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Arguments for gpt-neox. All of the following can be specified in your .yml config file(s):

NeoXArgsLRScheduler

LR Scheduler Arguments

  • lr_decay_style: typing.Literal['constant', 'linear', 'cosine', 'exponential']

    Default = linear

    Learning rate decay function. Choose from 'constant', 'linear', 'cosine', 'exponential'.

  • lr_decay_iters: int

    Default = None

    Number of iterations to decay learning rate over, If None defaults to --train-iters

  • min_lr: float

    Default = 0.0

    Minimum value for learning rate. The scheduler clips values below this threshold.

  • warmup: float

    Default = 0.01

    Percentage of total iterations to warmup on (.01 = 1 percent of all training iters).

  • override_lr_scheduler: bool

    Default = False

    Reset the values of the scheduler (learning rate,warmup iterations, minimum learning rate, maximum number of iterations, and decay style from input arguments and ignore values from checkpoints. Note that all the above values will be reset.

  • use_checkpoint_lr_scheduler: bool

    Default = False

    Use checkpoint to set the values of the scheduler (learning rate, warmup iterations, minimum learning rate, maximum number of iterations, and decay style from checkpoint and ignore input arguments.

NeoXArgsLogging

Logging Arguments

  • use_wandb: bool

    Default = None

    Flag indicating if wandb is to be used.

  • wandb_group: str

    Default = None

    Weights and Biases group name - used to group together "runs".

  • wandb_team: str

    Default = None

    Team name for Weights and Biases.

  • wandb_project: str

    Default = neox

    wandb project name

  • wandb_host: str

    Default = https://api.wandb.ai

    url of the wandb host

  • git_hash: str

    Default = a593ce2

    current git hash of repository

  • log_dir: str

    Default = None

    Directory to save logs to.

  • tensorboard_dir: str

    Default = None

    Write TensorBoard logs to this directory.

  • log_interval: int

    Default = None

    Interval between logging.

  • log_param_norm: bool

    Default = False

    Log the frob norm of the parameters to wandb / tensorboard (useful for debugging).

  • log_grad_norm: bool

    Default = False

    Log the frob norm of the gradients to wandb / tensorboard (useful for debugging). (N.B - this will only work with pp = 0 for now, as we don't have access to the gradients of the model because deepspeed.)

  • log_optimizer_states: bool

    Default = False

    Log the frob norm of the optimizer states to wandb / tensorboard (useful for debugging).

  • log_gradient_noise_scale: bool

    Default = False

    Whether to log the gradient noise scale when training (cf. https://arxiv.org/abs/1812.06162 for explanation)

  • gradient_noise_scale_n_batches: int

    Default = 5

    Number of batches to accumulate gradients for in the gradient noise scale logger.

  • gradient_noise_scale_cpu_offload: bool

    Default = False

    Whether to offload the buffered gradients to cpu when measuring gradient noise scale.

NeoXArgsModel

Model Arguments

  • precision: typing.Literal['fp16', 'fp32', 'bfloat16']

    Default = None

    description of the used precision, either one of fp16 or fp32 (and in the future bf16).

  • num_layers: int

    Default = None

    Number of transformer layers.

  • hidden_size: int

    Default = None

    Transformer hidden size.

  • num_attention_heads: int

    Default = None

    Number of transformer attention heads.

  • seq_length: int

    Default = None

    Maximum sequence length to process.

  • max_position_embeddings: int

    Default = None

    Maximum number of position embeddings to use. This is the size of position embedding.

  • norm: typing.Literal['layernorm', 'rmsnorm', 'scalenorm']

    Default = layernorm

    Normalization layer to use. Choose from "layernorm", "rmsnorm", "scalenorm".

  • layernorm_epsilon: float

    Default = 1e-05

    Layer norm epsilon.

