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multigpu-nce-rnnlm.lua
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multigpu-nce-rnnlm.lua
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require 'paths'
require 'rnn'
require 'nngraph'
local dl = require 'dataload'
assert(nn.NCEModule and nn.NCEModule.version and nn.NCEModule.version >= 4, "update dpnn : luarocks install dpnn")
require 'cunn'
--[[ command line arguments ]]--
cmd = torch.CmdLine()
cmd:text()
cmd:text('Train a multi-GPU Language Model using stacked LSTM on Google Billion Words dataset')
cmd:text('Example:')
cmd:text("th examples/multigpu-nce-rnnlm.lua --progress --earlystop 50 --device 2 --seqlen 20 --hiddensize '{200,200}' --batchsize 20 --startlr 1 --uniform 0.1 --cutoff 5 --schedule '{[5]=0.5,[6]=0.25,[7]=0.125,[8]=0.0625,[9]=0.03125,[10]=0.015625,[11]=0.0078125,[12]=0.00390625}'")
cmd:text("th examples/multigpu-nce-rnnlm.lua.lua --trainsize 400000 --validsize 40000 --cutoff 10 --batchsize 128 --seqlen 100 --hiddensize '{250,250}' --progress --device 2")
cmd:text("th scripts/evaluate-rnnlm.lua --xplogpath /data/save/rnnlm/ptb:atlas:1458081269:1.t7 --cuda")
cmd:text('Options:')
-- training
cmd:option('--startlr', 0.7, 'learning rate at t=0')
cmd:option('--minlr', 0.001, 'minimum learning rate')
cmd:option('--saturate', 300, 'epoch at which linear decayed LR will reach minlr')
cmd:option('--schedule', '', 'learning rate schedule. e.g. {[5] = 0.004, [6] = 0.001}')
cmd:option('--momentum', -1, 'momentum (requires an additional copy of all params)')
cmd:option('--maxnormout', -1, 'max l2-norm of each layer\'s output neuron weights')
cmd:option('--cutoff', 10, 'max l2-norm of concatenation of all gradParam tensors')
cmd:option('--device', 1, 'sets the device (GPU) to use')
cmd:option('--profile', false, 'profile updateOutput,updateGradInput and accGradParameters in Sequential')
cmd:option('--maxepoch', 1000, 'maximum number of epochs to run')
cmd:option('--earlystop', 50, 'maximum number of epochs to wait to find a better local minima for early-stopping')
cmd:option('--progress', false, 'print progress bar')
cmd:option('--silent', false, 'don\'t print anything to stdout')
cmd:option('--uniform', 0.1, 'initialize parameters using uniform distribution between -uniform and uniform. -1 means default initialization')
cmd:option('--k', 400, 'how many noise samples to use for NCE')
cmd:option('--continue', '', 'path to model for which training should be continued. Note that current options (except for device, cuda and tiny) will be ignored.')
cmd:option('--Z', -1, 'normalization constant for NCE module (-1 approximates it from first batch).')
cmd:option('--rownoise', false, 'sample k noise samples for each row for NCE module')
-- rnn layer
cmd:option('--seqlen', 50, 'sequence length : back-propagate through time (BPTT) for this many time-steps')
cmd:option('--inputsize', -1, 'size of lookup table embeddings. -1 defaults to hiddensize[1]')
cmd:option('--hiddensize', '{200,200}', 'number of hidden units used at output of each recurrent layer. When more than one is specified, LSTMs are stacked')
cmd:option('--projsize', -1, 'size of the projection layer (number of hidden cell units for LSTMP)')
cmd:option('--dropout', 0, 'ancelossy dropout with this probability after each rnn layer. dropout <= 0 disables it.')
