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llm-perf-leaderboard / app.py

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6db5c25 about 1 year ago

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	import os
	import gradio as gr
	import pandas as pd
	import plotly.express as px
	from apscheduler.schedulers.background import BackgroundScheduler

	from src.assets.css_html_js import custom_css, custom_js
	from src.assets.text_content import (
	TITLE,
	INTRODUCTION_TEXT,
	ABOUT_TEXT,
	CITATION_BUTTON_LABEL,
	CITATION_BUTTON_TEXT,
	)
	from src.utils import (
	change_tab,
	restart_space,
	load_dataset_repo,
	process_model_name,
	process_model_type,
	process_weight_class,
	)


	LLM_PERF_LEADERBOARD_REPO = "optimum/llm-perf-leaderboard"
	LLM_PERF_DATASET_REPO = "optimum/llm-perf-dataset"
	OPTIMUM_TOKEN = os.environ.get("OPTIMUM_TOKEN", None)


	ALL_COLUMNS_MAPPING = {
	"best_scored_model": "Best Scored Model 🏆",
	"model_type": "Model Type 🤗",
	"weight_class": "Weight Class 🏋️",
	#
	"backend.name": "Backend 🏭",
	"backend.torch_dtype": "Dtype 📥",
	"optimizations": "Optimizations 🛠️",
	#
	"generate.throughput(tokens/s)": "Throughput (tokens/s) ⬆️",
	"forward.peak_memory(MB)": "Peak Memory (MB) ⬇️",
	"best_score": "Score (%) ⬆️",
	#
	}
	ALL_COLUMNS_DATATYPES = [
	"markdown",
	"str",
	"str",
	#
	"str",
	"str",
	"str",
	#
	"number",
	"number",
	"number",
	]
	SORTING_COLUMN = ["tradeoff"]

	llm_perf_dataset_repo = load_dataset_repo(LLM_PERF_DATASET_REPO, OPTIMUM_TOKEN)


	def get_benchmark_df(benchmark="1xA100-80GB"):
	if llm_perf_dataset_repo:
	llm_perf_dataset_repo.git_pull()

	# load and merge
	bench_df = pd.read_csv(f"./llm-perf-dataset/reports/{benchmark}.csv")
	scores_df = pd.read_csv(
	f"./llm-perf-dataset/reports/Grouped-Open-LLM-Leaderboard.csv"
	)
	merged_df = bench_df.merge(scores_df, left_on="model", right_on="best_scored_model")

	# add optimizations
	merged_df["optimizations"] = merged_df[
	["backend.bettertransformer", "backend.load_in_8bit", "backend.load_in_4bit"]
	].apply(
	lambda x: ", ".join(
	filter(
	lambda x: x != "",
	[
	"BetterTransformer" if x[0] == True else "",
	"LLM.int8" if x[1] == True else "",
	"LLM.fp4" if x[2] == True else "",
	],
	),
	)
	if any([x[0] == True, x[1] == True, x[2] == True])
	else "None",
	axis=1,
	)

	# create composite score
	score_distance = 100 - merged_df["best_score"]
	# normalize latency between 0 and 100
	latency_distance = merged_df["generate.latency(s)"]
	merged_df["tradeoff"] = (score_distance2 + latency_distance2) ** 0.5
	merged_df["tradeoff"] = merged_df["tradeoff"].round(2)

	return merged_df


	def get_benchmark_table(bench_df):
	# sort
	bench_df.sort_values(by=SORTING_COLUMN, ascending=True, inplace=True)
	# filter
	bench_df = bench_df[list(ALL_COLUMNS_MAPPING.keys())]
	# rename
	bench_df.rename(columns=ALL_COLUMNS_MAPPING, inplace=True)
	# transform
	bench_df["Model Type 🤗"] = bench_df["Model Type 🤗"].apply(process_model_type)
	bench_df["Weight Class 🏋️"] = bench_df["Weight Class 🏋️"].apply(
	process_weight_class
	)
	bench_df["Best Scored Model 🏆"] = bench_df["Best Scored Model 🏆"].apply(
	process_model_name
	)
	return bench_df


	def get_benchmark_plot(bench_df):
	# untill falcon gets fixed / natively supported
	bench_df = bench_df[bench_df["generate.latency(s)"] < 150]

	fig = px.scatter(
	bench_df,
	x="generate.latency(s)",
	y="best_score",
	color="model_type",
	size="forward.peak_memory(MB)",
	custom_data=[
	"best_scored_model",
	"backend.name",
	"backend.torch_dtype",
	"optimizations",
	"forward.peak_memory(MB)",
	"generate.throughput(tokens/s)",
	],
	color_discrete_sequence=px.colors.qualitative.Light24,
	)

	fig.update_layout(
	title={
	"text": "Model Score vs. Latency vs. Memory",
	"y": 0.95,
	"x": 0.5,
	"xanchor": "center",
	"yanchor": "top",
	},
	xaxis_title="Per 1000 Tokens Latency (s)",
	yaxis_title="Open LLM Score (%)",
	legend_title="Model Type",
	width=1200,
	height=600,
	)

	fig.update_traces(
	hovertemplate="<br>".join(
	[
	"Model: %{customdata[0]}",
	"Backend: %{customdata[1]}",
	"Load Datatype: %{customdata[2]}",
	"Optimizations: %{customdata[3]}",
	"Peak Memory (MB): %{customdata[4]}",
	"Throughput (tokens/s): %{customdata[5]}",
	"Per 1000 Tokens Latency (s): %{x}",
	"Open LLM Score (%): %{y}",
	]
	)
	)

