This question is about making any nnGraph network run on multiple GPUs and not specific to the following network instance

I am trying to train a network which is constructed with nnGraph. The backward diagram is attached. I am trying to run the parallelModel (see code or fig Node 9) in a multi-GPU setting. If I attach the parallel model to a nn.Sequential container and then create a DataParallelTable it works in a multi-GPU setting (without nnGraph). However, after attaching it to nnGraph I get an error. The backward pass works if I train on a single GPU (setting true to false in the if statements), but in a multi-GPU setting I get an error "gmodule.lua:418: attempt to index local 'gradInput' (a nil value)". I think Node 9 in backward pass should run on multiple-GPUs, however that's not happening. Creating DataParallelTable on nnGraph didn't work for me, however I thought atleast putting internal Sequential networks in a DataParallelTable would work. Is there some other way to split the initial data which is being passed to nnGraph so that it runs on multiple-GPUs?

require 'torch'
require 'nn'
require 'cudnn'
require 'cunn'
require 'cutorch'
require 'nngraph'

data1 = torch.ones(4,20):cuda()
data2 = torch.ones(4,10):cuda()

tmodel = nn.Sequential()
parallelModel = nn.ParallelTable()

model = parallelModel
if true then
  local function sharingKey(m)
     local key = torch.type(m)
     if m.__shareGradInputKey then
        key = key .. ':' .. m.__shareGradInputKey
     return key

  -- Share gradInput for memory efficient backprop
  local cache = {}
     local moduleType = torch.type(m)
     if torch.isTensor(m.gradInput) and moduleType ~= 'nn.ConcatTable' then
        local key = sharingKey(m)
        if cache[key] == nil then
           cache[key] = torch.CudaStorage(1)
        m.gradInput = torch.CudaTensor(cache[key], 1, 0)

if true then
  cudnn.fastest = true
  cudnn.benchmark = true

  -- Wrap the model with DataParallelTable, if using more than one GPU
  local gpus = torch.range(1, 2):totable()
  local fastest, benchmark = cudnn.fastest, cudnn.benchmark

  local dpt = nn.DataParallelTable(1, true, true)
     :add(model, gpus)
        local cudnn = require 'cudnn'
        cudnn.fastest, cudnn.benchmark = fastest, benchmark
  dpt.gradInput = nil

  model = dpt:cuda()

newmodel = nn.Sequential()

input1 = nn.Identity()()
input2 = nn.Identity()()
input3 = nn.Identity()()

out = newmodel({input1,input2,input3})

r1 = nn.NarrowTable(1,2)(out)
r2 = nn.NarrowTable(2,2)(out)

f1 = nn.JoinTable(2)(r1)
f2 = nn.JoinTable(2)(r2)

n1 = nn.Sequential()

n2 = nn.Sequential()

f11 = n1(f1)
f12 = n2(f2)

foutput = nn.JoinTable(2)({f11,f12})

g = nn.gModule({input1,input2,input3},{foutput})
g = g:cuda()

g:forward({data1, data2, data2})
g:backward({data1, data2, data2}, torch.rand(4,10):cuda())

Backward Pass

The code in the "if" statements is taken from Facebook's ResNet implementation

  • Have you considered to use tensorflow? Have you come with a solution? – 0x90 Feb 13 '17 at 2:56
  • 1
    I switched back to Caffe after spending 5-6 months with Torch. Caffe has most of the vision code/models I need and now its python layer also supports multi-GPU option, so currently I don't see a reason to switch from Caffe. If everyone starts to use tensorflow and I can't find models/code in Caffe any more, I'll consider switching. – Bharat Feb 13 '17 at 4:55

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