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f96bcc799c
Author | SHA1 | Date |
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Colin | f96bcc799c | |
Colin | 45c2f532ff |
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@ -1,2 +1,3 @@
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__pycache__
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__pycache__
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.vscode
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.vscode
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*.txt
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17
qwen/demo.py
17
qwen/demo.py
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@ -52,11 +52,10 @@ print(model)
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tokenizer = AutoTokenizer.from_pretrained(model_dir, trust_remote_code=True)
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tokenizer = AutoTokenizer.from_pretrained(model_dir, trust_remote_code=True)
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model = model.from_pretrained(
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model = model.from_pretrained(model_dir, config=config, device_map="auto", trust_remote_code=True)
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model_dir, config=config, device_map="auto", trust_remote_code=True
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).train()
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# model = model.eval()
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# model.train()
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model = model.train() # control by @torch.no_grad()
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# model.zero_grad()
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# 可指定不同的生成长度、top_p等相关超参
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# 可指定不同的生成长度、top_p等相关超参
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# model.generation_config = GenerationConfig.from_pretrained(
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# model.generation_config = GenerationConfig.from_pretrained(
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@ -74,16 +73,14 @@ print(decode_tokens)
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# 日本的首都东京。<|im_end|><|endoftext|>
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# 日本的首都东京。<|im_end|><|endoftext|>
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# # 第一轮对话
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# # 第一轮对话
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# response, history, decode_tokens = model.chat(tokenizer, "你好", "", history=None)
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# response, history, decode_tokens = model.chat(tokenizer, "你好", "", history=None)
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# print(decode_tokens)
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# print(decode_tokens)
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# # 你好!很高兴为你提供帮助。
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# # 你好!很高兴为你提供帮助。
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# 第二轮对话
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# 第二轮对话
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# response, history = model.chat(tokenizer, "给我讲一个年轻人奋斗创业最终取得成功的故事。", history=None)
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response, history, decode_tokens = model.chat(tokenizer, "给我讲一个年轻人奋斗创业最终取得成功的故事。", "", history=None)
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# print(response)
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print(response)
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# <|im_start|>system
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# <|im_start|>system
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@ -93,4 +90,4 @@ print(decode_tokens)
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# <|im_start|>assistant
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# <|im_start|>assistant
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# 莎士比亚是头一个使用“你好”这个词的文学家,他在《哈姆雷特》中写道:“你是谁?你在哪儿?
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# 莎士比亚是头一个使用“你好”这个词的文学家,他在《哈姆雷特》中写道:“你是谁?你在哪儿?
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# ”他的这一段话,通常被认为是最早的使用“你好”这个词的文学记载。这句话在英国语中非常常见,
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# ”他的这一段话,通常被认为是最早的使用“你好”这个词的文学记载。这句话在英国语中非常常见,
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# 特别是在正式或礼貌的情况下。<|im_end|><|endoftext|>
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# 特别是在正式或礼貌的情况下。<|im_end|><|endoftext|>
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@ -41,8 +41,10 @@ import sys
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sys.path.append("..")
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sys.path.append("..")
