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Main_BinaryNet_SVHN.lua
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Main_BinaryNet_SVHN.lua
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require 'torch'
require 'xlua'
require 'optim'
require 'gnuplot'
require 'pl'
require 'trepl'
require 'adaMax_binary_clip_shift'
require 'nn'
require 'SqrHingeEmbeddingCriterion'
----------------------------------------------------------------------
cmd = torch.CmdLine()
cmd:addTime()
cmd:text()
cmd:text('Training a convolutional network for visual classification')
cmd:text()
cmd:text('==>Options')
cmd:text('===>Model And Training Regime')
cmd:option('-modelsFolder', './Models/', 'Models Folder')
cmd:option('-network', 'Model.lua', 'Model file - must return valid network.')
cmd:option('-LR', 2^-7, 'learning rate')
cmd:option('-LRDecay', 0, 'learning rate decay (in # samples)')
cmd:option('-weightDecay', 0.0, 'L2 penalty on the weights')
cmd:option('-momentum', 0.0, 'momentum')
cmd:option('-batchSize', 200, 'batch size')
cmd:option('-stcNeurons', true, 'batch size')
cmd:option('-stcWeights', false, 'batch size')
cmd:option('-optimization', 'adam', 'optimization method')
cmd:option('-SBN', true, 'shift based batch-normalization')
cmd:option('-runningVal', true, 'use running mean and std')
cmd:option('-epoch', -1, 'number of epochs to train, -1 for unbounded')
cmd:text('===>Platform Optimization')
cmd:option('-threads', 8, 'number of threads')
cmd:option('-type', 'cuda', 'float or cuda')
cmd:option('-devid', 1, 'device ID (if using CUDA)')
cmd:option('-nGPU', 1, 'num of gpu devices used')
cmd:option('-constBatchSize', false, 'do not allow varying batch sizes - e.g for ccn2 kernel')
cmd:text('===>Save/Load Options')
cmd:option('-load', '', 'load existing net weights')
cmd:option('-save', os.date():gsub(' ',''), 'save directory')
cmd:text('===>Data Options')
cmd:option('-dataset', 'SVHN', 'Dataset - Cifar10, Cifar100, STL10, SVHN, MNIST')
cmd:option('-normalization', 'simple', 'simple - whole sample, channel - by image channel, image - mean and std images')
cmd:option('-format', 'rgb', 'rgb or yuv')
cmd:option('-whiten', false, 'whiten data')
cmd:option('-dp_prepro', true, 'preprocessing using dp lib')
cmd:option('-augment', false, 'Augment training data')
cmd:option('-preProcDir', './PreProcData/', 'Data for pre-processing (means,P,invP)')
cmd:text('===>Misc')
cmd:option('-visualize', 1, 'visualizing results')
torch.manualSeed(432)
opt = cmd:parse(arg or {})
opt.network = opt.modelsFolder .. paths.basename(opt.network, '.lua')
opt.save = paths.concat('./Results', opt.save)
opt.preProcDir = paths.concat(opt.preProcDir, opt.dataset .. '/')
-- If you choose to use exponentialy decaying learning rate use uncomment this line
--opt.LRDecay=torch.pow((2e-6/opt.LR),(1./500));
--
os.execute('mk1ir -p ' .. opt.preProcDir)
torch.setnumthreads(opt.threads)
torch.setdefaulttensortype('torch.FloatTensor')
if opt.augment then
require 'image'
end
----------------------------------------------------------------------
-- Model + Loss:
local modelAll = require(opt.network)
model=modelAll.model
GLRvec=modelAll.lrs
clipV=modelAll.clipV
local loss = SqrtHingeEmbeddingCriterion(1) --nn.ClassNLLCriterion()
local data = require 'Data'
local classes = data.Classes
----------------------------------------------------------------------
-- This matrix records the current confusion across classes
local confusion = optim.ConfusionMatrix(classes)
local AllowVarBatch = not opt.constBatchSize
----------------------------------------------------------------------
-- Output files configuration
os.execute('mkdir -p ' .. opt.save)
cmd:log(opt.save .. '/Log.txt', opt)
local netFilename = paths.concat(opt.save, 'Net')
local logFilename = paths.concat(opt.save,'ErrorRate.log')
local optStateFilename = paths.concat(opt.save,'optState')
local Log = optim.Logger(logFilename)
----------------------------------------------------------------------
local TensorType = 'torch.FloatTensor'
if opt.type =='cuda' then
require 'cutorch'
cutorch.setDevice(opt.devid)
cutorch.setHeapTracking(true)
model:cuda()
GLRvec=GLRvec:cuda()
clipV=clipV:cuda()
loss = loss:cuda()
TensorType = 'torch.CudaTensor'
end
if paths.filep(opt.load) then
model = torch.load(opt.load)
print('==>Loaded model from: ' .. opt.load)
print(model)
end
---Support for multiple GPUs - currently data parallel scheme
if opt.nGPU > 1 then
local net = model
model = nn.DataParallelTable(1)
