun = 0;
i1nt0 = int32([1:nt0])';
%%
LAM = lam .* (20./mu).^2;
NT = ops.NT;
batchstart = 0:NT:NT*(Nbatch-Nbatch_buff);
for ibatch = 1:Nbatch
if ibatch>Nbatch_buff
offset = 2 * ops.Nchan*batchstart(ibatch-Nbatch_buff); % - ioffset;
fseek(fid, offset, 'bof');
dat = fread(fid, [NT ops.Nchan], '*int16');
else
dat = DATA(:,:,ibatch);
end
if ops.GPU
dataRAW = gpuArray(dat);
else
dataRAW = dat;
end
dataRAW = single(dataRAW);
dataRAW = dataRAW / ops.scaleproc;
% project data in low-dim space
if ops.GPU
data = gpuArray.zeros(NT, Nfilt, Nrank, 'single');
else
data = zeros(NT, Nfilt, Nrank, 'single');
end
for irank = 1:Nrank
data(:,:,irank) = dataRAW * U(:,:,irank);
end
data = reshape(data, NT, Nfilt*Nrank);
if ops.GPU
[st, id, x, errC, PCproj] ...
= mexMPmuFEAT(Params,data,W,WtW, mu, lam .* (20./mu).^2, nu);
else
[st, id, x, errC, PCproj]= cpuMPmuFEAT(Params,data,fW,WtW, mu, lam .* (20./mu).^2, nu, ops);
end
if ~isempty(st)
if ~isempty(ops.nNeighPC)
% PCA coefficients
inds = repmat(st', nt0, 1) + repmat(i1nt0, 1, numel(st));
try datSp = dataRAW(inds(:), :);
catch
datSp = dataRAW(inds(:), :);
end
datSp = reshape(datSp, [size(inds) Nchan]);
coefs = reshape(Wi' * reshape(datSp, nt0, []), size(Wi,2), numel(st), Nchan);
coefs = reshape(permute(coefs, [3 1 2]), [], numel(st));
coefs = coefs .* maskPC(:, id+1);
iCoefs = reshape(find(maskPC(:, id+1)>0), 3*nNeighPC, []);
rez.cProjPC(irun + (1:numel(st)), :) = gather_try(coefs(iCoefs)');
end
if ~isempty(ops.nNeigh)
% template coefficients
% transform coefficients
PCproj = bsxfun(@rdivide, ...
bsxfun(@plus, PCproj, LAM.*mu), sqrt(1+LAM));
PCproj = maskTT(:, id+1) .* PCproj;
iPP = reshape(find(maskTT(:, id+1)>0), nNeigh, []);
rez.cProj(irun + (1:numel(st)), :) = PCproj(iPP)';
end
% increment number of spikes
irun = irun + numel(st);
if ibatch==1;
ioffset = 0;
else
ioffset = ops.ntbuff;
end
st = st - ioffset;
% nspikes2(1:size(W,2)+1, ibatch) = histc(id, 0:1:size(W,2));
STT = cat(2, ops.nt0min + double(st) +(NT-ops.ntbuff)*(ibatch-1), ...
double(id)+1, double(x), ibatch*ones(numel(x),1));
st3 = cat(1, st3, STT);
end
if rem(ibatch,100)==1
% nsort = sort(sum(nspikes2,2), 'descend');
fprintf(repmat('\b', 1, numel(msg)));
msg = sprintf('Time %2.2f, batch %d/%d, NTOT %d\n', ...
toc, ibatch,Nbatch, size(st3,1));
fprintf(msg);
end
end
%%
[~, isort] = sort(st3(:,1), 'ascend');
st3 = st3(isort,:);
rez.st3 = st3;
if ~isempty(ops.nNeighPC)
% re-sort coefficients for projections
rez.cProjPC(irun+1:end, :) = [];
rez.cProjPC = reshape(rez.cProjPC, size(rez.cProjPC,1), [], 3);
rez.cProjPC = rez.cProjPC(isort, :,:);
for ik = 1:Nfilt
iSp = rez.st3(:,2)==ik;
OneToN = 1:nNeighPC;
[~, isortNeigh] = sort(rez.iNeighPC(:,ik), 'ascend');
OneToN(isortNeigh) = OneToN;
rez.cProjPC(iSp, :,:) = rez.cProjPC(iSp, OneToN, :);
end
rez.cProjPC = permute(rez.cProjPC, [1 3 2]);
end
if ~isempty(ops.nNeigh)
rez.cProj(irun+1:end, :) = [];
rez.cProj = rez.cProj(isort, :);
% re-index the template coefficients
for ik = 1:Nfilt
iSp = rez.st3(:,2)==ik;
OneToN = 1:nNeigh;
[~, isortNeigh] = sort(rez.iNeigh(:,ik), 'ascend');
OneToN(isortNeigh) = OneToN;
rez.cProj(iSp, :) = rez.cProj(iSp, OneToN);
end
end
%%
% rez.ops = ops;
rez.W = W;
rez.U = U;
rez.mu = mu;
rez.t2p = [];
for i = 1:Nfilt
wav0 = W(:,i,1);
wav0 = my_conv(wav0', .5)';
[~, itrough] = min(wav0);
[~, t2p] = max(wav0(itrough:end));
rez.t2p(i,1) = t2p;
rez.t2p(i,2) = itrough;
end
rez.nbins = histc(rez.st3(:,2), .5:1:Nfilt+1);
[~, rez.ypos] = max(rez.U(:,:,1), [], 1);
if Nbatch_buff<Nbatch
fclose(fid);
end
% center the templates
rez.W = cat(1, zeros(nt0 - (ops.nt0-1-ops.nt0min), Nfilt, Nrank), rez.W);
rez.WrotInv = (rez.Wrot/200)^-1;
%%
Urot = U;
for k = 1:size(U,3)
Urot(:,:,k) = rez.WrotInv' * Urot(:,:,k);
end
for n = 1:size(U,2)
rez.Wraw(:,:,n) = mu(n) * sq(Urot(:,n,:)) * sq(rez.W(:,n,:))';
end
%