  • rms_norm_epsilon: float

    Default = 1e-08

    Root mean squared norm epsilon

  • scalenorm_epsilon: float

    Default = 1e-08

    Scalenorm epsilon

  • pos_emb: typing.Literal['learned', 'rotary', 'sinusoidal', 'rpe', 'alibi', 'none']

    Default = learned

    Type of positional embedding to use - choose from 'learned', 'rotary', 'sinusoidal', 'rpe', 'none'

  • rpe_num_buckets: int

    Default = 32

    T5 relative positional encoding number of buckets, default 32.

  • rpe_max_distance: int

    Default = 128

    T5 relative positional encoding max distance, default 128.

  • no_weight_tying: bool

    Default = False

    Disables weight tying between embedding weights and final Linear layer

  • attention_config: list

    Default = None

    Attention configuration for gpt-neox

    The first item in the list specifies the attention type(s), and should be a list of strings. The second item specifies the number of times to repeat those attention types in the full list.

    attention type choices: [global, local, sparse_fixed, sparse_variable, bslongformer, bigbird]

    So a 12 layer network with only global attention could be specified like: [[[global], 12]]

    or a 12 layer network with alternating global / local like: [[[global, local], 6]]

    If none is specified, this defaults to [[[global], n_layers]]

  • sparsity_config: dict

    Default = None

    Sparsity configuration dict as defined in https://www.deepspeed.ai/docs/config-json/#sparse-attention

    Note that since neox is autoregressive, attention is always "unidirectional" and horizontal_global_attention is always false.

    The main difference between our sparsity config and deepspeed's is that mode is ignored - since it is instead specified in attention_config defining each layer.

    An example config is given below: "sparse_attention": { "block": 16, "different_layout_per_head": true, "num_local_blocks": 4, "num_global_blocks": 1, "num_different_global_patterns": 4, "num_random_blocks": 0, "local_window_blocks": [4], "global_block_indices": [0], "global_block_end_indices": None, "num_sliding_window_blocks": 3 }

  • num_unique_layers: int

    Default = None

    Number of unique transformer layers. num-layers should be divisible by this value. Currently only has an effect when pipe_parallel_size=0.

  • param_sharing_style: str

    Default = grouped

    Ordering of the shared parameters. For example, for a num-layers=4 and --num-unique-layers=2, we will have the following ordering for two unique layers 1 and 2-: grouped: [1, 2, 1, 2] and spaced: [1, 1, 2, 2].

  • make_vocab_size_divisible_by: int

    Default = 128

    Pad the vocab size to be divisible by this value. This is added for computational efficiency reasons.

  • activation: typing.Literal['gelu', 'geglu', 'relu', 'softsign', 'swish', 'mish']

    Default = gelu

    Activation function to use - choose from ["gelu", "geglu", "relu", "softsign", "swish", "mish"]

  • scaled_upper_triang_masked_softmax_fusion: bool

    Default = False

    Enable fusion of query_key_value_scaling time (upper diagonal) masking and softmax.

  • scaled_masked_softmax_fusion: bool

    Default = False

    Enable fusion of query_key_value_scaling general masking and softmax.

  • bias_gelu_fusion: bool

    Default = False

    Enable bias and gelu fusion.

  • bias_dropout_fusion: bool

    Default = False

    Enable bias and dropout fusion.

  • fp16_lm_cross_entropy: bool

    Default = False

    Move the cross entropy unreduced loss calculation for lm head to fp16.

  • init_method_std: float

    Default = 0.02

    Standard deviation of the zero mean normal distribution used for weight initialization.

  • apply_query_key_layer_scaling: bool

    Default = False

    Scale Q * K^T by 1 / layer-number. If this flag is set, then it will automatically set attention-softmax-in-fp32 to true

  • use_cpu_initialization: bool

    Default = False

    If set, affine parallel weights initialization uses CPU

  • attention_softmax_in_fp32: bool

    Default = False

    Run attention masking and softmax in fp32.

