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add Nemo-Mistral-Minitron / Gradio 5
Browse files
README.md
CHANGED
@@ -4,11 +4,14 @@ emoji: π π€ππ»
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colorFrom: blue
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colorTo: red
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sdk: gradio
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sdk_version:
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app_file: app.py
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pinned: true
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license: mit
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short_description: 'MiniNemo : High Performance With a SOTA Compression by Nvidia'
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---
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Check out the configuration reference at https://huggingface.co/docs/hub/spaces-config-reference
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colorFrom: blue
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colorTo: red
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sdk: gradio
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sdk_version: 5.0.0b5
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app_file: app.py
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pinned: true
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license: mit
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short_description: 'MiniNemo : High Performance With a SOTA Compression by Nvidia'
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short_description: State-of-the-Art Performance With a SOTA Compression
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thumbnail: >-
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https://cdn-uploads.huggingface.co/production/uploads/62a3bb1cd0d8c2c2169f0b88/tJn4I1ea2HlGIbiNqM-xw.png
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---
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Check out the configuration reference at https://huggingface.co/docs/hub/spaces-config-reference
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app.py
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import gradio as gr
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import torch
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from transformers import AutoTokenizer, AutoModelForCausalLM, pipeline
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import json
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from globe import title, description, customtool , presentation1, presentation2, joinus
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import spaces
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model_path = "nvidia/
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tokenizer = AutoTokenizer.from_pretrained(model_path)
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model = AutoModelForCausalLM.from_pretrained(model_path)
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#
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def create_prompt(system_message, user_message, tool_definition="", context=""):
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if tool_definition:
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@@ -35,13 +41,10 @@ def create_prompt(system_message, user_message, tool_definition="", context=""):
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@spaces.GPU
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def generate_response(message, history, system_message, max_tokens, temperature, top_p, use_pipeline=False, tool_definition="", context=""):
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full_prompt = create_prompt(system_message, message, tool_definition, context)
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if use_pipeline:
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{"role": "user", "content": message},
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]
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response = pipe(messages, max_new_tokens=max_tokens, temperature=temperature, top_p=top_p)[0]['generated_text']
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else:
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tokenized_chat = tokenizer.apply_chat_template(
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[
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@@ -55,7 +58,7 @@ def generate_response(message, history, system_message, max_tokens, temperature,
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with torch.no_grad():
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output_ids = model.generate(
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tokenized_chat,
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max_new_tokens=max_tokens,
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temperature=temperature,
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top_p=top_p,
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@@ -63,30 +66,30 @@ def generate_response(message, history, system_message, max_tokens, temperature,
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)
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response = tokenizer.decode(output_ids[0], skip_special_tokens=True)
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assistant_response = response.split("<extra_id_1>Assistant\n")[-1].strip()
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if tool_definition and "<toolcall>" in assistant_response:
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tool_call = assistant_response.split("<toolcall>")[1].split("</toolcall>")[0]
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assistant_response += f"\n\nTool Call: {tool_call}\n\nNote: This is a simulated tool call. In a real scenario, the tool would be executed and its output would be used to generate a final response."
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return assistant_response
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with gr.Blocks() as demo:
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with gr.Row():
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gr.Markdown(title)
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with gr.Row():
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gr.Markdown(description)
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with gr.Row():
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with gr.
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gr.
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with gr.Row():
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with gr.Column(scale=3):
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chatbot = gr.Chatbot(label="π€
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msg = gr.Textbox(label="User Input", placeholder="Ask a question or request a task...")
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with gr.Accordion(label="π§ͺAdvanced Settings", open=False):
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system_message = gr.Textbox(
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max_tokens = gr.Slider(minimum=1, maximum=1024, value=256, step=1, label="Max Tokens")
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temperature = gr.Slider(minimum=0.1, maximum=2.0, value=0.7, step=0.1, label="Temperature")
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top_p = gr.Slider(minimum=0.1, maximum=1.0, value=0.95, step=0.05, label="Top-p")
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use_pipeline = gr.Checkbox(label="Use
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use_tool = gr.Checkbox(label="Use Function
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with gr.Column(visible=False) as tool_options:
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tool_definition = gr.Code(
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label="
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value=
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lines=15,
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language="json"
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)
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clear = gr.Button("Clear")
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send = gr.Button("Send")
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def user(user_message, history):
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return "", history + [[user_message, None]]
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)
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if __name__ == "__main__":
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demo.
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import gradio as gr
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import torch
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from transformers import AutoTokenizer, AutoModelForCausalLM, pipeline
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from globe import title, description, customtool , presentation1, presentation2, joinus
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import spaces
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model_path = "nvidia/Mistral-NeMo-Minitron-8B-Instruct"
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tokenizer = AutoTokenizer.from_pretrained(model_path)
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model = AutoModelForCausalLM.from_pretrained(model_path)
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# Extract config info from model's configuration
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config_info = model.config
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# Create a Markdown string to display the complete model configuration information
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model_info_md = "### Model Configuration: Mistral-NeMo-Minitron-8B-Instruct\n\n"
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for key, value in config_info.to_dict().items():
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model_info_md += f"- **{key.replace('_', ' ').capitalize()}**: {value}\n"
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pipe = pipeline("text-generation", model=model)
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pipe.tokenizer = tokenizer
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def create_prompt(system_message, user_message, tool_definition="", context=""):
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if tool_definition:
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@spaces.GPU
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def generate_response(message, history, system_message, max_tokens, temperature, top_p, use_pipeline=False, tool_definition="", context=""):
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full_prompt = create_prompt(system_message, message, tool_definition, context)
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if use_pipeline:
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prompt = [{"role": "system", "content": system_message}, {"role": "user", "content": message}]
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response = pipe(prompt, max_new_tokens=max_tokens, temperature=temperature, top_p=top_p, stop_strings=["<extra_id_1>"])[0]['generated_text']
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else:
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tokenized_chat = tokenizer.apply_chat_template(
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[
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with torch.no_grad():
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output_ids = model.generate(
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tokenized_chat['input_ids'],
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max_new_tokens=max_tokens,
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temperature=temperature,
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top_p=top_p,
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)
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response = tokenizer.decode(output_ids[0], skip_special_tokens=True)
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assistant_response = response.split("<extra_id_1>Assistant\n")[-1].strip()
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if tool_definition and "<toolcall>" in assistant_response:
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tool_call = assistant_response.split("<toolcall>")[1].split("</toolcall>")[0]
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assistant_response += f"\n\nTool Call: {tool_call}\n\nNote: This is a simulated tool call. In a real scenario, the tool would be executed and its output would be used to generate a final response."
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return assistant_response
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with gr.Blocks() as demo:
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with gr.Row():
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gr.Markdown(title)
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with gr.Row():
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gr.Markdown(description)
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with gr.Row():
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with gr.Column(scale=1):
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with gr.Group():
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gr.Markdown(presentation1)
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with gr.Column(scale=1):
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with gr.Group():
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gr.Markdown(model_info_md)
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with gr.Row():
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with gr.Column(scale=3):
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chatbot = gr.Chatbot(label="π€ Mistral-NeMo", height=400)
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msg = gr.Textbox(label="User Input", placeholder="Ask a question or request a task...")
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with gr.Accordion(label="π§ͺAdvanced Settings", open=False):
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system_message = gr.Textbox(
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max_tokens = gr.Slider(minimum=1, maximum=1024, value=256, step=1, label="Max Tokens")
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temperature = gr.Slider(minimum=0.1, maximum=2.0, value=0.7, step=0.1, label="Temperature")
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top_p = gr.Slider(minimum=0.1, maximum=1.0, value=0.95, step=0.05, label="Top-p")
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use_pipeline = gr.Checkbox(label="Use Pipeline", value=False)
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use_tool = gr.Checkbox(label="Use Function Calling", value=False)
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with gr.Column(visible=False) as tool_options:
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tool_definition = gr.Code(
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label="Tool Definition (JSON)",
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value="{}",
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lines=15,
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language="json"
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)
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clear = gr.Button("Clear")
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send = gr.Button("Send")
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def user(user_message, history):
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return "", history + [[user_message, None]]
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)
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if __name__ == "__main__":
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demo.queue
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demo.launch()
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globe.py
CHANGED
@@ -3,16 +3,14 @@ joinus = """
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πTeamTonicπ is always making cool demos! Join our active builder's π οΈcommunity π» [![Join us on Discord](https://img.shields.io/discord/1109943800132010065?label=Discord&logo=discord&style=flat-square)](https://discord.gg/qdfnvSPcqP) On π€Huggingface:[MultiTransformer](https://huggingface.co/MultiTransformer) On πGithub: [Tonic-AI](https://github.com/tonic-ai) & contribute toπ [Build Tonic](https://git.tonic-ai.com/contribute)π€Big thanks to Yuvi Sharma and all the folks at huggingface for the community grant π€
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"""
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title = """# ππ»ββοΈWelcome to Tonic's π€
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description = """
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"""
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presentation1 = """Try this model on [build.nvidia.com](https://build.nvidia.com/nvidia/nemotron-mini-4b-instruct).
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**Model Dates:** π€Nemotron-Mini-4B-Instruct was trained between February 2024 and Aug 2024.
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### License
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πTeamTonicπ is always making cool demos! Join our active builder's π οΈcommunity π» [![Join us on Discord](https://img.shields.io/discord/1109943800132010065?label=Discord&logo=discord&style=flat-square)](https://discord.gg/qdfnvSPcqP) On π€Huggingface:[MultiTransformer](https://huggingface.co/MultiTransformer) On πGithub: [Tonic-AI](https://github.com/tonic-ai) & contribute toπ [Build Tonic](https://git.tonic-ai.com/contribute)π€Big thanks to Yuvi Sharma and all the folks at huggingface for the community grant π€
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"""
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title = """# ππ»ββοΈWelcome to Tonic's π€ Mistral-NeMo-Minitron Demo π"""
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description = """nvidia/π€Mistral-NeMo-Minitron-8B-Instruct is a model for generating responses for various text-generation tasks including roleplaying, retrieval augmented generation, and function calling.
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"""
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presentation1 = """Try this model on [build.nvidia.com](https://build.nvidia.com/nvidia/nemotron-mini-4b-instruct).
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Mistral-NeMo-Minitron-8B-Instruct is a model for generating responses for various text-generation tasks including roleplaying, retrieval augmented generation, and function calling. It is a fine-tuned version of [nvidia/Mistral-NeMo-Minitron-8B-Base](https://huggingface.co/nvidia/Mistral-NeMo-Minitron-8B-Base), which was pruned and distilled from [Mistral-NeMo 12B](https://huggingface.co/nvidia/Mistral-NeMo-12B-Base) using [our LLM compression technique](https://arxiv.org/abs/2407.14679). The model was trained using a multi-stage SFT and preference-based alignment technique with [NeMo Aligner](https://github.com/NVIDIA/NeMo-Aligner). For details on the alignment technique, please refer to the [Nemotron-4 340B Technical Report](https://arxiv.org/abs/2406.11704).