for i = 1, opt.nGPU do
cutorch.setDevice(i)
model:add(net:clone():cuda(), i) -- Use the ith GPU
end
cutorch.setDevice(opt.devid)
end
-- Optimization configuration
local Weights,Gradients = model:getParameters()
----------------------------------------------------------------------
print '==> Network'
print(model)
print('==>' .. Weights:nElement() .. ' Parameters')
print '==> Loss'
print(loss)
------------------Optimization Configuration--------------------------
local optimState = {
learningRate = opt.LR,
momentum = opt.momentum,
weightDecay = opt.weightDecay,
learningRateDecay = opt.LRDecay,
GLRvec=GLRvec,
clipV=clipV
}
----------------------------------------------------------------------
local function SampleImages(images,labels)
if not opt.augment then
return images,labels
else
local sampled_imgs = images:clone()
for i=1,images:size(1) do
local sz = math.random(9) - 1
local hflip = math.random(2)==1
local startx = math.random(sz)
local starty = math.random(sz)
local img = images[i]:narrow(2,starty,32-sz):narrow(3,startx,32-sz)
if hflip then
img = image.hflip(img)
end
img = image.scale(img,32,32)
sampled_imgs[i]:copy(img)
end
return sampled_imgs,labels
end
end
------------------------------
local function Forward(Data, train)
local MiniBatch = DataProvider.Container{
Name = 'GPU_Batch',
MaxNumItems = opt.batchSize,
Source = Data,
ExtractFunction = SampleImages,
TensorType = TensorType
}
local yt = MiniBatch.Labels
local x = MiniBatch.Data
local SizeData = Data:size()
if not AllowVarBatch then SizeData = math.floor(SizeData/opt.batchSize)*opt.batchSize end
local NumSamples = 0
local NumBatches = 0
local lossVal = 0
while NumSamples < SizeData do
MiniBatch:getNextBatch()
local y, currLoss
NumSamples = NumSamples + x:size(1)
NumBatches = NumBatches + 1
if opt.nGPU > 1 then
model:syncParameters()
end
y = model:forward(x)
one_hot_yt=torch.zeros(yt:size(1),10)
one_hot_yt:scatter(2, yt:long():view(-1,1), 1)
one_hot_yt=one_hot_yt:mul(2):float():add(-1):cuda()
currLoss = loss:forward(y,one_hot_yt)
if train then
function feval()
model:zeroGradParameters()
local dE_dy = loss:backward(y, one_hot_yt)
model:backward(x, dE_dy)
return currLoss, Gradients
end
adaMax_binary_clip_shift(feval, Weights, optimState)
local indLayer=0
for i, layer in ipairs(model.modules) do
indLayer=indLayer+1;
if layer.__typename == 'cudnnBinarySpatialConvolution' then
model.modules[indLayer].weight:copy(model.modules[indLayer].weight:clamp(-1,1))
elseif layer.__typename == 'BinaryLinear' then
model.modules[indLayer].weight:copy(model.modules[indLayer].weight:clamp(-1,1))
end
end
end
lossVal = currLoss + lossVal
if type(y) == 'table' then --table results - always take first prediction
y = y[1]
end
confusion:batchAdd(y,one_hot_yt)
xlua.progress(NumSamples, SizeData)
if math.fmod(NumBatches,100)==0 then
collectgarbage()
end
end
return(lossVal/math.ceil(SizeData/opt.batchSize))
end
------------------------------
local function Train(Data)
model:training()
return Forward(Data, true)
end
local function Test(Data)
model:evaluate()
return Forward(Data, false)
end
------------------------------
local epoch = 1
print '\n==> Starting Training\n'
while epoch ~= opt.epoch do
data.TrainData:shuffleItems()
print('Epoch ' .. epoch)
--Train
confusion:zero()
local LossTrain = Train(data.TrainData)
if epoch%10==0 then
torch.save(netFilename, model)
end
confusion:updateValids()
local ErrTrain = (1-confusion.totalValid)
if #classes <= 10 then
print(confusion)
end
print('Training Error = ' .. ErrTrain)
print('Training Loss = ' .. LossTrain)
--validation
confusion:zero()
local LossValid = Test(data.ValidData)
confusion:updateValids()
local ErrValid = (1-confusion.totalValid)
if #classes <= 10 then
print(confusion)
end
print('Valid Error = ' .. ErrValid)
print('Valid Loss = ' .. LossValid)
--Test
confusion:zero()
local LossTest = Test(data.TestData)
confusion:updateValids()
local ErrTest = (1-confusion.totalValid)
if #classes <= 10 then
print(confusion)
end
print('Test Error = ' .. ErrTest)
print('Test Loss = ' .. LossTest)
Log:add{['Training Error']= ErrTrain, ['Valid Error'] = ErrValid, ['Test Error'] = ErrTest}
if opt.visualize == 1 then
Log:style{['Training Error'] = '-',['Validation Error'] = '-', ['Test Error'] = '-'}
Log:plot()
end
if epoch%20==0 then
optimState.learningRate=optimState.learningRate*0.5
else
optimState.learningRate=optimState.learningRate
end
print('-------------------LR-------------------')
print(optimState.learningRate)
epoch = epoch + 1
end