  • rotary_pct: float

    Default = 1.0

    pct of hidden dims to apply rotary positional embedding to

  • rotary_emb_base: int

    Default = 10000

    Base for rotary positional embedding

  • init_method: typing.Literal['normal', 'scaled_normal', 'orthogonal', 'scaled_orthogonal', 'xavier_uniform', 'xavier_normal', 'wang_init', 'small_init']

    Default = normal

    Init function used on all layers except ff residual outputs - choose from ["normal", "scaled_normal", "orthogonal", "scaled_orthogonal", "xavier_uniform", "xavier_normal", "wang_init", "small_init"]

  • output_layer_init_method: typing.Literal['normal', 'scaled_normal', 'orthogonal', 'scaled_orthogonal', 'xavier_uniform', 'xavier_normal', 'wang_init', 'small_init']

    Default = scaled_normal

    Init function used for ff residual outputs - choose from ["normal", "scaled_normal", "orthogonal", "scaled_orthogonal", "xavier_uniform", "xavier_normal", "wang_init", "small_init"]

  • gmlp_attn_dim: int

    Default = 64

    the dimension of the single head self attention in gmlp model (not used in gpt models). If None - gmlp model doesn't use attention.

  • gpt_j_residual: bool

    Default = False

    If false, we use the conventional residual path: x = x + attn(ln1(x)) x = x + mlp(ln2(x)) Otherwise, we use the residual path from GPT-J, which offers a slight speedup: x = ln(x) x = x + attn(x) + mlp(x)

  • soft_prompt_tuning: dict

    Default = None

    Dictionary configuring the soft prompt tuning parameters. If enabled, will train only the soft prompt, and freezes the rest of the model. parameters in the dict are: 'enabled': bool = True # enables soft prompting 'num_tokens': int = 10 # length of the soft prompt in tokens 'init_string': str = '' # if provided, initialize the soft prompt with the word embeddings of this string 'init_range': float = 0.5 # if no init string is provided, initialize the soft prompt with a uniform distribution between -init_range and init_rang

  • output_layer_parallelism: typing.Literal['row', 'column']

    Default = row

    Parameter controlling whether the output layer is parallelized over the hidden dim (row) or the vocab dim (column)

NeoXArgsOptimizer

Optimizer Arguments

  • optimizer_type: typing.Literal['adam', 'onebitadam', 'cpu_adam', 'cpu_torch_adam', 'sm3', 'madgrad_wd']

    Default = adam

    Type of optimizer to use. Choose from ['adam', 'onebitadam', 'cpu_adam', 'cpu_torch_adam', 'sm3', 'madgrad_wd]

  • use_bnb_optimizer: bool

    Default = False

    Whether to enable the bitsandbytes optimizers

  • zero_stage: int

    Default = None

    Zero Optimizer stage

  • zero_reduce_scatter: bool

    Default = None

    Zero: Uses reduce or reduce scatter instead of allreduce to average gradients

  • zero_contiguous_gradients: bool

    Default = None

    Zero: Copies the gradients to a contiguous buffer as they are produced. Avoids memory fragmentation during backward pass. Only useful when running very large models.

  • zero_reduce_bucket_size: int

    Default = None

    Zero: Number of elements reduced/allreduced at a time. Limits the memory required for the allgather for large model sizes

  • zero_allgather_bucket_size: int

    Default = None

    Zero: Number of elements allgathered at a time. Limits the memory required for the allgather for large model sizes

  • lr: float

    Default = None

    Max Learning rate during training

NeoXArgsOther

Misc. Arguments

  • distributed_backend: str

    Default = nccl

    Which backend to use for distributed training.

  • local_rank: int

    Default = None

    local rank passed from distributed launcher.

  • rank: int

    Default = None

    global rank of process being run (passed in via distributed launcher)

  • lazy_mpu_init: bool

    Default = False

    If set to True, initialize_megatron() skips DDP initialization and returns function to complete it instead. Also turns on use-cpu-initialization flag. This is for external DDP manager.