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### License
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test.py
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|
1 |
+
# mypy: allow-untyped-defs
|
2 |
+
import warnings
|
3 |
+
from typing import Optional, Tuple
|
4 |
+
|
5 |
+
import torch
|
6 |
+
from torch import Tensor
|
7 |
+
from .linear import NonDynamicallyQuantizableLinear
|
8 |
+
from torch.nn.init import constant_, xavier_normal_, xavier_uniform_
|
9 |
+
from torch.nn.parameter import Parameter
|
10 |
+
from .module import Module
|
11 |
+
from .. import functional as F
|
12 |
+
|
13 |
+
__all__ = ['Threshold', 'ReLU', 'RReLU', 'Hardtanh', 'ReLU6', 'Sigmoid', 'Hardsigmoid', 'Tanh',
|
14 |
+
'SiLU', 'Mish', 'Hardswish', 'ELU', 'CELU', 'SELU', 'GLU', 'GELU', 'Hardshrink', 'LeakyReLU',
|
15 |
+
'LogSigmoid', 'Softplus', 'Softshrink', 'MultiheadAttention', 'PReLU', 'Softsign', 'Tanhshrink',
|
16 |
+
'Softmin', 'Softmax', 'Softmax2d', 'LogSoftmax']
|
17 |
+
|
18 |
+
|
19 |
+
[docs]class Threshold(Module):
|
20 |
+
r"""Thresholds each element of the input Tensor.
|
21 |
+
|
22 |
+
Threshold is defined as:
|
23 |
+
|
24 |
+
.. math::
|
25 |
+
y =
|
26 |
+
\begin{cases}
|
27 |
+
x, &\text{ if } x > \text{threshold} \\
|
28 |
+
\text{value}, &\text{ otherwise }
|
29 |
+
\end{cases}
|
30 |
+
|
31 |
+
Args:
|
32 |
+
threshold: The value to threshold at
|
33 |
+
value: The value to replace with
|
34 |
+
inplace: can optionally do the operation in-place. Default: ``False``
|
35 |
+
|
36 |
+
Shape:
|
37 |
+
- Input: :math:`(*)`, where :math:`*` means any number of dimensions.
|
38 |
+
- Output: :math:`(*)`, same shape as the input.
|
39 |
+
|
40 |
+
Examples::
|
41 |
+
|
42 |
+
>>> m = nn.Threshold(0.1, 20)
|
43 |
+
>>> input = torch.randn(2)
|
44 |
+
>>> output = m(input)
|
45 |
+
"""
|
46 |
+
|
47 |
+
__constants__ = ['threshold', 'value', 'inplace']
|
48 |
+
|
49 |
+
threshold: float
|
50 |
+
value: float
|
51 |
+
inplace: bool
|
52 |
+
|
53 |
+
def __init__(self, threshold: float, value: float, inplace: bool = False) -> None:
|
54 |
+
super().__init__()
|
55 |
+
self.threshold = threshold
|
56 |
+
self.value = value
|
57 |
+
self.inplace = inplace
|
58 |
+
# TODO: check in THNN (if inplace == True, then assert value <= threshold)
|
59 |
+
|
60 |
+
def forward(self, input: Tensor) -> Tensor:
|
61 |
+
return F.threshold(input, self.threshold, self.value, self.inplace)
|
62 |
+
|
63 |
+
def extra_repr(self):
|
64 |
+
inplace_str = ', inplace=True' if self.inplace else ''
|
65 |
+
return f'threshold={self.threshold}, value={self.value}{inplace_str}'
|
66 |
+
|
67 |
+
|
68 |
+
|
69 |
+
[docs]class ReLU(Module):
|
70 |
+
r"""Applies the rectified linear unit function element-wise.
|
71 |
+
|
72 |
+
:math:`\text{ReLU}(x) = (x)^+ = \max(0, x)`
|
73 |
+
|
74 |
+
Args:
|
75 |
+
inplace: can optionally do the operation in-place. Default: ``False``
|
76 |
+
|
77 |
+
Shape:
|
78 |
+
- Input: :math:`(*)`, where :math:`*` means any number of dimensions.
|
79 |
+
- Output: :math:`(*)`, same shape as the input.
|
80 |
+
|
81 |
+
.. image:: ../scripts/activation_images/ReLU.png
|
82 |
+
|
83 |
+
Examples::
|
84 |
+
|
85 |
+
>>> m = nn.ReLU()
|
86 |
+
>>> input = torch.randn(2)
|
87 |
+
>>> output = m(input)
|
88 |
+
|
89 |
+
|
90 |
+
An implementation of CReLU - https://arxiv.org/abs/1603.05201
|
91 |
+
|
92 |
+
>>> m = nn.ReLU()
|
93 |
+
>>> input = torch.randn(2).unsqueeze(0)
|
94 |
+
>>> output = torch.cat((m(input), m(-input)))
|
95 |
+
"""
|
96 |
+
|
97 |
+
__constants__ = ['inplace']
|
98 |
+
inplace: bool
|
99 |
+
|
100 |
+
def __init__(self, inplace: bool = False):
|
101 |
+
super().__init__()
|
102 |
+
self.inplace = inplace
|
103 |
+
|
104 |
+
def forward(self, input: Tensor) -> Tensor:
|
105 |
+
return F.relu(input, inplace=self.inplace)
|
106 |
+
|
107 |
+
def extra_repr(self) -> str:
|
108 |
+
inplace_str = 'inplace=True' if self.inplace else ''
|
109 |
+
return inplace_str
|
110 |
+
|
111 |
+
|
112 |
+
|
113 |
+
[docs]class RReLU(Module):
|
114 |
+
r"""Applies the randomized leaky rectified linear unit function, element-wise.
|
115 |
+
|
116 |
+
Method described in the paper:
|
117 |
+
`Empirical Evaluation of Rectified Activations in Convolutional Network <https://arxiv.org/abs/1505.00853>`_.
|
118 |
+
|
119 |
+
The function is defined as:
|
120 |
+
|
121 |
+
.. math::
|
122 |
+
\text{RReLU}(x) =
|
123 |
+
\begin{cases}
|
124 |
+
x & \text{if } x \geq 0 \\
|
125 |
+
ax & \text{ otherwise }
|
126 |
+
\end{cases}
|
127 |
+
|
128 |
+
where :math:`a` is randomly sampled from uniform distribution
|
129 |
+
:math:`\mathcal{U}(\text{lower}, \text{upper})` during training while during
|
130 |
+
evaluation :math:`a` is fixed with :math:`a = \frac{\text{lower} + \text{upper}}{2}`.
|
131 |
+
|
132 |
+
Args:
|
133 |
+
lower: lower bound of the uniform distribution. Default: :math:`\frac{1}{8}`
|
134 |
+
upper: upper bound of the uniform distribution. Default: :math:`\frac{1}{3}`
|
135 |
+
inplace: can optionally do the operation in-place. Default: ``False``
|
136 |
+
|
137 |
+
Shape:
|
138 |
+
- Input: :math:`(*)`, where :math:`*` means any number of dimensions.
|
139 |
+
- Output: :math:`(*)`, same shape as the input.
|
140 |
+
|
141 |
+
.. image:: ../scripts/activation_images/RReLU.png
|
142 |
+
|
143 |
+
Examples::
|
144 |
+
|
145 |
+
>>> m = nn.RReLU(0.1, 0.3)
|
146 |
+
>>> input = torch.randn(2)
|
147 |
+
>>> output = m(input)
|
148 |
+
|
149 |
+
"""
|
150 |
+
|
151 |
+
__constants__ = ['lower', 'upper', 'inplace']
|
152 |
+
|
153 |
+
lower: float
|
154 |
+
upper: float
|
155 |
+
inplace: bool
|
156 |
+
|
157 |
+
def __init__(
|
158 |
+
self,
|
159 |
+
lower: float = 1. / 8,
|
160 |
+
upper: float = 1. / 3,
|
161 |
+
inplace: bool = False
|
162 |
+
):
|
163 |
+
super().__init__()
|
164 |
+
self.lower = lower
|
165 |
+
self.upper = upper
|
166 |
+
self.inplace = inplace
|
167 |
+
|
168 |
+
def forward(self, input: Tensor) -> Tensor:
|
169 |
+
return F.rrelu(input, self.lower, self.upper, self.training, self.inplace)
|
170 |
+
|
171 |
+
def extra_repr(self):
|
172 |
+
inplace_str = ', inplace=True' if self.inplace else ''
|
173 |
+
return f'lower={self.lower}, upper={self.upper}{inplace_str}'
|
174 |
+
|
175 |
+
|
176 |
+
|
177 |
+
[docs]class Hardtanh(Module):
|
178 |
+
r"""Applies the HardTanh function element-wise.
|
179 |
+
|
180 |
+
HardTanh is defined as:
|
181 |
+
|
182 |
+
.. math::
|
183 |
+
\text{HardTanh}(x) = \begin{cases}
|
184 |
+
\text{max\_val} & \text{ if } x > \text{ max\_val } \\
|
185 |
+
\text{min\_val} & \text{ if } x < \text{ min\_val } \\
|
186 |
+
x & \text{ otherwise } \\
|
187 |
+
\end{cases}
|
188 |
+
|
189 |
+
Args:
|
190 |
+
min_val: minimum value of the linear region range. Default: -1
|
191 |
+
max_val: maximum value of the linear region range. Default: 1
|
192 |
+
inplace: can optionally do the operation in-place. Default: ``False``
|
193 |
+
|
194 |
+
Keyword arguments :attr:`min_value` and :attr:`max_value`
|
195 |
+
have been deprecated in favor of :attr:`min_val` and :attr:`max_val`.
|
196 |
+
|
197 |
+
Shape:
|
198 |
+
- Input: :math:`(*)`, where :math:`*` means any number of dimensions.
|
199 |
+
- Output: :math:`(*)`, same shape as the input.
|
200 |
+
|
201 |
+
.. image:: ../scripts/activation_images/Hardtanh.png
|
202 |
+
|
203 |
+
Examples::
|
204 |
+
|
205 |
+
>>> m = nn.Hardtanh(-2, 2)
|
206 |
+
>>> input = torch.randn(2)
|
207 |
+
>>> output = m(input)
|
208 |
+
"""
|
209 |
+
|
210 |
+
__constants__ = ['min_val', 'max_val', 'inplace']
|
211 |
+
|
212 |
+
min_val: float
|
213 |
+
max_val: float
|
214 |
+
inplace: bool
|
215 |
+
|
216 |
+
def __init__(
|
217 |
+
self,
|
218 |
+
min_val: float = -1.,
|
219 |
+
max_val: float = 1.,
|
220 |
+
inplace: bool = False,
|
221 |
+
min_value: Optional[float] = None,
|
222 |
+
max_value: Optional[float] = None
|
223 |
+
) -> None:
|
224 |
+
super().__init__()
|
225 |
+
if min_value is not None:
|
226 |
+
warnings.warn(
|
227 |
+
"keyword argument `min_value` is deprecated and rename to `min_val`",
|
228 |
+
FutureWarning,
|
229 |
+
stacklevel=2,
|
230 |
+
)
|
231 |
+
min_val = min_value
|
232 |
+
if max_value is not None:
|
233 |
+
warnings.warn(
|
234 |
+
"keyword argument `max_value` is deprecated and rename to `max_val`",
|
235 |
+
FutureWarning,
|
236 |
+
stacklevel=2,
|
237 |
+
)
|
238 |
+
max_val = max_value
|
239 |
+
|
240 |
+
self.min_val = min_val
|
241 |
+
self.max_val = max_val
|
242 |
+
self.inplace = inplace
|
243 |
+
assert self.max_val > self.min_val
|
244 |
+
|
245 |
+
def forward(self, input: Tensor) -> Tensor:
|
246 |
+
return F.hardtanh(input, self.min_val, self.max_val, self.inplace)
|
247 |
+
|
248 |
+
def extra_repr(self) -> str:
|
249 |
+
inplace_str = ', inplace=True' if self.inplace else ''
|
250 |
+
return f'min_val={self.min_val}, max_val={self.max_val}{inplace_str}'
|
251 |
+
|
252 |
+
|
253 |
+
|
254 |
+
[docs]class ReLU6(Hardtanh):
|
255 |
+
r"""Applies the ReLU6 function element-wise.
|
256 |
+
|
257 |
+
.. math::
|
258 |
+
\text{ReLU6}(x) = \min(\max(0,x), 6)
|
259 |
+
|
260 |
+
Args:
|
261 |
+
inplace: can optionally do the operation in-place. Default: ``False``
|
262 |
+
|
263 |
+
Shape:
|
264 |
+
- Input: :math:`(*)`, where :math:`*` means any number of dimensions.
|
265 |
+
- Output: :math:`(*)`, same shape as the input.
|
266 |
+
|
267 |
+
.. image:: ../scripts/activation_images/ReLU6.png
|
268 |
+
|
269 |
+
Examples::
|
270 |
+
|
271 |
+
>>> m = nn.ReLU6()
|
272 |
+
>>> input = torch.randn(2)
|
273 |
+
>>> output = m(input)
|
274 |
+
"""
|
275 |
+
|
276 |
+
def __init__(self, inplace: bool = False):
|
277 |
+
super().__init__(0., 6., inplace)
|
278 |
+
|
279 |
+
def extra_repr(self) -> str:
|
280 |
+
inplace_str = 'inplace=True' if self.inplace else ''
|
281 |
+
return inplace_str
|
282 |
+
|
283 |
+
|
284 |
+
|
285 |
+
[docs]class Sigmoid(Module):
|
286 |
+
r"""Applies the Sigmoid function element-wise.