-- data
cmd:option('--batchsize', 32, 'number of examples per batch')
cmd:option('--trainsize', -1, 'number of train time-steps seen between each epoch')
cmd:option('--validsize', -1, 'number of valid time-steps used for early stopping and cross-validation')
cmd:option('--savepath', paths.concat(dl.SAVE_PATH, 'rnnlm'), 'path to directory where experiment log (includes model) will be saved')
cmd:option('--id', '', 'id string of this experiment (used to name output file) (defaults to a unique id)')
cmd:option('--tiny', false, 'use train_tiny.th7 training file')
cmd:option('--dontsave', false, 'dont save the model')
cmd:text()
local opt = cmd:parse(arg or {})
opt.hiddensize = loadstring(" return "..opt.hiddensize)()
opt.schedule = loadstring(" return "..opt.schedule)()
opt.inputsize = opt.inputsize == -1 and opt.hiddensize[1] or opt.inputsize
if not opt.silent then
table.print(opt)
end
opt.id = opt.id == '' and ('gbw' .. ':' .. dl.uniqueid()) or opt.id
opt.version = 1
cutorch.setDevice(opt.device)
local xplog, lm, criterion, targetmodule
if opt.continue ~= '' then
xplog = torch.load(opt.continue)
xplog.opt.cuda = true
xplog.opt.device = opt.device
xplog.opt.tiny = opt.tiny
opt = xplog.opt
lm = xplog.model.module
-- prevent re-casting bug
for i,lookup in ipairs(lm:findModules('nn.LookupTableMaskZero')) do
lookup.__input = nil
end
criterion = xplog.criterion
targetmodule = xplog.targetmodule
assert(opt)
end
--[[ data set ]]--
local trainset, validset, testset = dl.loadGBW({opt.batchsize,opt.batchsize,opt.batchsize}, opt.tiny and 'train_tiny.th7' or nil)
if not opt.silent then
print("Vocabulary size : "..#trainset.ivocab)
print("Train set split into "..opt.batchsize.." sequences of length "..trainset:size())
end
--[[ language model ]]--
if not lm then
assert(opt.maxnormout <= 0)
lm = nn.Sequential()
lm:add(nn.Convert())
-- input layer (i.e. word embedding space)
local concat = nn.Concat(3)
for device=1,2 do
local inputsize = device == 1 and torch.floor(opt.inputsize/2) or torch.ceil(opt.inputsize/2)
local lookup = nn.LookupTableMaskZero(#trainset.ivocab, inputsize)
lookup.maxnormout = -1 -- prevent weird maxnormout behaviour
concat:add(nn.GPU(lookup, device):cuda()) -- input is seqlen x batchsize
end
lm:add(nn.GPU(concat, 2):cuda())
if opt.dropout > 0 then
lm:add(nn.GPU(nn.Dropout(opt.dropout), 2):cuda())
end
-- rnn layers
local inputsize = opt.inputsize
for i,hiddensize in ipairs(opt.hiddensize) do
-- this is a faster version of nn.Sequencer(nn.RecLSTM(inpusize, hiddensize))
local rnn = opt.projsize < 1 and nn.SeqLSTM(inputsize, hiddensize)
or nn.SeqLSTM(inputsize, opt.projsize, hiddensize) -- LSTM with a projection layer
local device = i <= #opt.hiddensize/2 and 1 or 2
lm:add(nn.GPU(rnn:maskZero(true), device):cuda())
if opt.dropout > 0 then
lm:add(nn.GPU(nn.Dropout(opt.dropout), device):cuda())
end
inputsize = hiddensize
end
lm:add(nn.GPU(nn.SplitTable(1), 3):cuda())
if opt.uniform > 0 then
for k,param in ipairs(lm:parameters()) do
assert(torch.type(param) == 'torch.CudaTensor')
cutorch.withDevice(param:getDevice(), function() param:uniform(-opt.uniform, opt.uniform) end)
end
end
-- output layer
local unigram = trainset.wordfreq:float()
ncemodule = nn.NCEModule(inputsize, #trainset.ivocab, opt.k, unigram, opt.Z)
ncemodule:reset() -- initializes bias to get approx. Z = 1
ncemodule.batchnoise = not opt.rownoise
-- distribute weight, gradWeight and momentum on devices 3 and 4
ncemodule:multicuda(3,4)
-- NCE requires {input, target} as inputs
lm = nn.Sequential()
:add(nn.ParallelTable()
:add(lm):add(nn.Identity()))
:add(nn.ZipTable()) -- {{x1,x2,...}, {t1,t2,...}} -> {{x1,t1},{x2,t2},...}
-- encapsulate stepmodule into a Sequencer
local masked = nn.MaskZero(ncemodule, true):cuda()
lm:add(nn.GPU(nn.Sequencer(masked), 3, opt.device):cuda())
-- remember previous state between batches
lm:remember()
end
if opt.profile then
lm:profile()
end
if not opt.silent then
print"Language Model:"
print(lm)
end
if not (criterion and targetmodule) then
--[[ loss function ]]--
local crit = nn.MaskZeroCriterion(nn.NCECriterion(), true)
-- target is also seqlen x batchsize.