  • short_seq_prob: float

    Default = 0.1

    Probability of producing a short sequence.

  • eod_mask_loss: bool

    Default = False

    Mask loss for the end of document tokens.

  • adlr_autoresume: bool

    Default = False

    Enable auto-resume on adlr cluster.

  • adlr_autoresume_interval: int

    Default = 1000

    Intervals over which check for auto-resume termination signal

  • seed: int

    Default = 1234

    Random seed used for python, numpy, pytorch, and cuda.

  • onnx_safe: bool

    Default = False

    Use workarounds for known problems with Torch ONNX exporter

  • deepscale: bool

    Default = False

    (Deprecated) enable DeepSpeed (helper flag for user code, no impact on DeepSpeed backend)'

  • deepscale_config: str

    Default = None

    (Deprecated) deepscale json configuration file.

  • deepspeed_mpi: bool

    Default = False

    Run via MPI, this will attempt to discover the necessary variables to initialize torch distributed from the MPI environment

  • user_script: str

    Default = None

    user script to be run

  • iteration: int

    Default = None

    Set during training

  • do_train: int

    Default = None

    Set during training

  • do_valid: int

    Default = None

    Set during training

  • do_test: int

    Default = None

    Set during training

  • global_num_gpus: int

    Default = None

    Set during launching

NeoXArgsParallelism

Parallelism Arguments

  • pipe_parallel_size: int

    Default = 0

    Number of pipeline parallel stages. Disable with 0.

  • model_parallel_size: int

    Default = 1

    Size of the model parallelism.

  • pipe_partition_method: str

    Default = type:transformer|mlp

    method used to distribute model layers across pipeline stages. Choose from "parameters", which balances the number of parameters on each pipeline stage, "uniform", which naively balances the number of layers per stage, or "type:[regex]", which balances layers whose class names match [regex]

  • world_size: int

    Default = None

    Total world size (i.e number of gpus in cluster). Configured post-launch using distributed launcher

  • is_pipe_parallel: bool

    Default = False

    flag to determine whether pipeline parallelism is on - shouldn't be set by user, is automatically determined according to pipeline parallel size.

NeoXArgsTemplate

NeoXArgsTemplate()

NeoXArgsTextgen

Text Generation arguments

  • text_gen_type: str

    Default = unconditional

    How to generate text/sample the model. Options: unconditional, input-file, interactive

  • temperature: float

    Default = 0.0

    exponential scaling output distribution ("higher == more risk")

  • top_p: float

    Default = 0.0

    Top-p (nucleus) sampling chooses from the smallest possible set of tokens whose cumulative probability exceeds the probability top_p.

  • top_k: int

    Default = 0

    integer between 0 and the models vocab size. Filters out any logits with a probability less than that of the top_kth token.

  • maximum_tokens: int

    Default = 64

    maximum number of tokens to be generated

  • sample_input_file: str

    Default = None

    Get input from file instead of interactive mode, each line is an input.

  • sample_output_file: str

    Default = samples.txt

    Output file

  • num_samples: int

    Default = 1

    Number of samples to generate unconditionally, defaults to 1 and interactive conditional sampling

  • recompute: bool

    Default = False

    During generation recompute all attention instead of using previously computed keys/values. Should be set to true for sparse attention models

  • eval_results_prefix: str

    Default =

    prefix to which to save evaluation results - final fp will be {eval_results_prefix}_eval_results_yy-mm-dd-HH-MM.json

  • eval_tasks: list

    Default = None

    Tasks to evaluate on using lm_eval_harness

NeoXArgsTokenizer

Tokenizer Arguments

  • tokenizer_type: typing.Literal['GPT2BPETokenizer', 'HFTokenizer', 'HFGPT2Tokenizer', 'SPMTokenizer', 'CharLevelTokenizer']

    Default = GPT2BPETokenizer

    Type of tokenizer to use - should be one of ["GPT2BPETokenizer", "HFTokenizer", "HFGPT2Tokenizer", "SPMTokenizer", "CharLevelTokenizer"]

  • padded_vocab_size: int

    Default = None

    Total (padded) vocabulary size of tokenizer. Configured after launching of training, as it's dependent on the parallelism size.

