Lightning makes multi-gpu training and 16 bit training trivial. *Note:* None of the flags below require changing anything about your lightningModel definition. --- #### Choosing a backend Lightning supports two backends. DataParallel and DistributedDataParallel. Both can be used for single-node multi-GPU training. For multi-node training you must use DistributedDataParallel. You can toggle between each mode by setting this flag. ``` {.python} # DEFAULT uses DataParallel trainer = Trainer(distributed_backend='dp') # change to distributed data parallel trainer = Trainer(distributed_backend='ddp') ``` If you request multiple nodes, the back-end will auto-switch to ddp. We recommend you use DistributedDataparallel even for single-node multi-GPU training. It is MUCH faster than DP but *may* have configuration issues depending on your cluster. For a deeper understanding of what lightning is doing, feel free to read [this guide](https://medium.com/@_willfalcon/9-tips-for-training-lightning-fast-neural-networks-in-pytorch-8e63a502f565). --- #### CUDA flags CUDA flags make certain GPUs visible to your script. Lightning sets these for you automatically, there's NO NEED to do this yourself. ```python # lightning will set according to what you give the trainer # os.environ["CUDA_DEVICE_ORDER"] = "PCI_BUS_ID" # os.environ["CUDA_VISIBLE_DEVICES"] = "0" ``` --- #### 16-bit mixed precision 16 bit precision can cut your memory footprint by half. If using volta architecture GPUs it can give a dramatic training speed-up as well. First, install apex (if install fails, look [here](https://github.com/NVIDIA/apex)): ```bash $ git clone https://github.com/NVIDIA/apex $ cd apex $ pip install -v --no-cache-dir --global-option="--cpp_ext" --global-option="--cuda_ext" ./ ``` then set this use_amp to True. ``` {.python} # DEFAULT trainer = Trainer(amp_level='O2', use_amp=False) ``` --- #### Single-gpu Make sure you're on a GPU machine. ```python # DEFAULT trainer = Trainer(gpus=[0]) ``` --- #### multi-gpu Make sure you're on a GPU machine. You can set as many GPUs as you want. In this setting, the model will run on all 8 GPUs at once using DataParallel under the hood. ```python # to use DataParallel (default) trainer = Trainer(gpus=[0,1,2,3,4,5,6,7], distributed_backend='dp') # RECOMMENDED use DistributedDataParallel trainer = Trainer(gpus=[0,1,2,3,4,5,6,7], distributed_backend='ddp') ``` --- #### Multi-node Multi-node training is easily done by specifying these flags. ```python # train on 12*8 GPUs trainer = Trainer(gpus=[0,1,2,3,4,5,6,7], nb_gpu_nodes=12) ``` In addition, make sure to set up your SLURM job correctly via the [SlurmClusterObject](https://williamfalcon.github.io/test-tube/hpc/SlurmCluster/). In particular, specify the number of tasks per node correctly. ```python cluster = SlurmCluster( hyperparam_optimizer=test_tube.HyperOptArgumentParser(), log_path='/some/path/to/save', ) # OPTIONAL FLAGS WHICH MAY BE CLUSTER DEPENDENT # which interface your nodes use for communication cluster.add_command('export NCCL_SOCKET_IFNAME=^docker0,lo') # see output of the NCCL connection process # NCCL is how the nodes talk to each other cluster.add_command('export NCCL_DEBUG=INFO') # setting a master port here is a good idea. cluster.add_command(f'export MASTER_PORT={PORT}') # good to load the latest NCCL version cluster.load_modules(['NCCL/2.4.7-1-cuda.10.0']) # configure cluster cluster.per_experiment_nb_nodes = 12 cluster.per_experiment_nb_gpus = 8 cluster.add_slurm_cmd(cmd='ntasks-per-node', value=8, comment='1 task per gpu') ``` Finally, make sure to add a distributed sampler to your dataset. The distributed sampler copies a portion of your dataset onto each GPU. (World_size = gpus_per_node * nb_nodes). ```python # ie: this: dataset = myDataset() dataloader = Dataloader(dataset) # becomes: dataset = myDataset() dist_sampler = torch.utils.data.distributed.DistributedSampler(dataset) dataloader = Dataloader(dataset, sampler=dist_sampler) ``` --- #### Self-balancing architecture Here lightning distributes parts of your module across available GPUs to optimize for speed and memory. COMING SOON.