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powered_by_intel_llm_leaderboard / app.py

Alvarez

Merge branch 'main' of https://huggingface.co./spaces/Intel/powered_by_intel_llm_leaderboard

71c6d3b about 2 months ago

17.3 kB

	import pandas as pd
	import requests
	import os

	import gradio
	import gradio as gr

	from info.train_a_model import (
	LLM_BENCHMARKS_TEXT)
	from info.submit import (
	SUBMIT_TEXT)
	from info.deployment import (
	DEPLOY_TEXT)
	from info.programs import (
	PROGRAMS_TEXT)
	from info.citation import(
	CITATION_TEXT)
	from info.validated_chat_models import(
	VALIDATED_CHAT_MODELS)
	from info.about import(
	ABOUT)
	from src.processing import filter_benchmarks_table

	inference_endpoint_url = os.environ['inference_endpoint_url']
	submission_form_endpoint_url = os.environ['submission_form_endpoint_url']
	inference_concurrency_limit = os.environ['inference_concurrency_limit']

	demo = gr.Blocks()

	with demo:

	gr.HTML("""<h1 align="center" id="space-title">🤗Powered-by-Intel LLM Leaderboard 💻</h1>""")
	gr.Markdown("""This leaderboard is designed to evaluate, score, and rank open-source LLMs
	that have been pre-trained or fine-tuned on Intel Hardware 🦾. To submit your model for evaluation,
	follow the instructions and complete the form in the 🏎️ Submit tab. Models submitted to the leaderboard are evaluated
	on the Intel Developer Cloud ☁️. The evaluation platform consists of Gaudi Accelerators and Xeon CPUs running benchmarks from
	the [Eleuther AI Language Model Evaluation Harness](https://github.com/EleutherAI/lm-evaluation-harness).""")
	gr.Markdown("""A special shout-out to the 🤗 [Open LLM Leaderboard](https://huggingface.co./spaces/HuggingFaceH4/open_llm_leaderboard)
	team for generously sharing their code and best
	practices, ensuring that AI Developers have a valuable and enjoyable tool at their disposal.""")

	def submit_to_endpoint(model_name, revision_name, model_type, hw_type, terms, precision, weight_type, training_infra, affiliation, base_model):
	# Construct the data payload to send
	data = {
	"model_name": model_name,
	"revision_name": revision_name,
	"model_type": model_type,
	"hw_type": hw_type,
	"terms": terms,
	"precision": precision,
	"weight_type": weight_type,
	"training_infrastructure": training_infra,
	"affiliation": affiliation,
	"base_model": base_model
	}

	# URL of the endpoint expecting the HTTP request
	url = submission_form_endpoint_url

	for key, value in data.items():
	if value == "" or (key == "terms" and value is False):
	return f"❌ Failed Submission: '{key}' ensure all fields are completed and that you have agreed to evaluation terms."

	try:
	response = requests.post(url, json=data)
	if response.status_code == 200:
	return "✅ Submission successful! Please allow for 5 - 10 days for model evaluation to be completed. We will contact you \
	through your model's discussion forum if we encounter any issues with your submission."
	else:
	return f"Submission failed with status code {response.status_code}"
	except Exception as e:
	return f"❌Failed to submit due to an error: {str(e)}"

	#with gr.Accordion("Chat with Top Models on the Leaderboard Here 💬", open=False):
	#
	# chat_model_dropdown = gr.Dropdown(
	# choices=VALIDATED_CHAT_MODELS,
	# label="Select a leaderboard model to chat with. ",
	# multiselect=False,
	# value=VALIDATED_CHAT_MODELS[0],
	# interactive=True,
	# )
	#
	# #chat_model_selection = chat_model_dropdown.value
	# chat_model_selection = 'yuriachermann/My_AGI_llama_2_7B'
	#
	# def call_api_and_stream_response(query, chat_model):
	# """
	# Call the API endpoint and yield characters as they are received.
	# This function simulates streaming by yielding characters one by one.
	# """
	# url = inference_endpoint_url
	# params = {"query": query, "selected_model": chat_model}
	# with requests.get(url, json=params, stream=True) as r: # Use params for query parameters
	# for chunk in r.iter_content(chunk_size=1):
	# if chunk:
	# yield chunk.decode()
	#
	# def get_response(query, history):
	# """
	# Wrapper function to call the streaming API and compile the response.
	# """
	# response = ''
	# for char in call_api_and_stream_response(query, chat_model=chat_model_selection):
	# if char == '<': # This is stopping condition; adjust as needed.
	# break
	# response += char
	# yield [(f"🤖 Response from LLM: {chat_model_selection}", response)] # Correct format for Gradio Chatbot
	##
	#
	# chatbot = gr.Chatbot()
	# msg = gr.Textbox()
	# submit = gr.Button("Submit")
	# clear = gr.Button("Clear")
	# def user(user_message, history):
	# return "", history + [[user_message, None]]
	# def clear_chat(*args):
	# return [] # Returning an empty list to signify clearing the chat, adjust as per Gradio's capabilities
	# submit.click(
	# fn=get_response,
	# inputs=[msg, chatbot],
	# outputs=chatbot
	# )
	# clear.click(
	# fn=clear_chat,
	# inputs=None,
	# outputs=chatbot
	# )
	#