NeoXArgsTraining

Training Arguments

  • data_path: str

    Default = None

    Path to combined dataset to split.

  • train_data_paths: list

    Default = None

    List of paths to train datasets.

  • test_data_paths: list

    Default = None

    List of paths to test datasets.

  • valid_data_paths: list

    Default = None

    List of paths to validation datasets.

  • train_data_weights: list

    Default = None

    List of 'weights' that decide how often to sample from each training dataset when blending datasets. If None, defaults to equal weighting. Should be a list the same length as train_data_paths

  • valid_data_weights: list

    Default = None

    List of 'weights' that decide how often to sample from each validation dataset when blending datasets. If None, defaults to equal weighting. Should be a list the same length as valid_data_paths

  • test_data_weights: list

    Default = None

    List of 'weights' that decide how often to sample from each test dataset when blending datasets. If None, defaults to equal weighting. Should be a list the same length as test_data_paths

  • weight_by_num_documents: bool

    Default = False

    If True, Builds dataset weights from a multinomial distribution over groups of data according to the number of documents in each group.

    WARNING: setting this to True will override any user provided weights

    We sample from a group according to the probability p(L) ∝ |L| ** α, where p(L) is the probability of sampling from a given group, |L| is the number of examples in that datapoint, and α is a coefficient that acts to upsample data from underrepresented groups

    Hence α (alpha) allows us to control how much to 'boost' the probability of training on low-resource groups.

    See https://arxiv.org/abs/1911.02116 for more details

  • weighted_sampler_alpha: float

    Default = 0.3

    Alpha value for weight_by_num_documents. Only has an effect if weight_by_num_documents = True.

    when alpha = 1, the probability of sampling from a given group = n_samples / total_samples as alpha -> 0, the probability of sampling from all groups becomes equal, and number of documents has no effect as alpha -> inf, the probability of sampling from the groups with the most samples -> 1

  • data_impl: str

    Default = infer

    Implementation of indexed datasets.

  • mmap_warmup: bool

    Default = False

    Warm up mmap files.

  • save: str

    Default = None

    Output directory to save checkpoints to.

  • config_files: dict

    Default = None

    Store of original config files mapping config filename to file contents

  • load: str

    Default = None

    Directory containing a model checkpoint.

  • checkpoint_validation_with_forward_pass: bool

    Default = False

    save input and output of a forward pass with the checkpoint and validate after load

  • save_interval: int

    Default = None

    Number of iterations between checkpoint saves.

  • no_save_optim: bool

    Default = False

    Do not save current optimizer.

  • no_save_rng: bool

    Default = False

    Do not save current rng state.

  • no_load_optim: bool

    Default = False

    Do not load optimizer when loading checkpoint.

  • no_load_rng: bool

    Default = False

    Do not load rng state when loading checkpoint.

  • finetune: bool

    Default = False

    Load model for finetuning. Do not load optimizer or rng state from checkpoint and set iteration to 0. Assumed when loading a release checkpoint.

  • batch_size: int

    Default = None

    training microbatch size per gpu

  • train_iters: int

    Default = None

    Number of iterations to run for training.

  • eval_iters: int

    Default = 100

    Number of iterations to run for evaluation validation/test for.

  • keep_last_n_checkpoints: int

    Default = None

    Number of last checkpoints to keep

  • eval_interval: int

    Default = 1000

    Interval between running evaluation on validation set.