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from tools import show
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from tools import show
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from tools import mem_tracker
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logger = logging.get_logger(__name__)
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# tracker = mem_tracker.MemTracker()
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# tracker.track()
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class QWenAttention(nn.Module):
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class QWenAttention(nn.Module):
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@ -110,8 +112,6 @@ class QWenAttention(nn.Module):
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query = apply_rotary_pos_emb(query, q_pos_emb)
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query = apply_rotary_pos_emb(query, q_pos_emb)
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key = apply_rotary_pos_emb(key, k_pos_emb)
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key = apply_rotary_pos_emb(key, k_pos_emb)
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present = (key, value)
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key_size = key.size(1)
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key_size = key.size(1)
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if key_size > self.seq_length and not self.training:
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if key_size > self.seq_length and not self.training:
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seq_start = key.size(1) - query.size(1)
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seq_start = key.size(1) - query.size(1)
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@ -148,8 +148,8 @@ class QWenAttention(nn.Module):
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attn_output = F.scaled_dot_product_attention(query, key, value, attn_mask=attention_mask).transpose(1, 2)
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attn_output = F.scaled_dot_product_attention(query, key, value, attn_mask=attention_mask).transpose(1, 2)
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context_layer = self._merge_heads(attn_output, self.num_heads, self.head_dim)
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context_layer = self._merge_heads(attn_output, self.num_heads, self.head_dim)
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attn_output = self.c_proj(context_layer)
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attn_output = self.c_proj(context_layer)
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outputs = (attn_output, present)
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return outputs
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return attn_output
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class QWenMLP(nn.Module):
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class QWenMLP(nn.Module):
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@ -199,7 +199,6 @@ class QWenBlock(nn.Module):
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attention_mask=attention_mask,
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attention_mask=attention_mask,
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)
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)
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attn_output = attn_outputs[0]
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attn_output = attn_outputs[0]
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outputs = attn_outputs[1:]
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residual = hidden_states
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residual = hidden_states
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layernorm_input = attn_output + residual
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layernorm_input = attn_output + residual
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@ -207,8 +206,7 @@ class QWenBlock(nn.Module):
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residual = layernorm_input
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residual = layernorm_input
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mlp_output = self.mlp(layernorm_output)
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mlp_output = self.mlp(layernorm_output)
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hidden_states = residual + mlp_output
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hidden_states = residual + mlp_output
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outputs = (hidden_states,) + outputs
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return hidden_states
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return outputs
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class QWenPreTrainedModel(PreTrainedModel):
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class QWenPreTrainedModel(PreTrainedModel):
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@ -312,16 +310,13 @@ class QWenModel(QWenPreTrainedModel):
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hidden_states = self.drop(hidden_states)
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hidden_states = self.drop(hidden_states)
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output_shape = input_shape + (hidden_states.size(-1),)
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output_shape = input_shape + (hidden_states.size(-1),)
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presents = ()
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all_hidden_states = None
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all_hidden_states = None
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for i, block in enumerate(self.h):
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for block in self.h:
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outputs = block(
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hidden_states = block(
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hidden_states,
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hidden_states,
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rotary_pos_emb_list=rotary_pos_emb_list,
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rotary_pos_emb_list=rotary_pos_emb_list,
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attention_mask=attention_mask,
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attention_mask=attention_mask,
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)
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)
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hidden_states = outputs[0]
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presents = presents + (outputs[1],)
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hidden_states = self.ln_f(hidden_states)
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hidden_states = self.ln_f(hidden_states)
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hidden_states = hidden_states.view(output_shape)
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hidden_states = hidden_states.view(output_shape)
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@ -392,6 +387,7 @@ class QWenLMHeadModel(QWenPreTrainedModel):
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attentions=transformer_outputs.attentions,
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attentions=transformer_outputs.attentions,
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)
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)
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@torch.no_grad()
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def chat(
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def chat(
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self,
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self,
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tokenizer: PreTrainedTokenizer,
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tokenizer: PreTrainedTokenizer,
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@ -454,15 +450,9 @@ class QWenLMHeadModel(QWenPreTrainedModel):
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# 2. Set generation parameters if not already defined
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# 2. Set generation parameters if not already defined
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if generation_config.pad_token_id is None and generation_config.eos_token_id is not None:
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if generation_config.pad_token_id is None and generation_config.eos_token_id is not None:
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if model_kwargs.get("attention_mask", None) is None:
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logger.warning(
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"The attention mask and the pad token id were not set. As a consequence, you may observe "
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"unexpected behavior. Please pass your input's `attention_mask` to obtain reliable results."
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)
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eos_token_id = generation_config.eos_token_id
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eos_token_id = generation_config.eos_token_id
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if isinstance(eos_token_id, list):
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if isinstance(eos_token_id, list):
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eos_token_id = eos_token_id[0]
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eos_token_id = eos_token_id[0]
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logger.warning(f"Setting `pad_token_id` to `eos_token_id`:{eos_token_id} for open-end generation.")