|
287 |
+
|
288 |
+
.. math::
|
289 |
+
\text{Sigmoid}(x) = \sigma(x) = \frac{1}{1 + \exp(-x)}
|
290 |
+
|
291 |
+
|
292 |
+
Shape:
|
293 |
+
- Input: :math:`(*)`, where :math:`*` means any number of dimensions.
|
294 |
+
- Output: :math:`(*)`, same shape as the input.
|
295 |
+
|
296 |
+
.. image:: ../scripts/activation_images/Sigmoid.png
|
297 |
+
|
298 |
+
Examples::
|
299 |
+
|
300 |
+
>>> m = nn.Sigmoid()
|
301 |
+
>>> input = torch.randn(2)
|
302 |
+
>>> output = m(input)
|
303 |
+
"""
|
304 |
+
|
305 |
+
def forward(self, input: Tensor) -> Tensor:
|
306 |
+
return torch.sigmoid(input)
|
307 |
+
|
308 |
+
|
309 |
+
|
310 |
+
[docs]class Hardsigmoid(Module):
|
311 |
+
r"""Applies the Hardsigmoid function element-wise.
|
312 |
+
|
313 |
+
Hardsigmoid is defined as:
|
314 |
+
|
315 |
+
.. math::
|
316 |
+
\text{Hardsigmoid}(x) = \begin{cases}
|
317 |
+
0 & \text{if~} x \le -3, \\
|
318 |
+
1 & \text{if~} x \ge +3, \\
|
319 |
+
x / 6 + 1 / 2 & \text{otherwise}
|
320 |
+
\end{cases}
|
321 |
+
|
322 |
+
Args:
|
323 |
+
inplace: can optionally do the operation in-place. Default: ``False``
|
324 |
+
|
325 |
+
Shape:
|
326 |
+
- Input: :math:`(*)`, where :math:`*` means any number of dimensions.
|
327 |
+
- Output: :math:`(*)`, same shape as the input.
|
328 |
+
|
329 |
+
.. image:: ../scripts/activation_images/Hardsigmoid.png
|
330 |
+
|
331 |
+
Examples::
|
332 |
+
|
333 |
+
>>> m = nn.Hardsigmoid()
|
334 |
+
>>> input = torch.randn(2)
|
335 |
+
>>> output = m(input)
|
336 |
+
"""
|
337 |
+
|
338 |
+
__constants__ = ['inplace']
|
339 |
+
|
340 |
+
inplace: bool
|
341 |
+
|
342 |
+
def __init__(self, inplace : bool = False) -> None:
|
343 |
+
super().__init__()
|
344 |
+
self.inplace = inplace
|
345 |
+
|
346 |
+
def forward(self, input: Tensor) -> Tensor:
|
347 |
+
return F.hardsigmoid(input, self.inplace)
|
348 |
+
|
349 |
+
|
350 |
+
|
351 |
+
[docs]class Tanh(Module):
|
352 |
+
r"""Applies the Hyperbolic Tangent (Tanh) function element-wise.
|
353 |
+
|
354 |
+
Tanh is defined as:
|
355 |
+
|
356 |
+
.. math::
|
357 |
+
\text{Tanh}(x) = \tanh(x) = \frac{\exp(x) - \exp(-x)} {\exp(x) + \exp(-x)}
|
358 |
+
|
359 |
+
Shape:
|
360 |
+
- Input: :math:`(*)`, where :math:`*` means any number of dimensions.
|
361 |
+
- Output: :math:`(*)`, same shape as the input.
|
362 |
+
|
363 |
+
.. image:: ../scripts/activation_images/Tanh.png
|
364 |
+
|
365 |
+
Examples::
|
366 |
+
|
367 |
+
>>> m = nn.Tanh()
|
368 |
+
>>> input = torch.randn(2)
|
369 |
+
>>> output = m(input)
|
370 |
+
"""
|
371 |
+
|
372 |
+
def forward(self, input: Tensor) -> Tensor:
|
373 |
+
return torch.tanh(input)
|
374 |
+
|
375 |
+
|
376 |
+
[docs]class SiLU(Module):
|
377 |
+
r"""Applies the Sigmoid Linear Unit (SiLU) function, element-wise.
|
378 |
+
|
379 |
+
The SiLU function is also known as the swish function.
|
380 |
+
|
381 |
+
.. math::
|
382 |
+
\text{silu}(x) = x * \sigma(x), \text{where } \sigma(x) \text{ is the logistic sigmoid.}
|
383 |
+
|
384 |
+
.. note::
|
385 |
+
See `Gaussian Error Linear Units (GELUs) <https://arxiv.org/abs/1606.08415>`_
|
386 |
+
where the SiLU (Sigmoid Linear Unit) was originally coined, and see
|
387 |
+
`Sigmoid-Weighted Linear Units for Neural Network Function Approximation
|
388 |
+
in Reinforcement Learning <https://arxiv.org/abs/1702.03118>`_ and `Swish:
|
389 |
+
a Self-Gated Activation Function <https://arxiv.org/abs/1710.05941v1>`_
|
390 |
+
where the SiLU was experimented with later.
|
391 |
+
|
392 |
+
Shape:
|
393 |
+
- Input: :math:`(*)`, where :math:`*` means any number of dimensions.
|
394 |
+
- Output: :math:`(*)`, same shape as the input.
|
395 |
+
|
396 |
+
.. image:: ../scripts/activation_images/SiLU.png
|
397 |
+
|
398 |
+
Examples::
|
399 |
+
|
400 |
+
>>> m = nn.SiLU()
|
401 |
+
>>> input = torch.randn(2)
|
402 |
+
>>> output = m(input)
|
403 |
+
"""
|
404 |
+
|
405 |
+
__constants__ = ['inplace']
|
406 |
+
inplace: bool
|
407 |
+
|
408 |
+
def __init__(self, inplace: bool = False):
|
409 |
+
super().__init__()
|
410 |
+
self.inplace = inplace
|
411 |
+
|
412 |
+
def forward(self, input: Tensor) -> Tensor:
|
413 |
+
return F.silu(input, inplace=self.inplace)
|
414 |
+
|
415 |
+
def extra_repr(self) -> str:
|
416 |
+
inplace_str = 'inplace=True' if self.inplace else ''
|
417 |
+
return inplace_str
|
418 |
+
|
419 |
+
|
420 |
+
[docs]class Mish(Module):
|
421 |
+
r"""Applies the Mish function, element-wise.
|
422 |
+
|
423 |
+
Mish: A Self Regularized Non-Monotonic Neural Activation Function.
|
424 |
+
|
425 |
+
.. math::
|
426 |
+
\text{Mish}(x) = x * \text{Tanh}(\text{Softplus}(x))
|
427 |
+
|
428 |
+
.. note::
|
429 |
+
See `Mish: A Self Regularized Non-Monotonic Neural Activation Function <https://arxiv.org/abs/1908.08681>`_
|
430 |
+
|
431 |
+
Shape:
|
432 |
+
- Input: :math:`(*)`, where :math:`*` means any number of dimensions.
|
433 |
+
- Output: :math:`(*)`, same shape as the input.
|
434 |
+
|
435 |
+
.. image:: ../scripts/activation_images/Mish.png
|
436 |
+
|
437 |
+
Examples::
|
438 |
+
|
439 |
+
>>> m = nn.Mish()
|
440 |
+
>>> input = torch.randn(2)
|
441 |
+
>>> output = m(input)
|
442 |
+
"""
|
443 |
+
|
444 |
+
__constants__ = ['inplace']
|
445 |
+
inplace: bool
|
446 |
+
|
447 |
+
def __init__(self, inplace: bool = False):
|
448 |
+
super().__init__()
|
449 |
+
self.inplace = inplace
|
450 |
+
|
451 |
+
def forward(self, input: Tensor) -> Tensor:
|
452 |
+
return F.mish(input, inplace=self.inplace)
|
453 |
+
|
454 |
+
def extra_repr(self) -> str:
|
455 |
+
inplace_str = 'inplace=True' if self.inplace else ''
|
456 |
+
return inplace_str
|
457 |
+
|
458 |
+
|
459 |
+
[docs]class Hardswish(Module):
|
460 |
+
r"""Applies the Hardswish function, element-wise.
|
461 |
+
|
462 |
+
Method described in the paper: `Searching for MobileNetV3 <https://arxiv.org/abs/1905.02244>`_.
|
463 |
+
|
464 |
+
Hardswish is defined as:
|
465 |
+
|
466 |
+
.. math::
|
467 |
+
\text{Hardswish}(x) = \begin{cases}
|
468 |
+
0 & \text{if~} x \le -3, \\
|
469 |
+
x & \text{if~} x \ge +3, \\
|
470 |
+
x \cdot (x + 3) /6 & \text{otherwise}
|
471 |
+
\end{cases}
|
472 |
+
|
473 |
+
Args:
|
474 |
+
inplace: can optionally do the operation in-place. Default: ``False``
|
475 |
+
|
476 |
+
Shape:
|
477 |
+
- Input: :math:`(*)`, where :math:`*` means any number of dimensions.
|
478 |
+
- Output: :math:`(*)`, same shape as the input.
|
479 |
+
|
480 |
+
.. image:: ../scripts/activation_images/Hardswish.png
|
481 |
+
|
482 |
+
Examples::
|
483 |
+
|
484 |
+
>>> m = nn.Hardswish()
|
485 |
+
>>> input = torch.randn(2)
|
486 |
+
>>> output = m(input)
|
487 |
+
"""
|
488 |
+
|
489 |
+
__constants__ = ['inplace']
|
490 |
+
|
491 |
+
inplace: bool
|
492 |
+
|
493 |
+
def __init__(self, inplace : bool = False) -> None:
|
494 |
+
super().__init__()
|
495 |
+
self.inplace = inplace
|
496 |
+
|
497 |
+
def forward(self, input: Tensor) -> Tensor:
|
498 |
+
return F.hardswish(input, self.inplace)
|
499 |
+
|
500 |
+
|
501 |
+
|
502 |
+
[docs]class ELU(Module):
|
503 |
+
r"""Applies the Exponential Linear Unit (ELU) function, element-wise.
|
504 |
+
|
505 |
+
Method described in the paper: `Fast and Accurate Deep Network Learning by Exponential Linear
|
506 |
+
Units (ELUs) <https://arxiv.org/abs/1511.07289>`__.
|
507 |
+
|
508 |
+
ELU is defined as:
|
509 |
+
|
510 |
+
.. math::
|
511 |
+
\text{ELU}(x) = \begin{cases}
|
512 |
+
x, & \text{ if } x > 0\\
|
513 |
+
\alpha * (\exp(x) - 1), & \text{ if } x \leq 0
|
514 |
+
\end{cases}
|
515 |
+
|
516 |
+
Args:
|
517 |
+
alpha: the :math:`\alpha` value for the ELU formulation. Default: 1.0
|
518 |
+
inplace: can optionally do the operation in-place. Default: ``False``
|
519 |
+
|
520 |
+
Shape:
|
521 |
+
- Input: :math:`(*)`, where :math:`*` means any number of dimensions.
|
522 |
+
- Output: :math:`(*)`, same shape as the input.
|
523 |
+
|
524 |
+
.. image:: ../scripts/activation_images/ELU.png
|
525 |
+
|
526 |
+
Examples::
|
527 |
+
|
528 |
+
>>> m = nn.ELU()
|
529 |
+
>>> input = torch.randn(2)
|
530 |
+
>>> output = m(input)
|
531 |
+
"""
|
532 |
+
|
533 |
+
__constants__ = ['alpha', 'inplace']
|
534 |
+
alpha: float
|
535 |
+
inplace: bool
|
536 |
+
|
537 |
+
def __init__(self, alpha: float = 1., inplace: bool = False) -> None:
|
538 |
+
super().__init__()
|
539 |
+
self.alpha = alpha
|
540 |
+
self.inplace = inplace
|
541 |
+
|
542 |
+
def forward(self, input: Tensor) -> Tensor:
|
543 |
+
return F.elu(input, self.alpha, self.inplace)
|
544 |
+
|
545 |
+
def extra_repr(self) -> str:
|
546 |
+
inplace_str = ', inplace=True' if self.inplace else ''
|
547 |
+
return f'alpha={self.alpha}{inplace_str}'
|
548 |
+
|
549 |
+
|
550 |
+
|
551 |
+
[docs]class CELU(Module):
|
552 |
+
r"""Applies the CELU function element-wise.
