| |
| |
| import os |
| import re |
|
|
| import pytest |
| import torch |
| from einops import rearrange |
| from flash_attn.models.gpt import GPTLMHeadModel, remap_state_dict_hf_gpt2 |
| from flash_attn.utils.distributed import all_gather_raw |
| from flash_attn.utils.pretrained import state_dict_from_pretrained |
| from transformers import GPT2Config, GPT2Tokenizer |
| from transformers.models.gpt2.modeling_gpt2 import GPT2LMHeadModel as GPT2LMHeadModelHF |
|
|
|
|
| |
| @pytest.mark.parametrize("world_size", [2]) |
| @pytest.mark.parametrize('rotary', [False, True]) |
| |
| @pytest.mark.parametrize("model_name", ["gpt2"]) |
| def test_tensor_parallel(model_name, rotary, world_size): |
| """Check that our implementation of GPT2 generation matches the HF implementation: |
| the scores in fp16 should be around the same as the HF scores in fp16, when compared to |
| the HF scores in fp32. |
| """ |
| dtype = torch.float16 |
| rtol, atol = 3e-3, 3e-1 |
| config = GPT2Config.from_pretrained(model_name) |
| if rotary: |
| config.n_positions = 0 |
| config.rotary_emb_dim = 64 |
| config.residual_in_fp32 = True |
| config.use_flash_attn = True |
| config.fused_bias_fc = True |
| config.fused_mlp = True |
| config.fused_dropout_add_ln = True |
| config.pad_vocab_size_multiple = 8 * world_size |
| config.sequence_parallel = False |
|
|
| os.environ["NCCL_ASYNC_ERROR_HANDLING"] = "0" |
| if not torch.distributed.is_initialized(): |
| torch.distributed.init_process_group(backend="nccl", init_method="env://") |
| device = f"cuda:{torch.distributed.get_rank()}" |
| assert world_size <= torch.distributed.get_world_size() |
| |
| |
| torch.cuda.set_device(device) |
|
|
| from apex.transformer import parallel_state |
|
|
| parallel_state.initialize_model_parallel(tensor_model_parallel_size_=world_size) |
| rank = parallel_state.get_tensor_model_parallel_rank() |
| process_group = parallel_state.get_tensor_model_parallel_group() |
|
|
| |
| |
| model = GPTLMHeadModel.from_pretrained( |
| model_name, |
| config, |
| strict=not rotary, |
| device=device, |
| dtype=dtype, |
| process_group=process_group, |
| world_size=world_size, |
| rank=rank, |
| ) |
| model.eval() |
|
|
| if not rotary: |
| model_ref = GPT2LMHeadModelHF.from_pretrained(model_name).to(device=device) |
| model_hf = GPT2LMHeadModelHF.from_pretrained(model_name).to(device=device, dtype=dtype) |
| model_ref.eval() |
| model_hf.eval() |
|
|
| torch.manual_seed(0) |
| tokenizer = GPT2Tokenizer.from_pretrained("gpt2") |
| input_ids = tokenizer("Hello, my dog is cute and ", return_tensors="pt").input_ids.to( |
| device=device |
| ) |
| max_length = 30 |
| |
| |
|
|
| |
| sequences = [] |
| scores = [] |
| cur_input_ids = input_ids |
| with torch.inference_mode(): |
| logits, _ = all_gather_raw(model(cur_input_ids).logits[:, -1], process_group) |
| logits = rearrange(logits, "(n b) d -> b (n d)", b=input_ids.shape[0])[ |
| ..., : config.vocab_size |
| ] |
| scores.append(logits) |
| sequences.append(scores[-1].argmax(dim=-1)) |
| for _ in range(input_ids.shape[1] + 1, max_length): |
| cur_input_ids = torch.cat([cur_input_ids, rearrange(sequences[-1], "b -> b 1")], dim=-1) |
| logits, _ = all_gather_raw(model(cur_input_ids).logits[:, -1], process_group) |
| logits = rearrange(logits, "(n b) d -> b (n d)", b=input_ids.shape[0])[ |
| ..., : config.vocab_size |
| ] |
| scores.append(logits) |
| sequences.append(scores[-1].argmax(dim=-1)) |
| sequences = torch.cat([input_ids, torch.stack(sequences, dim=1)], dim=1) |
| scores = tuple(scores) |
| print(sequences) |
|
|
| out = model.generate( |
| input_ids=input_ids, |
| max_length=max_length, |
| tensor_parallel=world_size, |
| vocab_size=config.vocab_size, |
| return_dict_in_generate=True, |
| output_scores=True, |
| enable_timing=True, |
| ) |
| print(out.sequences) |
| if getattr(config, "use_flash_attn", False): |
| out_cg = model.generate( |
| input_ids=input_ids, |
| max_length=max_length, |
| tensor_parallel=world_size, |
| vocab_size=config.vocab_size, |
| cg=True, |
| return_dict_in_generate=True, |
| output_scores=True, |
| enable_timing=True, |
| ) |
| print(out_cg.sequences) |
|
|
| parallel_state.destroy_model_parallel() |
|
|
| if not rotary: |
| out_hf = model_hf.generate( |
| input_ids=input_ids, |
| max_length=max_length, |
| return_dict_in_generate=True, |
| output_scores=True, |
| ) |
| out_ref = model_ref.generate( |
| input_ids=input_ids, |
| max_length=max_length, |
| return_dict_in_generate=True, |
| output_scores=True, |
| ) |
|
|
| print( |
| f"Scores max diff: {(torch.stack(out.scores, 1) - torch.stack(out_ref.scores, 1)).abs().max().item()}" |
| ) |
| print( |
| f"Scores mean diff: {(torch.stack(out.scores, 1) - torch.stack(out_ref.scores, 1)).abs().mean().item()}" |
| ) |
| print( |
| f"HF fp16 max diff: {(torch.stack(out_hf.scores, 1) - torch.stack(out_ref.scores, 1)).abs().max().item()}" |
| ) |
| print( |
| f"HF fp16 mean diff: {(torch.stack(out_hf.scores, 1) - torch.stack(out_ref.scores, 1)).abs().mean().item()}" |
| ) |
|
|
| assert torch.all(out.sequences == sequences) |
| assert torch.allclose( |
| torch.stack(out.scores, dim=1), torch.stack(scores, dim=1), rtol=rtol, atol=atol |
| ) |
| assert torch.equal(torch.stack(out.scores, dim=1), torch.stack(out_cg.scores, dim=1)) |
| if not rotary: |
| assert torch.all(out.sequences == out_ref.sequences) |
| assert torch.all(out.sequences == out_hf.sequences) |
|
|
| assert ( |
| torch.stack(out.scores, 1) - torch.stack(out_ref.scores, 1) |
| ).abs().max().item() < 3 * ( |
| torch.stack(out_hf.scores, 1) - torch.stack(out_ref.scores, 1) |
| ).abs().max().item() |
|
|