	with gr.Tabs(elem_classes="tab-buttons") as tabs:
	with gr.TabItem("🏆 LLM Leaderboard", elem_id="llm-benchmark-table", id=0):
	with gr.Row():
	with gr.Column():
	filter_hw = gr.CheckboxGroup(choices=["Gaudi","Xeon","GPU Max","Arc GPU","Core Ultra"],
	label="Select Training Platform*",
	elem_id="compute_platforms",
	value=["Gaudi","Xeon","GPU Max","Arc GPU","Core Ultra"])
	filter_platform = gr.CheckboxGroup(choices=["Intel Developer Cloud","AWS","Azure","Google Cloud Platform","Local"],
	label="Training Infrastructure*",
	elem_id="training_infra",
	value=["Intel Developer Cloud","AWS","Azure","Google Cloud Platform","Local"])
	filter_affiliation = gr.CheckboxGroup(choices=["No Affiliation","Intel Innovator","Student Ambassador","Intel Liftoff", "Intel Engineering", "Other"],
	label="Intel Program Affiliation",
	elem_id="program_affiliation",
	value=["No Affiliation","Intel Innovator","Student Ambassador","Intel Liftoff", "Intel Engineering", "Other"])

	with gr.Column():
	filter_size = gr.CheckboxGroup(choices=[1,2,3,5,7,8,13,35,60,70,100],
	label="Model Sizes (Billion of Parameters)",
	elem_id="parameter_size",
	value=[1,2,3,5,7,8,13,35,60,70,100])
	filter_precision = gr.CheckboxGroup(choices=["fp32","fp16","bf16","int8","fp8", "int4"],
	label="Model Precision",
	elem_id="precision",
	value=["fp32","fp16","bf16","int8","fp8", "int4"])
	filter_type = gr.CheckboxGroup(choices=["pretrained","fine-tuned","chat-models","merges/moerges"],
	label="Model Types",
	elem_id="model_types",
	value=["pretrained","fine-tuned","chat-models","merges/moerges"])
	inbox_text = gr.CheckboxGroup(label = """Inference Tested Column Legend: 🟨 = Gaudi, 🟦 = Xeon, 🟥 = GPU Max, 🟠 = Core Ultra, 🟢 = Arc GPU (Please see "❓About" tab for more info)""")

	# formatting model name and adding links
	color = '#2f82d4'
	def make_clickable(row):
	return f'<a href="https://huggingface.co./{row["Model"]}" target="_blank" style="color: {color}; text-decoration: underline;">{row["Model"]}</a>'


	initial_df = pd.read_csv("./status/leaderboard_status_091124.csv")
	initial_df["Model"] = initial_df.apply(make_clickable, axis=1)
	initial_df = initial_df.sort_values(by='Average', ascending=False)


	def update_df(hw_selected, platform_selected, affiliation_selected, size_selected, precision_selected, type_selected):
	filtered_df = filter_benchmarks_table(df=initial_df, hw_selected=hw_selected, platform_selected=platform_selected,
	affiliation_selected=affiliation_selected, size_selected=size_selected,
	precision_selected=precision_selected, type_selected=type_selected)
	return filtered_df


	initial_filtered_df = update_df(["Gaudi","Xeon","GPU Max","Arc GPU","Core Ultra"],
	["Intel Developer Cloud","AWS","Azure","Google Cloud Platform","Local"],
	["No Affiliation","Intel Innovator","Student Ambassador","Intel Liftoff", "Intel Engineering", "Other"],
	[1,2,3,5,7,8,13,35,60,70,100],
	["fp32","fp16","bf16","int8","fp8", "int4"],
	["pretrained","fine-tuned","chat-models","merges/moerges"])


	gradio_df_display = gr.Dataframe(value=initial_filtered_df, headers=["Inference Tested","Model","Average","ARC","HellaSwag","MMLU",
	"TruthfulQA","Winogrande","Training Hardware","Model Type","Precision",
	"Size","Infrastructure","Affiliation"],
	datatype=["html","html","str","str","str","str","str","str","str","str","str","str","str","str"])