|
553 |
+
|
554 |
+
.. math::
|
555 |
+
\text{CELU}(x) = \max(0,x) + \min(0, \alpha * (\exp(x/\alpha) - 1))
|
556 |
+
|
557 |
+
More details can be found in the paper `Continuously Differentiable Exponential Linear Units`_ .
|
558 |
+
|
559 |
+
Args:
|
560 |
+
alpha: the :math:`\alpha` value for the CELU formulation. Default: 1.0
|
561 |
+
inplace: can optionally do the operation in-place. Default: ``False``
|
562 |
+
|
563 |
+
Shape:
|
564 |
+
- Input: :math:`(*)`, where :math:`*` means any number of dimensions.
|
565 |
+
- Output: :math:`(*)`, same shape as the input.
|
566 |
+
|
567 |
+
.. image:: ../scripts/activation_images/CELU.png
|
568 |
+
|
569 |
+
Examples::
|
570 |
+
|
571 |
+
>>> m = nn.CELU()
|
572 |
+
>>> input = torch.randn(2)
|
573 |
+
>>> output = m(input)
|
574 |
+
|
575 |
+
.. _`Continuously Differentiable Exponential Linear Units`:
|
576 |
+
https://arxiv.org/abs/1704.07483
|
577 |
+
"""
|
578 |
+
|
579 |
+
__constants__ = ['alpha', 'inplace']
|
580 |
+
alpha: float
|
581 |
+
inplace: bool
|
582 |
+
|
583 |
+
def __init__(self, alpha: float = 1., inplace: bool = False) -> None:
|
584 |
+
super().__init__()
|
585 |
+
self.alpha = alpha
|
586 |
+
self.inplace = inplace
|
587 |
+
|
588 |
+
def forward(self, input: Tensor) -> Tensor:
|
589 |
+
return F.celu(input, self.alpha, self.inplace)
|
590 |
+
|
591 |
+
def extra_repr(self) -> str:
|
592 |
+
inplace_str = ', inplace=True' if self.inplace else ''
|
593 |
+
return f'alpha={self.alpha}{inplace_str}'
|
594 |
+
|
595 |
+
|
596 |
+
|
597 |
+
[docs]class SELU(Module):
|
598 |
+
r"""Applies the SELU function element-wise.
|
599 |
+
|
600 |
+
.. math::
|
601 |
+
\text{SELU}(x) = \text{scale} * (\max(0,x) + \min(0, \alpha * (\exp(x) - 1)))
|
602 |
+
|
603 |
+
with :math:`\alpha = 1.6732632423543772848170429916717` and
|
604 |
+
:math:`\text{scale} = 1.0507009873554804934193349852946`.
|
605 |
+
|
606 |
+
.. warning::
|
607 |
+
When using ``kaiming_normal`` or ``kaiming_normal_`` for initialisation,
|
608 |
+
``nonlinearity='linear'`` should be used instead of ``nonlinearity='selu'``
|
609 |
+
in order to get `Self-Normalizing Neural Networks`_.
|
610 |
+
See :func:`torch.nn.init.calculate_gain` for more information.
|
611 |
+
|
612 |
+
More details can be found in the paper `Self-Normalizing Neural Networks`_ .
|
613 |
+
|
614 |
+
Args:
|
615 |
+
inplace (bool, optional): can optionally do the operation in-place. Default: ``False``
|
616 |
+
|
617 |
+
Shape:
|
618 |
+
- Input: :math:`(*)`, where :math:`*` means any number of dimensions.
|
619 |
+
- Output: :math:`(*)`, same shape as the input.
|
620 |
+
|
621 |
+
.. image:: ../scripts/activation_images/SELU.png
|
622 |
+
|
623 |
+
Examples::
|
624 |
+
|
625 |
+
>>> m = nn.SELU()
|
626 |
+
>>> input = torch.randn(2)
|
627 |
+
>>> output = m(input)
|
628 |
+
|
629 |
+
.. _Self-Normalizing Neural Networks: https://arxiv.org/abs/1706.02515
|
630 |
+
"""
|
631 |
+
|
632 |
+
__constants__ = ['inplace']
|
633 |
+
inplace: bool
|
634 |
+
|
635 |
+
def __init__(self, inplace: bool = False) -> None:
|
636 |
+
super().__init__()
|
637 |
+
self.inplace = inplace
|
638 |
+
|
639 |
+
def forward(self, input: Tensor) -> Tensor:
|
640 |
+
return F.selu(input, self.inplace)
|
641 |
+
|
642 |
+
def extra_repr(self) -> str:
|
643 |
+
inplace_str = 'inplace=True' if self.inplace else ''
|
644 |
+
return inplace_str
|
645 |
+
|
646 |
+
|
647 |
+
|
648 |
+
[docs]class GLU(Module):
|
649 |
+
r"""Applies the gated linear unit function.
|
650 |
+
|
651 |
+
:math:`{GLU}(a, b)= a \otimes \sigma(b)` where :math:`a` is the first half
|
652 |
+
of the input matrices and :math:`b` is the second half.
|
653 |
+
|
654 |
+
Args:
|
655 |
+
dim (int): the dimension on which to split the input. Default: -1
|
656 |
+
|
657 |
+
Shape:
|
658 |
+
- Input: :math:`(\ast_1, N, \ast_2)` where `*` means, any number of additional
|
659 |
+
dimensions
|
660 |
+
- Output: :math:`(\ast_1, M, \ast_2)` where :math:`M=N/2`
|
661 |
+
|
662 |
+
Examples::
|
663 |
+
|
664 |
+
>>> m = nn.GLU()
|
665 |
+
>>> input = torch.randn(4, 2)
|
666 |
+
>>> output = m(input)
|
667 |
+
"""
|
668 |
+
|
669 |
+
__constants__ = ['dim']
|
670 |
+
dim: int
|
671 |
+
|
672 |
+
def __init__(self, dim: int = -1) -> None:
|
673 |
+
super().__init__()
|
674 |
+
self.dim = dim
|
675 |
+
|
676 |
+
def forward(self, input: Tensor) -> Tensor:
|
677 |
+
return F.glu(input, self.dim)
|
678 |
+
|
679 |
+
def extra_repr(self) -> str:
|
680 |
+
return f'dim={self.dim}'
|
681 |
+
|
682 |
+
|
683 |
+
|
684 |
+
[docs]class GELU(Module):
|
685 |
+
r"""Applies the Gaussian Error Linear Units function.
|
686 |
+
|
687 |
+
.. math:: \text{GELU}(x) = x * \Phi(x)
|
688 |
+
|
689 |
+
where :math:`\Phi(x)` is the Cumulative Distribution Function for Gaussian Distribution.
|
690 |
+
|
691 |
+
When the approximate argument is 'tanh', Gelu is estimated with:
|
692 |
+
|
693 |
+
.. math:: \text{GELU}(x) = 0.5 * x * (1 + \text{Tanh}(\sqrt{2 / \pi} * (x + 0.044715 * x^3)))
|
694 |
+
|
695 |
+
Args:
|
696 |
+
approximate (str, optional): the gelu approximation algorithm to use:
|
697 |
+
``'none'`` | ``'tanh'``. Default: ``'none'``
|
698 |
+
|
699 |
+
Shape:
|
700 |
+
- Input: :math:`(*)`, where :math:`*` means any number of dimensions.
|
701 |
+
- Output: :math:`(*)`, same shape as the input.
|
702 |
+
|
703 |
+
.. image:: ../scripts/activation_images/GELU.png
|
704 |
+
|
705 |
+
Examples::
|
706 |
+
|
707 |
+
>>> m = nn.GELU()
|
708 |
+
>>> input = torch.randn(2)
|
709 |
+
>>> output = m(input)
|
710 |
+
"""
|
711 |
+
|
712 |
+
__constants__ = ['approximate']
|
713 |
+
approximate: str
|
714 |
+
|
715 |
+
def __init__(self, approximate: str = 'none') -> None:
|
716 |
+
super().__init__()
|
717 |
+
self.approximate = approximate
|
718 |
+
|
719 |
+
def forward(self, input: Tensor) -> Tensor:
|
720 |
+
return F.gelu(input, approximate=self.approximate)
|
721 |
+
|
722 |
+
def extra_repr(self) -> str:
|
723 |
+
return f'approximate={repr(self.approximate)}'
|
724 |
+
|
725 |
+
|
726 |
+
|
727 |
+
[docs]class Hardshrink(Module):
|
728 |
+
r"""Applies the Hard Shrinkage (Hardshrink) function element-wise.
|
729 |
+
|
730 |
+
Hardshrink is defined as:
|
731 |
+
|
732 |
+
.. math::
|
733 |
+
\text{HardShrink}(x) =
|
734 |
+
\begin{cases}
|
735 |
+
x, & \text{ if } x > \lambda \\
|
736 |
+
x, & \text{ if } x < -\lambda \\
|
737 |
+
0, & \text{ otherwise }
|
738 |
+
\end{cases}
|
739 |
+
|
740 |
+
Args:
|
741 |
+
lambd: the :math:`\lambda` value for the Hardshrink formulation. Default: 0.5
|
742 |
+
|
743 |
+
Shape:
|
744 |
+
- Input: :math:`(*)`, where :math:`*` means any number of dimensions.
|
745 |
+
- Output: :math:`(*)`, same shape as the input.
|
746 |
+
|
747 |
+
.. image:: ../scripts/activation_images/Hardshrink.png
|
748 |
+
|
749 |
+
Examples::
|
750 |
+
|
751 |
+
>>> m = nn.Hardshrink()
|
752 |
+
>>> input = torch.randn(2)
|
753 |
+
>>> output = m(input)
|
754 |
+
"""
|
755 |
+
|
756 |
+
__constants__ = ['lambd']
|
757 |
+
lambd: float
|
758 |
+
|
759 |
+
def __init__(self, lambd: float = 0.5) -> None:
|
760 |
+
super().__init__()
|
761 |
+
self.lambd = lambd
|
762 |
+
|
763 |
+
def forward(self, input: Tensor) -> Tensor:
|
764 |
+
return F.hardshrink(input, self.lambd)
|
765 |
+
|
766 |
+
def extra_repr(self) -> str:
|
767 |
+
return f'{self.lambd}'
|
768 |
+
|
769 |
+
|
770 |
+
|
771 |
+
[docs]class LeakyReLU(Module):
|
772 |
+
r"""Applies the LeakyReLU function element-wise.
|
773 |
+
|
774 |
+
.. math::
|
775 |
+
\text{LeakyReLU}(x) = \max(0, x) + \text{negative\_slope} * \min(0, x)
|
776 |
+
|
777 |
+
|
778 |
+
or
|
779 |
+
|
780 |
+
.. math::
|
781 |
+
\text{LeakyReLU}(x) =
|
782 |
+
\begin{cases}
|
783 |
+
x, & \text{ if } x \geq 0 \\
|
784 |
+
\text{negative\_slope} \times x, & \text{ otherwise }
|
785 |
+
\end{cases}
|
786 |
+
|
787 |
+
Args:
|
788 |
+
negative_slope: Controls the angle of the negative slope (which is used for
|
789 |
+
negative input values). Default: 1e-2
|
790 |
+
inplace: can optionally do the operation in-place. Default: ``False``
|
791 |
+
|
792 |
+
Shape:
|
793 |
+
- Input: :math:`(*)` where `*` means, any number of additional
|
794 |
+
dimensions
|
795 |
+
- Output: :math:`(*)`, same shape as the input
|
796 |
+
|
797 |
+
.. image:: ../scripts/activation_images/LeakyReLU.png
|
798 |
+
|
799 |
+
Examples::
|
800 |
+
|
801 |
+
>>> m = nn.LeakyReLU(0.1)
|
802 |
+
>>> input = torch.randn(2)
|
803 |
+
>>> output = m(input)
|
804 |
+
"""
|
805 |
+
|
806 |
+
__constants__ = ['inplace', 'negative_slope']
|
807 |
+
inplace: bool
|
808 |
+
negative_slope: float
|
809 |
+
|
810 |
+
def __init__(self, negative_slope: float = 1e-2, inplace: bool = False) -> None:
|
811 |
+
super().__init__()
|
812 |
+
self.negative_slope = negative_slope
|
813 |
+
self.inplace = inplace
|
814 |
+
|
815 |
+
def forward(self, input: Tensor) -> Tensor:
|
816 |
+
return F.leaky_relu(input, self.negative_slope, self.inplace)
|
817 |
+
|
818 |
+
def extra_repr(self) -> str:
|
819 |
+
inplace_str = ', inplace=True' if self.inplace else ''
|
820 |
+
return f'negative_slope={self.negative_slope}{inplace_str}'
|
821 |
+
|
822 |
+
|
823 |
+
|
824 |
+
[docs]class LogSigmoid(Module):
|
825 |
+
r"""Applies the Logsigmoid function element-wise.