targetmodule = nn.Sequential()
:add(nn.Convert())
:add(nn.SplitTable(1))
criterion = nn.SequencerCriterion(crit)
end
--[[ CUDA ]]--
lm:cuda()
criterion:cuda()
targetmodule:cuda()
--[[ experiment log ]]--
-- is saved to file every time a new validation minima is found
if not xplog then
xplog = {}
xplog.opt = opt -- save all hyper-parameters and such
xplog.dataset = 'GoogleBillionWords'
xplog.vocab = trainset.vocab
-- will only serialize params
xplog.model = lm:sharedClone()
xplog.criterion = criterion
xplog.targetmodule = targetmodule
-- keep a log of NLL for each epoch
xplog.trainnceloss = {}
xplog.valnceloss = {}
-- will be used for early-stopping
xplog.minvalnceloss = 99999999
xplog.epoch = 0
paths.mkdir(opt.savepath)
end
local ntrial = 0
local epoch = xplog.epoch+1
opt.lr = opt.lr or opt.startlr
opt.trainsize = opt.trainsize == -1 and trainset:size() or opt.trainsize
opt.validsize = opt.validsize == -1 and validset:size() or opt.validsize
while opt.maxepoch <= 0 or epoch <= opt.maxepoch do
print("")
print("Epoch #"..epoch.." :")
-- 1. training
local a = torch.Timer()
lm:training()
local sumErr = 0
for i, inputs, targets in trainset:subiter(opt.seqlen, opt.trainsize) do
targets = targetmodule:forward(targets)
inputs = {inputs, targets}
-- forward
local outputs = lm:forward(inputs)
local err = criterion:forward(outputs, targets)
sumErr = sumErr + err
-- backward
local gradOutputs = criterion:backward(outputs, targets)
local a = torch.Timer()
lm:zeroGradParameters()
lm:backward(inputs, gradOutputs)
-- update
if opt.cutoff > 0 then
local norm = lm:gradParamClip(opt.cutoff) -- affects gradParams
opt.meanNorm = opt.meanNorm and (opt.meanNorm*0.9 + norm*0.1) or norm
end
lm:updateGradParameters(opt.momentum) -- affects gradParams
lm:updateParameters(opt.lr) -- affects params
lm:maxParamNorm(opt.maxnormout) -- affects params
if opt.progress then
xlua.progress(i, opt.trainsize)
end
if i % 2000 == 0 then
collectgarbage()
end
end
-- learning rate decay
if opt.schedule then
opt.lr = opt.schedule[epoch] or opt.lr
else
opt.lr = opt.lr + (opt.minlr - opt.startlr)/opt.saturate
end
opt.lr = math.max(opt.minlr, opt.lr)
if not opt.silent then
print("learning rate", opt.lr)
if opt.meanNorm then
print("mean gradParam norm", opt.meanNorm)
end
end
if cutorch then cutorch.synchronize() end
local speed = opt.trainsize*opt.batchsize/a:time().real
print(string.format("Speed : %f words/second; %f ms/word", speed, 1000/speed))
local nceloss = sumErr/opt.trainsize
print("Training error : "..nceloss)
xplog.trainnceloss[epoch] = nceloss
-- 2. cross-validation
lm:evaluate()
local sumErr = 0
for i, inputs, targets in validset:subiter(opt.seqlen, opt.validsize) do
targets = targetmodule:forward(targets)
local outputs = lm:forward{inputs, targets}
local err = criterion:forward(outputs, targets)
sumErr = sumErr + err
if opt.progress then
xlua.progress(i, opt.validsize)
end
end
local nceloss = sumErr/opt.validsize
print("Validation error : "..nceloss)
xplog.valnceloss[epoch] = nceloss
ntrial = ntrial + 1
-- early-stopping
if nceloss < xplog.minvalnceloss then
-- save best version of model
xplog.minvalnceloss = nceloss
xplog.epoch = epoch
local filename = paths.concat(opt.savepath, opt.id..'.t7')
if not opt.dontsave then
print("Found new minima. Saving to "..filename)
torch.save(filename, xplog)
end
ntrial = 0
elseif ntrial >= opt.earlystop then
print("No new minima found after "..ntrial.." epochs.")
print("Stopping experiment.")
print("Best model can be found in "..paths.concat(opt.savepath, opt.id..'.t7'))
os.exit()
end
collectgarbage()
epoch = epoch + 1
end