	filter_hw.change(fn=update_df,
	inputs=[filter_hw, filter_platform, filter_affiliation, filter_size, filter_precision, filter_type],
	outputs=[gradio_df_display])
	filter_platform.change(fn=update_df,
	inputs=[filter_hw, filter_platform, filter_affiliation, filter_size, filter_precision, filter_type],
	outputs=[gradio_df_display])
	filter_affiliation.change(fn=update_df,
	inputs=[filter_hw, filter_platform, filter_affiliation, filter_size, filter_precision, filter_type],
	outputs=[gradio_df_display])
	filter_size.change(fn=update_df,
	inputs=[filter_hw, filter_platform, filter_affiliation, filter_size, filter_precision, filter_type],
	outputs=[gradio_df_display])
	filter_precision.change(fn=update_df,
	inputs=[filter_hw, filter_platform, filter_affiliation, filter_size, filter_precision, filter_type],
	outputs=[gradio_df_display])
	filter_type.change(fn=update_df,
	inputs=[filter_hw, filter_platform, filter_affiliation, filter_size, filter_precision, filter_type],
	outputs=[gradio_df_display])


	with gr.TabItem("🧰 Train a Model", elem_id="getting-started", id=1):
	gr.Markdown(LLM_BENCHMARKS_TEXT, elem_classes="markdown-text")
	with gr.TabItem("🚀 Deployment Tips", elem_id="deployment-tips", id=2):
	gr.Markdown(DEPLOY_TEXT, elem_classes="markdown-text")
	with gr.TabItem("👩‍💻 Developer Programs", elem_id="hardward-program", id=3):
	gr.Markdown(PROGRAMS_TEXT, elem_classes="markdown-text")
	with gr.TabItem("❓ About ", elem_id="about", id=5):
	gr.Markdown(ABOUT, elem_classes="markdown-text")
	with gr.TabItem("🏎️ Submit", elem_id="submit", id=4):
	gr.Markdown(SUBMIT_TEXT, elem_classes="markdown-text")
	with gr.Row():
	gr.Markdown("# Submit Model for Evaluation 🏎️", elem_classes="markdown-text")
	with gr.Row():
	with gr.Column():
	model_name_textbox = gr.Textbox(label="Model name",
	info = """ Name of Model in the Hub. For example: 'Intel/neural-chat-7b-v1-1'""",)
	revision_name_textbox = gr.Textbox(label="Revision commit (Branch)", placeholder="main")
	model_type = gr.Dropdown(
	choices=["pretrained","fine-tuned","chat models","merges/moerges"],
	label="Model type",
	multiselect=False,
	value="pretrained",
	interactive=True,
	)

	hw_type = gr.Dropdown(
	choices=["Gaudi","Xeon","GPU Max","Arc GPU","Core Ultra"],
	label="Training Hardware",
	multiselect=False,
	value="Gaudi",
	interactive=True,
	)
	terms = gr.Checkbox(
	label="Check if you agree to having your model evaluated and published to the leaderboard by our team.",
	value=False,
	interactive=True,
	)
	submit_button = gr.Button("🤗 Submit Eval 💻")
	submission_result = gr.Markdown()

	with gr.Column():
	precision = gr.Dropdown(
	choices=["fp32","fp16","bf16","int8","fp8", "int4"],
	label="Precision",
	multiselect=False,
	value="fp16",
	interactive=True,
	)
	weight_type = gr.Dropdown(
	choices=["Original", "Adapter", "Delta"],
	label="Weights type",
	multiselect=False,
	value="Original",
	interactive=True,
	info = """ Select the appropriate weights. If you have fine-tuned or adapted a model with PEFT or Delta-Tuning you likely have
	LoRA Adapters or Delta Weights.""",
	)
	training_infra = gr.Dropdown(
	choices=["Intel Developer Cloud","AWS","Azure","Google Cloud Platform","Local"],
	label="Training Infrastructure",
	multiselect=False,
	value="Intel Developer Cloud",
	interactive=True,
	info = """ Select the infrastructure that the model was developed on.
	Local is the ideal choice for Core Ultra, ARC GPUs, and local data center infrastructure.""",
	)
	affiliation = gr.Dropdown(
	choices=["No Affiliation","Intel Innovator","Student Ambassador","Intel Liftoff", "Intel Engineering", "Other"],
	label="Affiliation with Intel",
	multiselect=False,
	value="No Affiliation",
	interactive=True,
	info = """ Select "No Affiliation" if not part of any Intel programs.""",
	)
	base_model_name_textbox = gr.Textbox(label="Base model (for delta or adapter weights)")

	submit_button.click(
	fn=submit_to_endpoint,
	inputs=[model_name_textbox, revision_name_textbox, model_type, hw_type, terms, precision, weight_type, training_infra, affiliation, base_model_name_textbox],
	outputs=submission_result)



	with gr.Accordion("📙 Citation", open=False):
	citation =gr.Textbox(value = CITATION_TEXT,
	lines=6,
	label="Use the following to cite this content")

	gr.Markdown("""<div style="display: flex; justify-content: center;"> <p> Intel, the Intel logo and Gaudi are trademarks of Intel Corporation or its subsidiaries.
	*Other names and brands may be claimed as the property of others.
	</p> </div>""")
	demo.queue()
	demo.launch(share=False)