  • split: str

    Default = 969, 30, 1

    Comma_separated list of proportions for training, validation, and test split. For example the split 90,5,5 will use 90% of data for training, 5% for validation and 5% for test.

  • vocab_file: str

    Default = None

    Path to the vocab file.

  • merge_file: str

    Default = None

    Path to the BPE merge file.

  • num_workers: int

    Default = 2

    Dataloader number of workers.

  • exit_interval: int

    Default = None

    Exit the program after the iteration is divisible by this value.

  • attention_dropout: float

    Default = 0.1

    Post attention dropout probability.

  • hidden_dropout: float

    Default = 0.1

    Dropout probability for hidden state transformer.

  • weight_decay: float

    Default = 0.01

    Weight decay coefficient for L2 regularization.

  • checkpoint_activations: bool

    Default = False

    Checkpoint activation to allow for training with larger models, sequences, and batch sizes.

  • checkpoint_num_layers: int

    Default = 1

    Chunk size (number of layers) for checkpointing.

  • deepspeed_activation_checkpointing: bool

    Default = True

    DEPRECATED - TODO: remove Uses activation checkpointing from deepspeed

  • contiguous_checkpointing: bool

    Default = False

    Contiguous memory checkpointing for activations.

  • checkpoint_in_cpu: bool

    Default = False

    Move the activation checkpoints to CPU.

  • synchronize_each_layer: bool

    Default = False

    does a synchronize at the beginning and end of each checkpointed layer.

  • profile_backward: bool

    Default = False

    Enables backward pass profiling for checkpointed layers.

  • partition_activations: bool

    Default = False

    Partition Activations across GPUs before checkpointing.

  • gas: int

    Default = None

    gradient_accumulation_steps

  • clip_grad: float

    Default = None

    Gradient clipping based on global L2 norm.

  • hysteresis: int

    Default = 2

    hysteresis for dynamic loss scaling

  • dynamic_loss_scale: bool

    Default = None

    flag indicating whether dynamic loss scale is used

  • loss_scale: float

    Default = None

    Static loss scaling, positive power of 2 values can improve fp16 convergence. If None, dynamic loss scaling is used.

  • loss_scale_window: float

    Default = 1000.0

    Window over which to raise/lower dynamic scale.

  • min_scale: float

    Default = 1.0

    Minimum loss scale for dynamic loss scale.

  • char_level_ppl: bool

    Default = False

    Whether to calculate character level perplexity as well as token level perplexity. (may incur a time cost)

NeoXArgsDeepspeedConfig

Args for deepspeed config Every argument included here will be included in deepspeed config json #TODO this list is not complete as compared to https://www.deepspeed.ai/docs/config-json/

  • deepspeed: bool

    Default = True

    boolean flag to enable DeepSpeed (Always True)

  • train_batch_size: int

    Default = None

    The effective training batch size. This is the amount of data samples that leads to one step of model update. train_batch_size is aggregated by the batch size that a single GPU processes in one forward/backward pass (a.k.a., train_step_batch_size), the gradient accumulation steps (a.k.a., gradient_accumulation_steps), and the number of GPUs.

  • train_micro_batch_size_per_gpu: int

    Default = None

    Batch size to be processed by one GPU in one step (without gradient accumulation). When specified, gradient_accumulation_steps is automatically calculated using train_batch_size and number of GPUs. Should not be concurrently specified with gradient_accumulation_steps in the configuration JSON.

  • gradient_accumulation_steps: int

    Default = 1

    Number of training steps to accumulate gradients before averaging and applying them. This feature is sometimes useful to improve scalability since it results in less frequent communication of gradients between steps. Another impact of this feature is the ability to train with larger batch sizes per GPU. When specified, train_step_batch_size is automatically calculated using train_batch_size and number of GPUs. Should not be concurrently specified with train_step_batch_size in the configuration JSON.