|
826 |
+
|
827 |
+
.. math::
|
828 |
+
\text{LogSigmoid}(x) = \log\left(\frac{ 1 }{ 1 + \exp(-x)}\right)
|
829 |
+
|
830 |
+
Shape:
|
831 |
+
- Input: :math:`(*)`, where :math:`*` means any number of dimensions.
|
832 |
+
- Output: :math:`(*)`, same shape as the input.
|
833 |
+
|
834 |
+
.. image:: ../scripts/activation_images/LogSigmoid.png
|
835 |
+
|
836 |
+
Examples::
|
837 |
+
|
838 |
+
>>> m = nn.LogSigmoid()
|
839 |
+
>>> input = torch.randn(2)
|
840 |
+
>>> output = m(input)
|
841 |
+
"""
|
842 |
+
|
843 |
+
def forward(self, input: Tensor) -> Tensor:
|
844 |
+
return F.logsigmoid(input)
|
845 |
+
|
846 |
+
|
847 |
+
|
848 |
+
[docs]class Softplus(Module):
|
849 |
+
r"""Applies the Softplus function element-wise.
|
850 |
+
|
851 |
+
.. math::
|
852 |
+
\text{Softplus}(x) = \frac{1}{\beta} * \log(1 + \exp(\beta * x))
|
853 |
+
|
854 |
+
SoftPlus is a smooth approximation to the ReLU function and can be used
|
855 |
+
to constrain the output of a machine to always be positive.
|
856 |
+
|
857 |
+
For numerical stability the implementation reverts to the linear function
|
858 |
+
when :math:`input \times \beta > threshold`.
|
859 |
+
|
860 |
+
Args:
|
861 |
+
beta: the :math:`\beta` value for the Softplus formulation. Default: 1
|
862 |
+
threshold: values above this revert to a linear function. Default: 20
|
863 |
+
|
864 |
+
Shape:
|
865 |
+
- Input: :math:`(*)`, where :math:`*` means any number of dimensions.
|
866 |
+
- Output: :math:`(*)`, same shape as the input.
|
867 |
+
|
868 |
+
.. image:: ../scripts/activation_images/Softplus.png
|
869 |
+
|
870 |
+
Examples::
|
871 |
+
|
872 |
+
>>> m = nn.Softplus()
|
873 |
+
>>> input = torch.randn(2)
|
874 |
+
>>> output = m(input)
|
875 |
+
"""
|
876 |
+
|
877 |
+
__constants__ = ['beta', 'threshold']
|
878 |
+
beta: float
|
879 |
+
threshold: float
|
880 |
+
|
881 |
+
def __init__(self, beta: float = 1.0, threshold: float = 20.0) -> None:
|
882 |
+
super().__init__()
|
883 |
+
self.beta = beta
|
884 |
+
self.threshold = threshold
|
885 |
+
|
886 |
+
def forward(self, input: Tensor) -> Tensor:
|
887 |
+
return F.softplus(input, self.beta, self.threshold)
|
888 |
+
|
889 |
+
def extra_repr(self) -> str:
|
890 |
+
return f'beta={self.beta}, threshold={self.threshold}'
|
891 |
+
|
892 |
+
|
893 |
+
|
894 |
+
[docs]class Softshrink(Module):
|
895 |
+
r"""Applies the soft shrinkage function element-wise.
|
896 |
+
|
897 |
+
.. math::
|
898 |
+
\text{SoftShrinkage}(x) =
|
899 |
+
\begin{cases}
|
900 |
+
x - \lambda, & \text{ if } x > \lambda \\
|
901 |
+
x + \lambda, & \text{ if } x < -\lambda \\
|
902 |
+
0, & \text{ otherwise }
|
903 |
+
\end{cases}
|
904 |
+
|
905 |
+
Args:
|
906 |
+
lambd: the :math:`\lambda` (must be no less than zero) value for the Softshrink formulation. Default: 0.5
|
907 |
+
|
908 |
+
Shape:
|
909 |
+
- Input: :math:`(*)`, where :math:`*` means any number of dimensions.
|
910 |
+
- Output: :math:`(*)`, same shape as the input.
|
911 |
+
|
912 |
+
.. image:: ../scripts/activation_images/Softshrink.png
|
913 |
+
|
914 |
+
Examples::
|
915 |
+
|
916 |
+
>>> m = nn.Softshrink()
|
917 |
+
>>> input = torch.randn(2)
|
918 |
+
>>> output = m(input)
|
919 |
+
"""
|
920 |
+
|
921 |
+
__constants__ = ['lambd']
|
922 |
+
lambd: float
|
923 |
+
|
924 |
+
def __init__(self, lambd: float = 0.5) -> None:
|
925 |
+
super().__init__()
|
926 |
+
self.lambd = lambd
|
927 |
+
|
928 |
+
def forward(self, input: Tensor) -> Tensor:
|
929 |
+
return F.softshrink(input, self.lambd)
|
930 |
+
|
931 |
+
def extra_repr(self) -> str:
|
932 |
+
return str(self.lambd)
|
933 |
+
|
934 |
+
|
935 |
+
|
936 |
+
def _check_arg_device(x: Optional[torch.Tensor]) -> bool:
|
937 |
+
if x is not None:
|
938 |
+
return x.device.type in ["cpu", "cuda", torch.utils.backend_registration._privateuse1_backend_name]
|
939 |
+
return True
|
940 |
+
|
941 |
+
|
942 |
+
def _arg_requires_grad(x: Optional[torch.Tensor]) -> bool:
|
943 |
+
if x is not None:
|
944 |
+
return x.requires_grad
|
945 |
+
return False
|
946 |
+
|
947 |
+
|
948 |
+
def _is_make_fx_tracing():
|
949 |
+
if not torch.jit.is_scripting():
|
950 |
+
torch_dispatch_mode_stack = torch.utils._python_dispatch._get_current_dispatch_mode_stack()
|
951 |
+
return any(type(x) == torch.fx.experimental.proxy_tensor.ProxyTorchDispatchMode for x in torch_dispatch_mode_stack)
|
952 |
+
else:
|
953 |
+
return False
|
954 |
+
|
955 |
+
|
956 |
+
[docs]class MultiheadAttention(Module):
|
957 |
+
r"""Allows the model to jointly attend to information from different representation subspaces.
|
958 |
+
|
959 |
+
Method described in the paper:
|
960 |
+
`Attention Is All You Need <https://arxiv.org/abs/1706.03762>`_.
|
961 |
+
|
962 |
+
Multi-Head Attention is defined as:
|
963 |
+
|
964 |
+
.. math::
|
965 |
+
\text{MultiHead}(Q, K, V) = \text{Concat}(head_1,\dots,head_h)W^O
|
966 |
+
|
967 |
+
where :math:`head_i = \text{Attention}(QW_i^Q, KW_i^K, VW_i^V)`.
|
968 |
+
|
969 |
+
``nn.MultiHeadAttention`` will use the optimized implementations of
|
970 |
+
``scaled_dot_product_attention()`` when possible.
|
971 |
+
|
972 |
+
In addition to support for the new ``scaled_dot_product_attention()``
|
973 |
+
function, for speeding up Inference, MHA will use
|
974 |
+
fastpath inference with support for Nested Tensors, iff:
|
975 |
+
|
976 |
+
- self attention is being computed (i.e., ``query``, ``key``, and ``value`` are the same tensor).
|
977 |
+
- inputs are batched (3D) with ``batch_first==True``
|
978 |
+
- Either autograd is disabled (using ``torch.inference_mode`` or ``torch.no_grad``) or no tensor argument ``requires_grad``
|
979 |
+
- training is disabled (using ``.eval()``)
|
980 |
+
- ``add_bias_kv`` is ``False``
|
981 |
+
- ``add_zero_attn`` is ``False``
|
982 |
+
- ``kdim`` and ``vdim`` are equal to ``embed_dim``
|
983 |
+
- if a `NestedTensor <https://pytorch.org/docs/stable/nested.html>`_ is passed, neither ``key_padding_mask``
|
984 |
+
nor ``attn_mask`` is passed
|
985 |
+
- autocast is disabled
|
986 |
+
|
987 |
+
If the optimized inference fastpath implementation is in use, a
|
988 |
+
`NestedTensor <https://pytorch.org/docs/stable/nested.html>`_ can be passed for
|
989 |
+
``query``/``key``/``value`` to represent padding more efficiently than using a
|
990 |
+
padding mask. In this case, a `NestedTensor <https://pytorch.org/docs/stable/nested.html>`_
|
991 |
+
will be returned, and an additional speedup proportional to the fraction of the input
|
992 |
+
that is padding can be expected.
|
993 |
+
|
994 |
+
Args:
|
995 |
+
embed_dim: Total dimension of the model.
|
996 |
+
num_heads: Number of parallel attention heads. Note that ``embed_dim`` will be split
|
997 |
+
across ``num_heads`` (i.e. each head will have dimension ``embed_dim // num_heads``).
|
998 |
+
dropout: Dropout probability on ``attn_output_weights``. Default: ``0.0`` (no dropout).
|
999 |
+
bias: If specified, adds bias to input / output projection layers. Default: ``True``.
|
1000 |
+
add_bias_kv: If specified, adds bias to the key and value sequences at dim=0. Default: ``False``.
|
1001 |
+
add_zero_attn: If specified, adds a new batch of zeros to the key and value sequences at dim=1.
|
1002 |
+
Default: ``False``.
|
1003 |
+
kdim: Total number of features for keys. Default: ``None`` (uses ``kdim=embed_dim``).
|
1004 |
+
vdim: Total number of features for values. Default: ``None`` (uses ``vdim=embed_dim``).
|
1005 |
+
batch_first: If ``True``, then the input and output tensors are provided
|
1006 |
+
as (batch, seq, feature). Default: ``False`` (seq, batch, feature).