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generation_config.pad_token_id = eos_token_id
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generation_config.pad_token_id = eos_token_id
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# 3. Define model inputs
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# 3. Define model inputs
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@ -571,7 +561,6 @@ class QWenLMHeadModel(QWenPreTrainedModel):
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if this_peer_finished:
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if this_peer_finished:
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break
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break
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return input_ids
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return input_ids
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@ -1 +1,2 @@
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from tools import show
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from tools import show
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from tools import mem_tracker
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@ -0,0 +1,171 @@
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import gc
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import datetime
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import inspect
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import torch
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import numpy as np
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import torch.nn as nn
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dtype_memory_size_dict = {
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torch.float64: 64 / 8,
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torch.double: 64 / 8,
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torch.float32: 32 / 8,
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torch.float: 32 / 8,
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torch.float16: 16 / 8,
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torch.half: 16 / 8,
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torch.int64: 64 / 8,
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torch.long: 64 / 8,
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torch.int32: 32 / 8,
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torch.int: 32 / 8,
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torch.int16: 16 / 8,
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torch.short: 16 / 6,
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torch.uint8: 8 / 8,
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torch.int8: 8 / 8,
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}
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# compatibility of torch1.0
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if getattr(torch, "bfloat16", None) is not None:
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dtype_memory_size_dict[torch.bfloat16] = 16 / 8
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if getattr(torch, "bool", None) is not None:
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dtype_memory_size_dict[torch.bool] = (
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8 / 8
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) # pytorch use 1 byte for a bool, see https://github.com/pytorch/pytorch/issues/41571
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def get_mem_space(x):
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try:
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ret = dtype_memory_size_dict[x]
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except KeyError:
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print(f"dtype {x} is not supported!")
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return ret
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class MemTracker(object):
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"""
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Class used to track pytorch memory usage
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Arguments:
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detail(bool, default True): whether the function shows the detail gpu memory usage
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path(str): where to save log file
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verbose(bool, default False): whether show the trivial exception
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device(int): GPU number, default is 0
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"""
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def __init__(self, detail=True, path="", verbose=False, device=0):
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self.print_detail = detail
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self.last_tensor_sizes = set()
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self.gpu_profile_fn = path + f"{datetime.datetime.now():%d-%b-%y-%H:%M:%S}-gpu_mem_track.txt"
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self.verbose = verbose
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self.begin = True
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self.device = device
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def get_tensors(self):
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for obj in gc.get_objects():
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try:
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if torch.is_tensor(obj) or (hasattr(obj, "data") and torch.is_tensor(obj.data)):
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tensor = obj
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else:
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continue
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if tensor.is_cuda:
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yield tensor
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except Exception as e:
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if self.verbose:
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print("A trivial exception occured: {}".format(e))
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def get_tensor_usage(self):
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sizes = [np.prod(np.array(tensor.size())) * get_mem_space(tensor.dtype) for tensor in self.get_tensors()]
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return np.sum(sizes) / 1024**2
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def get_allocate_usage(self):
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return torch.cuda.memory_allocated() / 1024**2
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def clear_cache(self):
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gc.collect()
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torch.cuda.empty_cache()
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def print_all_gpu_tensor(self, file=None):
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for x in self.get_tensors():
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print(x.size(), x.dtype, np.prod(np.array(x.size())) * get_mem_space(x.dtype) / 1024**2, file=file)
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def track(self):