  • optimizer: dict

    Default = None

    dict containing the keys type and params

    type: The optimizer name. DeepSpeed natively supports Adam, AdamW, OneBitAdam, Lamb, and OneBitLamb optimizers (See here for details) and will import other optimizers from torch.

    params: Dictionary of parameters to instantiate optimizer. The parameter names must match the optimizer constructor signature (e.g., for Adam).

  • scheduler: dict

    Default = None

    dict containing the keys type and params

    type: The scheduler name. See here (https://deepspeed.readthedocs.io/en/latest/schedulers.html) for list of support schedulers.

    params: Dictionary of parameters to instantiate scheduler. The parameter names should match scheduler constructor signature.

  • fp32_allreduce: bool

    Default = False

    During gradient averaging perform allreduce with 32 bit values

  • prescale_gradients: bool

    Default = False

    Scale gradients before doing allreduce

  • gradient_predivide_factor: float

    Default = 1.0

    Before gradient averaging predivide gradients by a specified factor, can sometimes help with fp16 stability when scaling to large numbers of GPUs

  • sparse_gradients: bool

    Default = False

    Enable sparse compression of torch.nn.Embedding gradients.

  • fp16: dict

    Default = None

    Configuration for using mixed precision/FP16 training that leverages NVIDIA’s Apex package.

  • amp: dict

    Default = None

    Dictionary as described in Deepspeed documentation: https://www.deepspeed.ai/docs/config-json/#automatic-mixed-precision-amp-training-options

  • gradient_clipping: float

    Default = 0.0

    Enable gradient clipping with provided value

  • zero_optimization: dict

    Default = None

  • steps_per_print: int

    Default = 10

    Print train loss every N steps.

  • wall_clock_breakdown: bool

    Default = False

    Enable timing of the latency of forward/backward/update training phases.

  • dump_state: bool

    Default = False

    Print out state information of DeepSpeed object after initialization.

  • flops_profiler: dict

    Default = None

    Dictionary as described in Deepspeed documentation: https://www.deepspeed.ai/docs/config-json/#flops-profiler

  • zero_allow_untested_optimizer: bool

    Default = False

    Whether Deepspeed Zero Optimizer will allow an optimizer that hasn't been tested by the deepspeed team

NeoXArgsDeepspeedRunner

Args for deepspeed runner (deepspeed.launcher.runner). Every argument included here will be passed as command line argument to deepspeed.launcher.runner

  • hostfile: str

    Default = None

    list of hostnames / ssh aliases and the number of GPUs per host

    example file contents: worker-1 slots=4 worker-2 slots=4 127.0.0 slots=4 127.0.1 slots=4

  • include: str

    Default = None

    Specify hardware resources to use during execution. String format is NODE_SPEC[@NODE_SPEC ...] where NODE_SPEC=NAME[:SLOT[,SLOT ...]]. If :SLOT is omitted, include all slots on that host. Example: "worker-0@worker-1:0,2" will use all slots. on worker-0 and slots [0, 2] on worker-1.

  • exclude: str

    Default = None

    Specify hardware resources to NOT use during execution. Same format as include

  • num_nodes: int

    Default = -1

    Total number of worker nodes to run on, this will use the top N hosts from the given hostfile. -1 will use all.

  • num_gpus: int

    Default = None

    Max number of GPUs to use on each node, will use [0:N) GPU ids on each node. None / not specifying a value will use all.

  • master_port: int

    Default = 29500

    Port used by PyTorch distributed for communication during training.

  • master_addr: str

    Default = None

    IP address of node 0, will be inferred via 'hostname -I' if not specified.

  • launcher: str

    Default = pdsh

    Launcher backend for multi-node training. Options currently include PDSH, OpenMPI, MVAPICH.

  • detect_nvlink_pairs: bool

    Default = False

    If true, autodetects nvlink pairs and remaps cuda visible devices to place them next to each other. This is an Eleuther addition to deepspeed, and should speed up model parallel training on setups with nvlink pairs when mp=2.