|
1007 |
+
|
1008 |
+
Examples::
|
1009 |
+
|
1010 |
+
>>> # xdoctest: +SKIP
|
1011 |
+
>>> multihead_attn = nn.MultiheadAttention(embed_dim, num_heads)
|
1012 |
+
>>> attn_output, attn_output_weights = multihead_attn(query, key, value)
|
1013 |
+
|
1014 |
+
.. _`FlashAttention: Fast and Memory-Efficient Exact Attention with IO-Awareness`:
|
1015 |
+
https://arxiv.org/abs/2205.14135
|
1016 |
+
|
1017 |
+
"""
|
1018 |
+
|
1019 |
+
__constants__ = ['batch_first']
|
1020 |
+
bias_k: Optional[torch.Tensor]
|
1021 |
+
bias_v: Optional[torch.Tensor]
|
1022 |
+
|
1023 |
+
def __init__(self, embed_dim, num_heads, dropout=0., bias=True, add_bias_kv=False, add_zero_attn=False,
|
1024 |
+
kdim=None, vdim=None, batch_first=False, device=None, dtype=None) -> None:
|
1025 |
+
if embed_dim <= 0 or num_heads <= 0:
|
1026 |
+
raise ValueError(
|
1027 |
+
f"embed_dim and num_heads must be greater than 0,"
|
1028 |
+
f" got embed_dim={embed_dim} and num_heads={num_heads} instead"
|
1029 |
+
)
|
1030 |
+
factory_kwargs = {'device': device, 'dtype': dtype}
|
1031 |
+
super().__init__()
|
1032 |
+
self.embed_dim = embed_dim
|
1033 |
+
self.kdim = kdim if kdim is not None else embed_dim
|
1034 |
+
self.vdim = vdim if vdim is not None else embed_dim
|
1035 |
+
self._qkv_same_embed_dim = self.kdim == embed_dim and self.vdim == embed_dim
|
1036 |
+
|
1037 |
+
self.num_heads = num_heads
|
1038 |
+
self.dropout = dropout
|
1039 |
+
self.batch_first = batch_first
|
1040 |
+
self.head_dim = embed_dim // num_heads
|
1041 |
+
assert self.head_dim * num_heads == self.embed_dim, "embed_dim must be divisible by num_heads"
|
1042 |
+
|
1043 |
+
if not self._qkv_same_embed_dim:
|
1044 |
+
self.q_proj_weight = Parameter(torch.empty((embed_dim, embed_dim), **factory_kwargs))
|
1045 |
+
self.k_proj_weight = Parameter(torch.empty((embed_dim, self.kdim), **factory_kwargs))
|
1046 |
+
self.v_proj_weight = Parameter(torch.empty((embed_dim, self.vdim), **factory_kwargs))
|
1047 |
+
self.register_parameter('in_proj_weight', None)
|
1048 |
+
else:
|
1049 |
+
self.in_proj_weight = Parameter(torch.empty((3 * embed_dim, embed_dim), **factory_kwargs))
|
1050 |
+
self.register_parameter('q_proj_weight', None)
|
1051 |
+
self.register_parameter('k_proj_weight', None)
|
1052 |
+
self.register_parameter('v_proj_weight', None)
|
1053 |
+
|
1054 |
+
if bias:
|
1055 |
+
self.in_proj_bias = Parameter(torch.empty(3 * embed_dim, **factory_kwargs))
|
1056 |
+
else:
|
1057 |
+
self.register_parameter('in_proj_bias', None)
|
1058 |
+
self.out_proj = NonDynamicallyQuantizableLinear(embed_dim, embed_dim, bias=bias, **factory_kwargs)
|
1059 |
+
|
1060 |
+
if add_bias_kv:
|
1061 |
+
self.bias_k = Parameter(torch.empty((1, 1, embed_dim), **factory_kwargs))
|
1062 |
+
self.bias_v = Parameter(torch.empty((1, 1, embed_dim), **factory_kwargs))
|
1063 |
+
else:
|
1064 |
+
self.bias_k = self.bias_v = None
|
1065 |
+
|
1066 |
+
self.add_zero_attn = add_zero_attn
|
1067 |
+
|
1068 |
+
self._reset_parameters()
|
1069 |
+
|
1070 |
+
def _reset_parameters(self):
|
1071 |
+
if self._qkv_same_embed_dim:
|
1072 |
+
xavier_uniform_(self.in_proj_weight)
|
1073 |
+
else:
|
1074 |
+
xavier_uniform_(self.q_proj_weight)
|
1075 |
+
xavier_uniform_(self.k_proj_weight)
|
1076 |
+
xavier_uniform_(self.v_proj_weight)
|
1077 |
+
|
1078 |
+
if self.in_proj_bias is not None:
|
1079 |
+
constant_(self.in_proj_bias, 0.)
|
1080 |
+
constant_(self.out_proj.bias, 0.)
|
1081 |
+
if self.bias_k is not None:
|
1082 |
+
xavier_normal_(self.bias_k)
|
1083 |
+
if self.bias_v is not None:
|
1084 |
+
xavier_normal_(self.bias_v)
|
1085 |
+
|
1086 |
+
def __setstate__(self, state):
|
1087 |
+
# Support loading old MultiheadAttention checkpoints generated by v1.1.0
|
1088 |
+
if '_qkv_same_embed_dim' not in state:
|
1089 |
+
state['_qkv_same_embed_dim'] = True
|
1090 |
+
|
1091 |
+
super().__setstate__(state)
|
1092 |
+
|
1093 |
+
[docs] def forward(
|
1094 |
+
self,
|
1095 |
+
query: Tensor,
|
1096 |
+
key: Tensor,
|
1097 |
+
value: Tensor,
|
1098 |
+
key_padding_mask: Optional[Tensor] = None,
|
1099 |
+
need_weights: bool = True,
|
1100 |
+
attn_mask: Optional[Tensor] = None,
|
1101 |
+
average_attn_weights: bool = True,
|
1102 |
+
is_causal : bool = False) -> Tuple[Tensor, Optional[Tensor]]:
|
1103 |
+
r"""Compute attention outputs using query, key, and value embeddings.
|
1104 |
+
|
1105 |
+
Supports optional parameters for padding, masks and attention weights.
|
1106 |
+
|
1107 |
+
Args:
|
1108 |
+
query: Query embeddings of shape :math:`(L, E_q)` for unbatched input, :math:`(L, N, E_q)` when ``batch_first=False``
|
1109 |
+
or :math:`(N, L, E_q)` when ``batch_first=True``, where :math:`L` is the target sequence length,
|
1110 |
+
:math:`N` is the batch size, and :math:`E_q` is the query embedding dimension ``embed_dim``.
|
1111 |
+
Queries are compared against key-value pairs to produce the output.
|
1112 |
+
See "Attention Is All You Need" for more details.
|
1113 |
+
key: Key embeddings of shape :math:`(S, E_k)` for unbatched input, :math:`(S, N, E_k)` when ``batch_first=False``
|
1114 |
+
or :math:`(N, S, E_k)` when ``batch_first=True``, where :math:`S` is the source sequence length,
|
1115 |
+
:math:`N` is the batch size, and :math:`E_k` is the key embedding dimension ``kdim``.
|
1116 |
+
See "Attention Is All You Need" for more details.
|
1117 |
+
value: Value embeddings of shape :math:`(S, E_v)` for unbatched input, :math:`(S, N, E_v)` when
|
1118 |
+
``batch_first=False`` or :math:`(N, S, E_v)` when ``batch_first=True``, where :math:`S` is the source
|
1119 |
+
sequence length, :math:`N` is the batch size, and :math:`E_v` is the value embedding dimension ``vdim``.
|
1120 |
+
See "Attention Is All You Need" for more details.
|
1121 |
+
key_padding_mask: If specified, a mask of shape :math:`(N, S)` indicating which elements within ``key``
|
1122 |
+
to ignore for the purpose of attention (i.e. treat as "padding"). For unbatched `query`, shape should be :math:`(S)`.
|
1123 |
+
Binary and float masks are supported.
|
1124 |
+
For a binary mask, a ``True`` value indicates that the corresponding ``key`` value will be ignored for
|
1125 |
+
the purpose of attention. For a float mask, it will be directly added to the corresponding ``key`` value.
|
1126 |
+
need_weights: If specified, returns ``attn_output_weights`` in addition to ``attn_outputs``.
|
1127 |
+
Set ``need_weights=False`` to use the optimized ``scaled_dot_product_attention``
|
1128 |
+
and achieve the best performance for MHA.
|
1129 |
+
Default: ``True``.
|
1130 |
+
attn_mask: If specified, a 2D or 3D mask preventing attention to certain positions. Must be of shape
|
1131 |
+
:math:`(L, S)` or :math:`(N\cdot\text{num\_heads}, L, S)`, where :math:`N` is the batch size,
|
1132 |
+
:math:`L` is the target sequence length, and :math:`S` is the source sequence length. A 2D mask will be
|
1133 |
+
broadcasted across the batch while a 3D mask allows for a different mask for each entry in the batch.
|
1134 |
+
Binary and float masks are supported. For a binary mask, a ``True`` value indicates that the
|
1135 |
+
corresponding position is not allowed to attend. For a float mask, the mask values will be added to
|
1136 |
+
the attention weight.
|
1137 |
+
If both attn_mask and key_padding_mask are supplied, their types should match.
|
1138 |
+
average_attn_weights: If true, indicates that the returned ``attn_weights`` should be averaged across
|
1139 |
+
heads. Otherwise, ``attn_weights`` are provided separately per head. Note that this flag only has an
|
1140 |
+
effect when ``need_weights=True``. Default: ``True`` (i.e. average weights across heads)
|
1141 |
+
is_causal: If specified, applies a causal mask as attention mask.
|
1142 |
+
Default: ``False``.
|
1143 |
+
Warning:
|
1144 |
+
``is_causal`` provides a hint that ``attn_mask`` is the
|
1145 |
+
causal mask. Providing incorrect hints can result in
|
1146 |
+
incorrect execution, including forward and backward
|
1147 |
+
compatibility.
|
1148 |
+
|
1149 |
+
Outputs:
|
1150 |
+
- **attn_output** - Attention outputs of shape :math:`(L, E)` when input is unbatched,
|
1151 |
+
:math:`(L, N, E)` when ``batch_first=False`` or :math:`(N, L, E)` when ``batch_first=True``,
|
1152 |
+
where :math:`L` is the target sequence length, :math:`N` is the batch size, and :math:`E` is the
|
1153 |
+
embedding dimension ``embed_dim``.
|
1154 |
+
- **attn_output_weights** - Only returned when ``need_weights=True``. If ``average_attn_weights=True``,
|
1155 |
+
returns attention weights averaged across heads of shape :math:`(L, S)` when input is unbatched or
|
1156 |
+
:math:`(N, L, S)`, where :math:`N` is the batch size, :math:`L` is the target sequence length, and
|
1157 |
+
:math:`S` is the source sequence length. If ``average_attn_weights=False``, returns attention weights per
|
1158 |
+
head of shape :math:`(\text{num\_heads}, L, S)` when input is unbatched or :math:`(N, \text{num\_heads}, L, S)`.
|
1159 |
+
|
1160 |
+
.. note::
|
1161 |
+
`batch_first` argument is ignored for unbatched inputs.
|
1162 |
+
"""
|
1163 |
+
why_not_fast_path = ''
|
1164 |
+
if ((attn_mask is not None and torch.is_floating_point(attn_mask))
|
1165 |
+
or (key_padding_mask is not None) and torch.is_floating_point(key_padding_mask)):
|
1166 |
+
why_not_fast_path = "floating-point masks are not supported for fast path."
|
1167 |
+
|
1168 |
+
is_batched = query.dim() == 3
|
1169 |
+
|
1170 |
+
key_padding_mask = F._canonical_mask(
|
1171 |
+
mask=key_padding_mask,
|
1172 |
+
mask_name="key_padding_mask",
|
1173 |
+
other_type=F._none_or_dtype(attn_mask),
|
1174 |
+
other_name="attn_mask",
|
1175 |
+
target_type=query.dtype
|
1176 |
+
)
|
1177 |
+
|
1178 |
+
attn_mask = F._canonical_mask(
|
1179 |
+
mask=attn_mask,
|
1180 |
+
mask_name="attn_mask",
|
1181 |
+
other_type=None,
|
1182 |
+
other_name="",
|
1183 |
+
target_type=query.dtype,
|
1184 |
+
check_other=False,
|
1185 |
+
)
|
1186 |
+
|
1187 |
+
is_fastpath_enabled = torch.backends.mha.get_fastpath_enabled()
|
1188 |
+
|
1189 |
+
if not is_fastpath_enabled:
|
1190 |
+
why_not_fast_path = "torch.backends.mha.get_fastpath_enabled() was not True"
|
1191 |
+
elif not is_batched:
|
1192 |
+
why_not_fast_path = f"input not batched; expected query.dim() of 3 but got {query.dim()}"
|
1193 |
+
elif query is not key or key is not value:
|
1194 |
+
# When lifting this restriction, don't forget to either
|
1195 |
+
# enforce that the dtypes all match or test cases where
|
1196 |
+
# they don't!
|
1197 |
+
why_not_fast_path = "non-self attention was used (query, key, and value are not the same Tensor)"
|
1198 |
+
elif self.in_proj_bias is not None and query.dtype != self.in_proj_bias.dtype:
|
1199 |
+
why_not_fast_path = f"dtypes of query ({query.dtype}) and self.in_proj_bias ({self.in_proj_bias.dtype}) don't match"
|
1200 |
+
elif self.in_proj_weight is None:
|
1201 |
+
why_not_fast_path = "in_proj_weight was None"
|
1202 |
+
elif query.dtype != self.in_proj_weight.dtype:
