225 lines
6.8 KiB
Lua
225 lines
6.8 KiB
Lua
-- Copyright 2015-2016 Carnegie Mellon University
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--
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-- Licensed under the Apache License, Version 2.0 (the "License");
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-- you may not use this file except in compliance with the License.
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-- You may obtain a copy of the License at
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--
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-- http://www.apache.org/licenses/LICENSE-2.0
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--
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-- Unless required by applicable law or agreed to in writing, software
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-- distributed under the License is distributed on an "AS IS" BASIS,
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-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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-- See the License for the specific language governing permissions and
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-- limitations under the License.
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-- 2015-08-09: [Brandon Amos] Initial implementation.
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-- 2016-01-04: [Bartosz Ludwiczuk] Substantial improvements at
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-- https://github.com/melgor/Triplet-Learning
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require 'optim'
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require 'image'
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require 'torchx' --for concetration the table of tensors
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paths.dofile("OpenFaceOptim.lua")
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local optimMethod = optim.adadelta
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local optimState = {} -- Use for other algorithms like SGD
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local optimator = OpenFaceOptim(model, optimState)
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trainLogger = optim.Logger(paths.concat(opt.save, 'train.log'))
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local batchNumber
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local triplet_loss
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function train()
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print('==> doing epoch on training data:')
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print("==> online epoch # " .. epoch)
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batchNumber = 0
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if opt.cuda then
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cutorch.synchronize()
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end
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model:training()
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if opt.cuda then
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model:cuda()
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if opt.cudnn then
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cudnn.convert(model,cudnn)
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end
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end
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local tm = torch.Timer()
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triplet_loss = 0
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local i = 1
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while batchNumber < opt.epochSize do
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-- queue jobs to data-workers
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donkeys:addjob(
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-- the job callback (runs in data-worker thread)
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function()
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local inputs, numPerClass = trainLoader:samplePeople(opt.peoplePerBatch,
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opt.imagesPerPerson)
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inputs = inputs:float()
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numPerClass = numPerClass:float()
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return sendTensor(inputs), sendTensor(numPerClass)
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end,
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-- the end callback (runs in the main thread)
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trainBatch
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)
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if i % 5 == 0 then
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donkeys:synchronize()
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end
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i = i + 1
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end
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donkeys:synchronize()
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if opt.cuda then
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cutorch.synchronize()
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end
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triplet_loss = triplet_loss / batchNumber
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trainLogger:add{
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['avg triplet loss (train set)'] = triplet_loss,
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}
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print(string.format('Epoch: [%d][TRAINING SUMMARY] Total Time(s): %.2f\t'
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.. 'average triplet loss (per batch): %.2f',
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epoch, tm:time().real, triplet_loss))
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print('\n')
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collectgarbage()
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local nnModel = model:float():clone():clearState()
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if opt.cudnn then
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cudnn.convert(nnModel,nn)
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end
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torch.save(paths.concat(opt.save, 'model_' .. epoch .. '.t7'), nnModel)
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torch.save(paths.concat(opt.save, 'optimState_' .. epoch .. '.t7'), optimState)
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collectgarbage()
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end -- of train()
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local inputsCPU = torch.FloatTensor()
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local numPerClass = torch.FloatTensor()
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local timer = torch.Timer()
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function trainBatch(inputsThread, numPerClassThread)
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if batchNumber >= opt.epochSize then
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return
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end
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if opt.cuda then
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cutorch.synchronize()
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end
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timer:reset()
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receiveTensor(inputsThread, inputsCPU)
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receiveTensor(numPerClassThread, numPerClass)
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local inputs
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if opt.cuda then
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inputs = inputsCPU:cuda()
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else
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inputs = inputsCPU
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end
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local numImages = inputs:size(1)
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local embeddings = model:forward(inputs):float()
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local as_table = {}
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local ps_table = {}
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local ns_table = {}
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local triplet_idx = {}
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local num_example_per_idx = torch.Tensor(embeddings:size(1))
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num_example_per_idx:zero()
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local tripIdx = 1
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local embStartIdx = 1
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local numTrips = 0
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for i = 1,opt.peoplePerBatch do
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local n = numPerClass[i]
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for j = 1,n-1 do -- For every image in the batch.
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local aIdx = embStartIdx + j - 1
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local diff = embeddings - embeddings[{ {aIdx} }]:expandAs(embeddings)
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local norms = diff:norm(2, 2):pow(2):squeeze()
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for pair = j, n-1 do -- For every possible positive pair.
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local pIdx = embStartIdx + pair
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local fff = (embeddings[aIdx]-embeddings[pIdx]):norm(2)
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local normsP = norms - torch.Tensor(embeddings:size(1)):fill(fff*fff)
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-- Set the indices of the same class to the max so they are ignored.
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normsP[{{embStartIdx,embStartIdx +n-1}}] = normsP:max()
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-- Get indices of images within the margin.
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local in_margin = normsP:lt(opt.alpha)
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local allNeg = torch.find(in_margin, 1)
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-- Use only non-random triplets.
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-- Random triples (which are beyond the margin) will just produce gradient = 0,
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-- so the average gradient will decrease.
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if table.getn(allNeg) ~= 0 then
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selNegIdx = allNeg[math.random (table.getn(allNeg))]
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-- Add the embeding of each example.
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table.insert(as_table,embeddings[aIdx])
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table.insert(ps_table,embeddings[pIdx])
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table.insert(ns_table,embeddings[selNegIdx])
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-- Add the original index of triplets.
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table.insert(triplet_idx, {aIdx,pIdx,selNegIdx})
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-- Increase the number of times of using each example.
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num_example_per_idx[aIdx] = num_example_per_idx[aIdx] + 1
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num_example_per_idx[pIdx] = num_example_per_idx[pIdx] + 1
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num_example_per_idx[selNegIdx] = num_example_per_idx[selNegIdx] + 1
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tripIdx = tripIdx + 1
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end
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numTrips = numTrips + 1
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end
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end
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embStartIdx = embStartIdx + n
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end
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assert(embStartIdx - 1 == numImages)
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local nTripsFound = table.getn(as_table)
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print((' + (nTrips, nTripsFound) = (%d, %d)'):format(numTrips, nTripsFound))
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if nTripsFound == 0 then
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print("Warning: nTripsFound == 0. Skipping batch.")
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return
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end
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local as = torch.concat(as_table):view(table.getn(as_table), opt.embSize)
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local ps = torch.concat(ps_table):view(table.getn(ps_table), opt.embSize)
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local ns = torch.concat(ns_table):view(table.getn(ns_table), opt.embSize)
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local apn
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if opt.cuda then
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local asCuda = torch.CudaTensor()
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local psCuda = torch.CudaTensor()
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local nsCuda = torch.CudaTensor()
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local sz = as:size()
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asCuda:resize(sz):copy(as)
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psCuda:resize(sz):copy(ps)
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nsCuda:resize(sz):copy(ns)
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apn = {asCuda, psCuda, nsCuda}
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else
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apn = {as, ps, ns}
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end
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local err, _ = optimator:optimizeTriplet(
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optimMethod, inputs, apn, criterion,
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triplet_idx -- , num_example_per_idx
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)
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-- DataParallelTable's syncParameters
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model:apply(function(m) if m.syncParameters then m:syncParameters() end end)
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if opt.cuda then
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cutorch.synchronize()
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end
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batchNumber = batchNumber + 1
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print(('Epoch: [%d][%d/%d]\tTime %.3f\ttripErr %.2e'):format(
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epoch, batchNumber, opt.epochSize, timer:time().real, err))
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timer:reset()
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triplet_loss = triplet_loss + err
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end
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