	return fig


	def filter_query(
	text,
	backends,
	datatypes,
	optimizations,
	score,
	memory,
	benchmark="1xA100-80GB",
	):
	raw_df = get_benchmark_df(benchmark=benchmark)

	filtered_df = raw_df[
	raw_df["best_scored_model"].str.lower().str.contains(text.lower())
	& raw_df["backend.name"].isin(backends)
	& raw_df["backend.torch_dtype"].isin(datatypes)
	& (
	pd.concat(
	[
	raw_df["optimizations"].str.contains(optimization)
	for optimization in optimizations
	],
	axis=1,
	).any(axis="columns")
	if len(optimizations) > 0
	else True
	)
	& (raw_df["best_score"] >= score)
	& (raw_df["forward.peak_memory(MB)"] <= memory)
	]

	filtered_table = get_benchmark_table(filtered_df)
	filtered_plot = get_benchmark_plot(filtered_df)

	return filtered_table, filtered_plot


	# Dataframes
	A100_df = get_benchmark_df(benchmark="1xA100-80GB")
	A100_table = get_benchmark_table(A100_df)
	A100_plot = get_benchmark_plot(A100_df)

	# Demo interface
	demo = gr.Blocks(css=custom_css)
	with demo:
	# leaderboard title
	gr.HTML(TITLE)

	# introduction text
	gr.Markdown(INTRODUCTION_TEXT, elem_classes="markdown-text")

	# leaderboard tabs
	with gr.Tabs(elem_classes="A100-tabs") as A100_tabs:
	with gr.TabItem("🖥️ A100-80GB Leaderboar Table 🏆", id=0):
	# Original leaderboard table
	A100_leaderboard = gr.components.Dataframe(
	value=A100_table,
	datatype=ALL_COLUMNS_DATATYPES,
	headers=list(ALL_COLUMNS_MAPPING.values()),
	elem_id="1xA100-table",
	)

	with gr.TabItem("🖥️ A100-80GB Interactive Plot 📊", id=2):
	# Original leaderboard plot
	A100_plotly = gr.components.Plot(
	value=A100_plot,
	elem_id="1xA100-plot",
	show_label=False,
	)

	with gr.TabItem("🎮 Control Panel 🎛️", id=3):
	# control panel interface
	with gr.Row():
	with gr.Column(scale=1):
	search_bar = gr.Textbox(
	label="Model 🤗",
	info="🔍 Search for a model name",
	elem_id="search-bar",
	)
	with gr.Column(scale=1):
	with gr.Box():
	score_slider = gr.Slider(
	label="Open LLM Score 📈",
	info="🎚️ Slide to minimum Open LLM score",
	value=0,
	elem_id="threshold-slider",
	)
	with gr.Column(scale=1):
	with gr.Box():
	memory_slider = gr.Slider(
	label="Peak Memory (MB) 📈",
	info="🎚️ Slide to maximum Peak Memory",
	minimum=0,
	maximum=80 * 1024,
	value=80 * 1024,
	elem_id="memory-slider",
	)

	with gr.Row():
	with gr.Column(scale=1):
	backend_checkboxes = gr.CheckboxGroup(
	label="Backends 🏭",
	choices=["pytorch", "onnxruntime"],
	value=["pytorch", "onnxruntime"],
	info="☑️ Select the backends",
	elem_id="backend-checkboxes",
	)
	with gr.Column(scale=1):
	datatype_checkboxes = gr.CheckboxGroup(
	label="Dtypes 📥",
	choices=["float32", "float16"],
	value=["float32", "float16"],
	info="☑️ Select the load dtypes",
	elem_id="dtype-checkboxes",
	)
	with gr.Column(scale=2):
	optimizations_checkboxes = gr.CheckboxGroup(
	label="Optimizations 🛠️",
	choices=["None", "BetterTransformer", "LLM.int8", "LLM.fp4"],
	value=["None", "BetterTransformer", "LLM.int8", "LLM.fp4"],
	info="☑️ Select the optimizations",
	elem_id="optimizations-checkboxes",
	)

	with gr.Row():
	filter_button = gr.Button(
	value="Filter 🚀",
	elem_id="filter-button",
	)

	with gr.TabItem("📖 About ❔", id=4):
	gr.HTML(ABOUT_TEXT, elem_classes="html-text")

	demo.load(
	change_tab,
	A100_tabs,
	_js=custom_js,
	)

	filter_button.click(
	filter_query,
	[
	search_bar,
	backend_checkboxes,
	datatype_checkboxes,
	optimizations_checkboxes,
	score_slider,
	memory_slider,
	],
	[A100_leaderboard, A100_plotly],
	)

	with gr.Row():
	with gr.Accordion("📙 Citation", open=False):
	citation_button = gr.Textbox(
	value=CITATION_BUTTON_TEXT,
	label=CITATION_BUTTON_LABEL,
	elem_id="citation-button",
	).style(show_copy_button=True)


	# Restart space every hour
	scheduler = BackgroundScheduler()
	scheduler.add_job(
	restart_space,
	"interval",
	seconds=3600,
	args=[LLM_PERF_LEADERBOARD_REPO, OPTIMUM_TOKEN],
	)
	scheduler.start()

	# Launch demo
	demo.queue(concurrency_count=40).launch()
	demo.queue(concurrency_count=40).launch()