|
1203 |
+
# this case will fail anyway, but at least they'll get a useful error message.
|
1204 |
+
why_not_fast_path = f"dtypes of query ({query.dtype}) and self.in_proj_weight ({self.in_proj_weight.dtype}) don't match"
|
1205 |
+
elif self.training:
|
1206 |
+
why_not_fast_path = "training is enabled"
|
1207 |
+
elif (self.num_heads % 2) != 0:
|
1208 |
+
why_not_fast_path = "self.num_heads is not even"
|
1209 |
+
elif not self.batch_first:
|
1210 |
+
why_not_fast_path = "batch_first was not True"
|
1211 |
+
elif self.bias_k is not None:
|
1212 |
+
why_not_fast_path = "self.bias_k was not None"
|
1213 |
+
elif self.bias_v is not None:
|
1214 |
+
why_not_fast_path = "self.bias_v was not None"
|
1215 |
+
elif self.add_zero_attn:
|
1216 |
+
why_not_fast_path = "add_zero_attn was enabled"
|
1217 |
+
elif not self._qkv_same_embed_dim:
|
1218 |
+
why_not_fast_path = "_qkv_same_embed_dim was not True"
|
1219 |
+
elif query.is_nested and (key_padding_mask is not None or attn_mask is not None):
|
1220 |
+
why_not_fast_path = "supplying both src_key_padding_mask and src_mask at the same time \
|
1221 |
+
is not supported with NestedTensor input"
|
1222 |
+
elif torch.is_autocast_enabled():
|
1223 |
+
why_not_fast_path = "autocast is enabled"
|
1224 |
+
|
1225 |
+
if not why_not_fast_path:
|
1226 |
+
tensor_args = (
|
1227 |
+
query,
|
1228 |
+
key,
|
1229 |
+
value,
|
1230 |
+
self.in_proj_weight,
|
1231 |
+
self.in_proj_bias,
|
1232 |
+
self.out_proj.weight,
|
1233 |
+
self.out_proj.bias,
|
1234 |
+
)
|
1235 |
+
# We have to use list comprehensions below because TorchScript does not support
|
1236 |
+
# generator expressions.
|
1237 |
+
if torch.overrides.has_torch_function(tensor_args):
|
1238 |
+
why_not_fast_path = "some Tensor argument has_torch_function"
|
1239 |
+
elif _is_make_fx_tracing():
|
1240 |
+
why_not_fast_path = "we are running make_fx tracing"
|
1241 |
+
elif not all(_check_arg_device(x) for x in tensor_args):
|
1242 |
+
why_not_fast_path = ("some Tensor argument's device is neither one of "
|
1243 |
+
f"cpu, cuda or {torch.utils.backend_registration._privateuse1_backend_name}")
|
1244 |
+
elif torch.is_grad_enabled() and any(_arg_requires_grad(x) for x in tensor_args):
|
1245 |
+
why_not_fast_path = ("grad is enabled and at least one of query or the "
|
1246 |
+
"input/output projection weights or biases requires_grad")
|
1247 |
+
if not why_not_fast_path:
|
1248 |
+
merged_mask, mask_type = self.merge_masks(attn_mask, key_padding_mask, query)
|
1249 |
+
|
1250 |
+
if self.in_proj_bias is not None and self.in_proj_weight is not None:
|
1251 |
+
return torch._native_multi_head_attention(
|
1252 |
+
query,
|
1253 |
+
key,
|
1254 |
+
value,
|
1255 |
+
self.embed_dim,
|
1256 |
+
self.num_heads,
|
1257 |
+
self.in_proj_weight,
|
1258 |
+
self.in_proj_bias,
|
1259 |
+
self.out_proj.weight,
|
1260 |
+
self.out_proj.bias,
|
1261 |
+
merged_mask,
|
1262 |
+
need_weights,
|
1263 |
+
average_attn_weights,
|
1264 |
+
mask_type)
|
1265 |
+
|
1266 |
+
any_nested = query.is_nested or key.is_nested or value.is_nested
|
1267 |
+
assert not any_nested, ("MultiheadAttention does not support NestedTensor outside of its fast path. " +
|
1268 |
+
f"The fast path was not hit because {why_not_fast_path}")
|
1269 |
+
|
1270 |
+
if self.batch_first and is_batched:
|
1271 |
+
# make sure that the transpose op does not affect the "is" property
|
1272 |
+
if key is value:
|
1273 |
+
if query is key:
|
1274 |
+
query = key = value = query.transpose(1, 0)
|
1275 |
+
else:
|
1276 |
+
query, key = (x.transpose(1, 0) for x in (query, key))
|
1277 |
+
value = key
|
1278 |
+
else:
|
1279 |
+
query, key, value = (x.transpose(1, 0) for x in (query, key, value))
|
1280 |
+
|
1281 |
+
if not self._qkv_same_embed_dim:
|
1282 |
+
attn_output, attn_output_weights = F.multi_head_attention_forward(
|
1283 |
+
query, key, value, self.embed_dim, self.num_heads,
|
1284 |
+
self.in_proj_weight, self.in_proj_bias,
|
1285 |
+
self.bias_k, self.bias_v, self.add_zero_attn,
|
1286 |
+
self.dropout, self.out_proj.weight, self.out_proj.bias,
|
1287 |
+
training=self.training,
|
1288 |
+
key_padding_mask=key_padding_mask, need_weights=need_weights,
|
1289 |
+
attn_mask=attn_mask,
|
1290 |
+
use_separate_proj_weight=True,
|
1291 |
+
q_proj_weight=self.q_proj_weight, k_proj_weight=self.k_proj_weight,
|
1292 |
+
v_proj_weight=self.v_proj_weight,
|
1293 |
+
average_attn_weights=average_attn_weights,
|
1294 |
+
is_causal=is_causal)
|
1295 |
+
else:
|
1296 |
+
attn_output, attn_output_weights = F.multi_head_attention_forward(
|
1297 |
+
query, key, value, self.embed_dim, self.num_heads,
|
1298 |
+
self.in_proj_weight, self.in_proj_bias,
|
1299 |
+
self.bias_k, self.bias_v, self.add_zero_attn,
|
1300 |
+
self.dropout, self.out_proj.weight, self.out_proj.bias,
|
1301 |
+
training=self.training,
|
1302 |
+
key_padding_mask=key_padding_mask,
|
1303 |
+
need_weights=need_weights,
|
1304 |
+
attn_mask=attn_mask,
|
1305 |
+
average_attn_weights=average_attn_weights,
|
1306 |
+
is_causal=is_causal)
|
1307 |
+
if self.batch_first and is_batched:
|
1308 |
+
return attn_output.transpose(1, 0), attn_output_weights
|
1309 |
+
else:
|
1310 |
+
return attn_output, attn_output_weights
|
1311 |
+
|
1312 |
+
|
1313 |
+
[docs] def merge_masks(self, attn_mask: Optional[Tensor], key_padding_mask: Optional[Tensor],
|
1314 |
+
query: Tensor) -> Tuple[Optional[Tensor], Optional[int]]:
|
1315 |
+
r"""Determine mask type and combine masks if necessary.
|
1316 |
+
|
1317 |
+
If only one mask is provided, that mask
|
1318 |
+
and the corresponding mask type will be returned. If both masks are provided, they will be both
|
1319 |
+
expanded to shape ``(batch_size, num_heads, seq_len, seq_len)``, combined with logical ``or``
|
1320 |
+
and mask type 2 will be returned
|
1321 |
+
Args:
|
1322 |
+
attn_mask: attention mask of shape ``(seq_len, seq_len)``, mask type 0
|
1323 |
+
key_padding_mask: padding mask of shape ``(batch_size, seq_len)``, mask type 1
|
1324 |
+
query: query embeddings of shape ``(batch_size, seq_len, embed_dim)``
|
1325 |
+
Returns:
|
1326 |
+
merged_mask: merged mask
|
1327 |
+
mask_type: merged mask type (0, 1, or 2)
|
1328 |
+
"""
|
1329 |
+
mask_type: Optional[int] = None
|
1330 |
+
merged_mask: Optional[Tensor] = None
|
1331 |
+
|
1332 |
+
if key_padding_mask is not None:
|
1333 |
+
mask_type = 1
|
1334 |
+
merged_mask = key_padding_mask
|
1335 |
+
|
1336 |
+
if attn_mask is not None:
|
1337 |
+
# In this branch query can't be a nested tensor, so it has a shape
|
1338 |
+
batch_size, seq_len, _ = query.shape
|
1339 |
+
mask_type = 2
|
1340 |
+
|
1341 |
+
# Always expands attn_mask to 4D
|
1342 |
+
if attn_mask.dim() == 3:
|
1343 |
+
attn_mask_expanded = attn_mask.view(batch_size, -1, seq_len, seq_len)
|
1344 |
+
else: # attn_mask.dim() == 2:
|
1345 |
+
attn_mask_expanded = attn_mask.view(1, 1, seq_len, seq_len).expand(batch_size, self.num_heads, -1, -1)
|
1346 |
+
merged_mask = attn_mask_expanded
|
1347 |
+
|
1348 |
+
if key_padding_mask is not None:
|
1349 |
+
key_padding_mask_expanded = key_padding_mask.view(batch_size, 1, 1, seq_len).expand(-1, self.num_heads, -1, -1)
|
1350 |
+
merged_mask = attn_mask_expanded + key_padding_mask_expanded
|
1351 |
+
|
1352 |
+
# no attn_mask and no key_padding_mask, returns None, None
|
1353 |
+
return merged_mask, mask_type
|
1354 |
+
|
1355 |
+
|
1356 |
+
|
1357 |
+
[docs]class PReLU(Module):
|
1358 |
+
r"""Applies the element-wise PReLU function.
|
1359 |
+
|
1360 |
+
.. math::
|
1361 |
+
\text{PReLU}(x) = \max(0,x) + a * \min(0,x)
|
1362 |
+
|
1363 |
+
or
|
1364 |
+
|
1365 |
+
.. math::
|
1366 |
+
\text{PReLU}(x) =
|
1367 |
+
\begin{cases}
|
1368 |
+
x, & \text{ if } x \ge 0 \\
|
1369 |
+
ax, & \text{ otherwise }
|
1370 |
+
\end{cases}
|
1371 |
+
|
1372 |
+
Here :math:`a` is a learnable parameter. When called without arguments, `nn.PReLU()` uses a single
|
1373 |
+
parameter :math:`a` across all input channels. If called with `nn.PReLU(nChannels)`,
|
1374 |
+
a separate :math:`a` is used for each input channel.
|
1375 |
+
|
1376 |
+
|
1377 |
+
.. note::
|
1378 |
+
weight decay should not be used when learning :math:`a` for good performance.
|
1379 |
+
|
1380 |
+
.. note::
|
1381 |
+
Channel dim is the 2nd dim of input. When input has dims < 2, then there is
|
1382 |
+
no channel dim and the number of channels = 1.
|
1383 |
+
|
1384 |
+
Args:
|
1385 |
+
num_parameters (int): number of :math:`a` to learn.
|
1386 |
+
Although it takes an int as input, there is only two values are legitimate:
|
1387 |
+
1, or the number of channels at input. Default: 1
|
1388 |
+
init (float): the initial value of :math:`a`. Default: 0.25
|
1389 |
+
|
1390 |
+
Shape:
|
1391 |
+
- Input: :math:`( *)` where `*` means, any number of additional
|
1392 |
+
dimensions.
|
1393 |
+
- Output: :math:`(*)`, same shape as the input.
|
1394 |
+
|
1395 |
+
Attributes:
|
1396 |
+
weight (Tensor): the learnable weights of shape (:attr:`num_parameters`).