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"""
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Track the GPU memory usage
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"""
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frameinfo = inspect.stack()[1]
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where_str = frameinfo.filename + " line " + str(frameinfo.lineno) + ": " + frameinfo.function
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with open(self.gpu_profile_fn, "a+") as f:
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if self.begin:
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f.write(
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f"GPU Memory Track | {datetime.datetime.now():%d-%b-%y-%H:%M:%S} |"
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f" Total Tensor Used Memory:{self.get_tensor_usage():<7.1f}Mb"
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f" Total Allocated Memory:{self.get_allocate_usage():<7.1f}Mb\n\n"
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)
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self.begin = False
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if self.print_detail is True:
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ts_list = [(tensor.size(), tensor.dtype) for tensor in self.get_tensors()]
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new_tensor_sizes = {
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(
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type(x),
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tuple(x.size()),
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ts_list.count((x.size(), x.dtype)),
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np.prod(np.array(x.size())) * get_mem_space(x.dtype) / 1024**2,
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x.dtype,
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)
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for x in self.get_tensors()
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}
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for t, s, n, m, data_type in new_tensor_sizes - self.last_tensor_sizes:
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f.write(
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f"+ | {str(n)} * Size:{str(s):<20} | Memory: {str(m*n)[:6]} M | {str(t):<20} | {data_type}\n"
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)
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for t, s, n, m, data_type in self.last_tensor_sizes - new_tensor_sizes:
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f.write(
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f"- | {str(n)} * Size:{str(s):<20} | Memory: {str(m*n)[:6]} M | {str(t):<20} | {data_type}\n"
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)
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self.last_tensor_sizes = new_tensor_sizes
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f.write(
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f"\nAt {where_str:<50}"
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f" Total Tensor Used Memory:{self.get_tensor_usage():<7.1f}Mb"
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f" Total Allocated Memory:{self.get_allocate_usage():<7.1f}Mb\n\n"
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)
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def ModelSize(model, input, type_size=4):
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para = sum([np.prod(list(p.size())) for p in model.parameters()])
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# print('Model {} : Number of params: {}'.format(model._get_name(), para))
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print("Model {} : params: {:4f}M".format(model._get_name(), para * type_size / 1000 / 1000))
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input_ = input.clone()
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input_.requires_grad_(requires_grad=False)
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mods = list(model.modules())
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out_sizes = []
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|
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for i in range(1, len(mods)):
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m = mods[i]
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|
if isinstance(m, nn.ReLU):
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|
if m.inplace:
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|
continue
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out = m(input_)
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out_sizes.append(np.array(out.size()))
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input_ = out
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total_nums = 0
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for i in range(len(out_sizes)):
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s = out_sizes[i]
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nums = np.prod(np.array(s))
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|
total_nums += nums
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|
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|
# print('Model {} : Number of intermedite variables without backward: {}'.format(model._get_name(), total_nums))
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# print('Model {} : Number of intermedite variables with backward: {}'.format(model._get_name(), total_nums*2))
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||||||
|
print(
|
||||||
|
"Model {} : intermedite variables: {:3f} M (without backward)".format(
|
||||||
|
model._get_name(), total_nums * type_size / 1000 / 1000
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||||||
|
)
|
||||||
|
)
|
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|
print(
|
||||||
|
"Model {} : intermedite variables: {:3f} M (with backward)".format(
|
||||||
|
model._get_name(), total_nums * type_size * 2 / 1000 / 1000
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||||||
|
)
|
||||||
|
)
|
|
@ -1,5 +1,6 @@
|
||||||
import show
|
import show
|
||||||
import torch
|
import torch
|
||||||
|
import mem_tracker
|
||||||
|
|
||||||
|
|
||||||
# radata = torch.randn(8192, 128)
|
# radata = torch.randn(8192, 128)
|
||||||
|
@ -10,11 +11,10 @@ radata = torch.randn(127)
|
||||||
show.DumpTensorToImage(radata, "test.png")
|
show.DumpTensorToImage(radata, "test.png")
|
||||||
|
|
||||||
|
|
||||||
radata = torch.randn(3,127,127)
|
radata = torch.randn(3, 127, 127)
|
||||||
show.DumpTensorToImage(radata, "test.png")
|
show.DumpTensorToImage(radata, "test.png")
|
||||||
|
|
||||||
|
|
||||||
|
|
||||||
radata = torch.randn(127, 127)
|
radata = torch.randn(127, 127)
|
||||||
show.DumpTensorToLog(radata, "test.log")
|
show.DumpTensorToLog(radata, "test.log")
|
||||||
|
|
||||||
|
@ -22,3 +22,7 @@ show.DumpTensorToLog(radata, "test.log")
|
||||||
radata = torch.randn(127, 127) - 0.5
|
radata = torch.randn(127, 127) - 0.5
|
||||||
show.ProbGE0(radata)
|
show.ProbGE0(radata)
|
||||||
show.DumpProb()
|
show.DumpProb()
|
||||||
|
|
||||||
|
radata = torch.randn(127, 127).cuda()
|
||||||
|
tracker = mem_tracker.MemTracker()
|
||||||
|
tracker.track()
|
||||||
|
|
Loading…
Reference in New Issue