|
1397 |
+
|
1398 |
+
.. image:: ../scripts/activation_images/PReLU.png
|
1399 |
+
|
1400 |
+
Examples::
|
1401 |
+
|
1402 |
+
>>> m = nn.PReLU()
|
1403 |
+
>>> input = torch.randn(2)
|
1404 |
+
>>> output = m(input)
|
1405 |
+
"""
|
1406 |
+
|
1407 |
+
__constants__ = ['num_parameters']
|
1408 |
+
num_parameters: int
|
1409 |
+
|
1410 |
+
def __init__(self, num_parameters: int = 1, init: float = 0.25,
|
1411 |
+
device=None, dtype=None) -> None:
|
1412 |
+
factory_kwargs = {'device': device, 'dtype': dtype}
|
1413 |
+
self.num_parameters = num_parameters
|
1414 |
+
super().__init__()
|
1415 |
+
self.init = init
|
1416 |
+
self.weight = Parameter(torch.empty(num_parameters, **factory_kwargs))
|
1417 |
+
self.reset_parameters()
|
1418 |
+
|
1419 |
+
def reset_parameters(self):
|
1420 |
+
torch.nn.init.constant_(self.weight, self.init)
|
1421 |
+
|
1422 |
+
def forward(self, input: Tensor) -> Tensor:
|
1423 |
+
return F.prelu(input, self.weight)
|
1424 |
+
|
1425 |
+
def extra_repr(self) -> str:
|
1426 |
+
return f'num_parameters={self.num_parameters}'
|
1427 |
+
|
1428 |
+
|
1429 |
+
|
1430 |
+
[docs]class Softsign(Module):
|
1431 |
+
r"""Applies the element-wise Softsign function.
|
1432 |
+
|
1433 |
+
.. math::
|
1434 |
+
\text{SoftSign}(x) = \frac{x}{ 1 + |x|}
|
1435 |
+
|
1436 |
+
Shape:
|
1437 |
+
- Input: :math:`(*)`, where :math:`*` means any number of dimensions.
|
1438 |
+
- Output: :math:`(*)`, same shape as the input.
|
1439 |
+
|
1440 |
+
.. image:: ../scripts/activation_images/Softsign.png
|
1441 |
+
|
1442 |
+
Examples::
|
1443 |
+
|
1444 |
+
>>> m = nn.Softsign()
|
1445 |
+
>>> input = torch.randn(2)
|
1446 |
+
>>> output = m(input)
|
1447 |
+
"""
|
1448 |
+
|
1449 |
+
def forward(self, input: Tensor) -> Tensor:
|
1450 |
+
return F.softsign(input)
|
1451 |
+
|
1452 |
+
|
1453 |
+
|
1454 |
+
[docs]class Tanhshrink(Module):
|
1455 |
+
r"""Applies the element-wise Tanhshrink function.
|
1456 |
+
|
1457 |
+
.. math::
|
1458 |
+
\text{Tanhshrink}(x) = x - \tanh(x)
|
1459 |
+
|
1460 |
+
Shape:
|
1461 |
+
- Input: :math:`(*)`, where :math:`*` means any number of dimensions.
|
1462 |
+
- Output: :math:`(*)`, same shape as the input.
|
1463 |
+
|
1464 |
+
.. image:: ../scripts/activation_images/Tanhshrink.png
|
1465 |
+
|
1466 |
+
Examples::
|
1467 |
+
|
1468 |
+
>>> m = nn.Tanhshrink()
|
1469 |
+
>>> input = torch.randn(2)
|
1470 |
+
>>> output = m(input)
|
1471 |
+
"""
|
1472 |
+
|
1473 |
+
def forward(self, input: Tensor) -> Tensor:
|
1474 |
+
return F.tanhshrink(input)
|
1475 |
+
|
1476 |
+
|
1477 |
+
|
1478 |
+
[docs]class Softmin(Module):
|
1479 |
+
r"""Applies the Softmin function to an n-dimensional input Tensor.
|
1480 |
+
|
1481 |
+
Rescales them so that the elements of the n-dimensional output Tensor
|
1482 |
+
lie in the range `[0, 1]` and sum to 1.
|
1483 |
+
|
1484 |
+
Softmin is defined as:
|
1485 |
+
|
1486 |
+
.. math::
|
1487 |
+
\text{Softmin}(x_{i}) = \frac{\exp(-x_i)}{\sum_j \exp(-x_j)}
|
1488 |
+
|
1489 |
+
Shape:
|
1490 |
+
- Input: :math:`(*)` where `*` means, any number of additional
|
1491 |
+
dimensions
|
1492 |
+
- Output: :math:`(*)`, same shape as the input
|
1493 |
+
|
1494 |
+
Args:
|
1495 |
+
dim (int): A dimension along which Softmin will be computed (so every slice
|
1496 |
+
along dim will sum to 1).
|
1497 |
+
|
1498 |
+
Returns:
|
1499 |
+
a Tensor of the same dimension and shape as the input, with
|
1500 |
+
values in the range [0, 1]
|
1501 |
+
|
1502 |
+
Examples::
|
1503 |
+
|
1504 |
+
>>> m = nn.Softmin(dim=1)
|
1505 |
+
>>> input = torch.randn(2, 3)
|
1506 |
+
>>> output = m(input)
|
1507 |
+
"""
|
1508 |
+
|
1509 |
+
__constants__ = ['dim']
|
1510 |
+
dim: Optional[int]
|
1511 |
+
|
1512 |
+
def __init__(self, dim: Optional[int] = None) -> None:
|
1513 |
+
super().__init__()
|
1514 |
+
self.dim = dim
|
1515 |
+
|
1516 |
+
def __setstate__(self, state):
|
1517 |
+
super().__setstate__(state)
|
1518 |
+
if not hasattr(self, 'dim'):
|
1519 |
+
self.dim = None
|
1520 |
+
|
1521 |
+
def forward(self, input: Tensor) -> Tensor:
|
1522 |
+
return F.softmin(input, self.dim, _stacklevel=5)
|
1523 |
+
|
1524 |
+
def extra_repr(self):
|
1525 |
+
return f'dim={self.dim}'
|
1526 |
+
|
1527 |
+
|
1528 |
+
[docs]class Softmax(Module):
|
1529 |
+
r"""Applies the Softmax function to an n-dimensional input Tensor.
|
1530 |
+
|
1531 |
+
Rescales them so that the elements of the n-dimensional output Tensor
|
1532 |
+
lie in the range [0,1] and sum to 1.
|
1533 |
+
|
1534 |
+
Softmax is defined as:
|
1535 |
+
|
1536 |
+
.. math::
|
1537 |
+
\text{Softmax}(x_{i}) = \frac{\exp(x_i)}{\sum_j \exp(x_j)}
|
1538 |
+
|
1539 |
+
When the input Tensor is a sparse tensor then the unspecified
|
1540 |
+
values are treated as ``-inf``.
|
1541 |
+
|
1542 |
+
Shape:
|
1543 |
+
- Input: :math:`(*)` where `*` means, any number of additional
|
1544 |
+
dimensions
|
1545 |
+
- Output: :math:`(*)`, same shape as the input
|
1546 |
+
|
1547 |
+
Returns:
|
1548 |
+
a Tensor of the same dimension and shape as the input with
|
1549 |
+
values in the range [0, 1]
|
1550 |
+
|
1551 |
+
Args:
|
1552 |
+
dim (int): A dimension along which Softmax will be computed (so every slice
|
1553 |
+
along dim will sum to 1).
|
1554 |
+
|
1555 |
+
.. note::
|
1556 |
+
This module doesn't work directly with NLLLoss,
|
1557 |
+
which expects the Log to be computed between the Softmax and itself.
|
1558 |
+
Use `LogSoftmax` instead (it's faster and has better numerical properties).
|
1559 |
+
|
1560 |
+
Examples::
|
1561 |
+
|
1562 |
+
>>> m = nn.Softmax(dim=1)
|
1563 |
+
>>> input = torch.randn(2, 3)
|
1564 |
+
>>> output = m(input)
|
1565 |
+
|
1566 |
+
"""
|
1567 |
+
|
1568 |
+
__constants__ = ['dim']
|
1569 |
+
dim: Optional[int]
|
1570 |
+
|
1571 |
+
def __init__(self, dim: Optional[int] = None) -> None:
|
1572 |
+
super().__init__()
|
1573 |
+
self.dim = dim
|
1574 |
+
|
1575 |
+
def __setstate__(self, state):
|
1576 |
+
super().__setstate__(state)
|
1577 |
+
if not hasattr(self, 'dim'):
|
1578 |
+
self.dim = None
|
1579 |
+
|
1580 |
+
def forward(self, input: Tensor) -> Tensor:
|
1581 |
+
return F.softmax(input, self.dim, _stacklevel=5)
|
1582 |
+
|
1583 |
+
def extra_repr(self) -> str:
|
1584 |
+
return f'dim={self.dim}'
|
1585 |
+
|
1586 |
+
|
1587 |
+
|
1588 |
+
[docs]class Softmax2d(Module):
|
1589 |
+
r"""Applies SoftMax over features to each spatial location.
|
1590 |
+
|
1591 |
+
When given an image of ``Channels x Height x Width``, it will
|
1592 |
+
apply `Softmax` to each location :math:`(Channels, h_i, w_j)`
|
1593 |
+
|
1594 |
+
Shape:
|
1595 |
+
- Input: :math:`(N, C, H, W)` or :math:`(C, H, W)`.
|
1596 |
+
- Output: :math:`(N, C, H, W)` or :math:`(C, H, W)` (same shape as input)
|
1597 |
+
|
1598 |
+
Returns:
|
1599 |
+
a Tensor of the same dimension and shape as the input with
|
1600 |
+
values in the range [0, 1]
|
1601 |
+
|
1602 |
+
Examples::
|
1603 |
+
|
1604 |
+
>>> m = nn.Softmax2d()
|
1605 |
+
>>> # you softmax over the 2nd dimension
|
1606 |
+
>>> input = torch.randn(2, 3, 12, 13)
|
1607 |
+
>>> output = m(input)
|
1608 |
+
"""
|
1609 |
+
|
1610 |
+
def forward(self, input: Tensor) -> Tensor:
|
1611 |
+
if input.dim() not in (3, 4):
|
1612 |
+
raise ValueError(
|
1613 |
+
f"Softmax2d: expected input to be 3D or 4D, got {input.dim()}D instead"
|
1614 |
+
)
|
1615 |
+
return F.softmax(input, -3, _stacklevel=5)
|
1616 |
+
|
1617 |
+
|
1618 |
+
|
1619 |
+
[docs]class LogSoftmax(Module):
|
1620 |
+
r"""Applies the :math:`\log(\text{Softmax}(x))` function to an n-dimensional input Tensor.
|
1621 |
+
|
1622 |
+
The LogSoftmax formulation can be simplified as:
|
1623 |
+
|
1624 |
+
.. math::
|
1625 |
+
\text{LogSoftmax}(x_{i}) = \log\left(\frac{\exp(x_i) }{ \sum_j \exp(x_j)} \right)
|
1626 |
+
|
1627 |
+
Shape:
|
1628 |
+
- Input: :math:`(*)` where `*` means, any number of additional
|
1629 |
+
dimensions
|
1630 |
+
- Output: :math:`(*)`, same shape as the input
|
1631 |
+
|
1632 |
+
Args:
|
1633 |
+
dim (int): A dimension along which LogSoftmax will be computed.
|
1634 |
+
|
1635 |
+
Returns:
|
1636 |
+
a Tensor of the same dimension and shape as the input with
|
1637 |
+
values in the range [-inf, 0)
|
1638 |
+
|
1639 |
+
Examples::
|
1640 |
+
|
1641 |
+
>>> m = nn.LogSoftmax(dim=1)
|
1642 |
+
>>> input = torch.randn(2, 3)
|
1643 |
+
>>> output = m(input)
|
1644 |
+
"""
|
1645 |
+
|
1646 |
+
__constants__ = ['dim']
|
1647 |
+
dim: Optional[int]
|
1648 |
+
|
1649 |
+
def __init__(self, dim: Optional[int] = None) -> None:
|
1650 |
+
super().__init__()
|
1651 |
+
self.dim = dim
|
1652 |
+
|
1653 |
+
def __setstate__(self, state):
|
1654 |
+
super().__setstate__(state)
|
1655 |
+
if not hasattr(self, 'dim'):
|
1656 |
+
self.dim = None
|
1657 |
+
|
1658 |
+
def forward(self, input: Tensor) -> Tensor:
|
1659 |
+
return F.log_softmax(input, self.dim, _stacklevel=5)
|
1660 |
+
|
1661 |
+
def extra_repr(self):
|
1662 |
+
return f'dim={self.dim}'
|