CostEvaluator / app.py
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import gradio as gr
import models
import pandas as pd
from gradio.themes.base import Base
from gradio.themes.utils.colors import Color
from gradio.themes.utils import colors, fonts, sizes
from typing import Iterable
text = "<h1 style='text-align: center; color: #f0ba2d; font-size: 40px;'>TCO Comparison Calculator"
text0 = "<h1 style='text-align: center; color: midnightblue; font-size: 30px;'>Describe your use case"
text1 = "<h1 style='text-align: center; color: midnightblue; font-size: 25px;'>First option"
text2 = "<h1 style='text-align: center; color: midnightblue; font-size: 25px;'>Second option"
text3 = "<h1 style='text-align: center; color: midnightblue; font-size: 30px;'>Compute and compare TCOs"
description=f"""
<p>In this demo application, we help you compare different AI model services, such as Open source or SaaS solutions, based on the Total Cost of Ownership for their deployment.</p>
<p>First, you'll have to select your use case. Then, select the two model service options you'd like to compare. Depending on the options you chose, you could be able to customize some parameters of the set-up. Eventually, we will provide you with the cost of deployment for the selected model services, as a function of the number of requests. You can compare both solutions to evaluate which one best suits your needs.</p>
"""
def on_use_case_change(use_case):
if use_case == "Summarize":
return gr.update(value=500), gr.update(value=200)
elif use_case == "Question-Answering":
return gr.update(value=300), gr.update(value=300)
else:
return gr.update(value=50), gr.update(value=10)
def compare(tco1, tco2, labor_cost1, labor_cost2, dropdown, dropdown2):
r = tco1 / tco2
r2 = labor_cost1 / labor_cost2
if r < 1:
comparison_result = f"The cost/request of the {dropdown2} service is {1/r:.5f} times more expensive than the one of the {dropdown} service."
if r2 > 1:
comparison_result2 = f"However, it will cost a lot more to deploy the set-up for the {dropdown} service because the labor cost per month is of ${labor_cost1}, compared to a labor cost per month of ${labor_cost2} for the {dropdown2} solution."
meeting_point = (labor_cost2 - labor_cost1) / (tco1 - tco2)
comparison_result3 = f"The number of requests you need to achieve in a month to have the labor cost of the {dropdown} service be absorbed and both solution TCOs be equal would be of {meeting_point:.0f}."
elif r2 < 1:
comparison_result2 = f"Additionally, it will cost a lot more to deploy the set-up for the {dropdown2} service because the labor cost per month is of ${labor_cost2}, compared to a labor cost per month of ${labor_cost1} for the {dropdown} solution."
else:
comparison_result2 = f"Additionally, both services have the same labor cost per month."
elif r > 1:
comparison_result = f"The cost/request of the {dropdown2} service is {r:.5f} times cheaper than the one of the {dropdown} service."
if r2 > 1:
comparison_result2 = f"Additionally, it will cost a lot more to deploy the set-up for the {dropdown} service because the labor cost per month is of ${labor_cost1}, compared to a labor cost per month of ${labor_cost2} for the {dropdown2} solution."
elif r2 < 1:
comparison_result2 = f"However, it will cost a lot more to deploy the set-up for the {dropdown2} service because the labor cost per month is of ${labor_cost2}, compared to a labor cost per month of ${labor_cost1} for the {dropdown} solution."
meeting_point = (labor_cost2 - labor_cost1) / (tco1 - tco2)
comparison_result3 = f"The number of requests you need to achieve in a month to have the labor cost of the {dropdown2} service be absorbed and both solution TCOs be equal would be of {meeting_point:.0f}."
else:
comparison_result2 = f"Additionally, both services have the same labor cost per month."
else:
comparison_result = f"Both solutions have the same cost/request."
if r2 > 1:
comparison_result2 = f"However, it will cost a lot more to deploy the set-up for the {dropdown} service because the labor cost per month is of ${labor_cost1}, compared to a labor cost per month of ${labor_cost2} for the {dropdown2} solution."
elif r2 < 1:
comparison_result2 = f"However, it will cost a lot more to deploy the set-up for the {dropdown2} service because the labor cost per month is of ${labor_cost2}, compared to a labor cost per month of ${labor_cost1} for the {dropdown} solution."
else:
comparison_result2 = f"Additionally, both services have the same labor cost per month."
return comparison_result + "\n" + "\n" + comparison_result2 + "\n" + "\n" + comparison_result3
def update_plot(tco1, tco2, dropdown, dropdown2, labour_cost1, labour_cost2):
request_ranges = [100, 200, 300, 400, 500, 1000, 10000]
costs_tco1 = [(tco1 * req + labour_cost1) for req in request_ranges]
costs_tco2 = [(tco2 * req + labour_cost2) for req in request_ranges]
data = pd.DataFrame({
"Number of requests": request_ranges * 2,
"Cost ($)": costs_tco1 + costs_tco2,
"AI model service": [dropdown] * len(request_ranges) + [dropdown2] * len(request_ranges)
}
)
return gr.LinePlot.update(data, x="Number of requests", y="Cost ($)",color="AI model service",color_legend_position="bottom", title="Total Cost of Model Serving for one month", height=300, width=500, tooltip=["Number of requests", "Cost ($)", "AI model service"])
light_grey = Color(
name="light_grey",
c50="#e0e0e0",
c100="#e0e0e0",
c200="#e0e0e0",
c300="#e0e0e0",
c400="#e0e0e0",
c500="#e0e0e0",
c600="#e0e0e0",
c700="#e0e0e0",
c800="#e0e0e0",
c900="#e0e0e0",
c950="#e0e0e0",
)
class Style(Base):
def __init__(
self,
*,
primary_hue: colors.Color | str = light_grey,
secondary_hue: colors.Color | str = light_grey,
neutral_hue: colors.Color | str = light_grey,
spacing_size: sizes.Size | str = sizes.spacing_md,
radius_size: sizes.Size | str = sizes.radius_md,
text_size: sizes.Size | str = sizes.text_md,
font: fonts.Font
| str
| Iterable[fonts.Font | str] = (fonts.GoogleFont("Sora")),
font_mono: fonts.Font
| str
| Iterable[fonts.Font | str] = (fonts.GoogleFont("Sora")),
):
super().__init__(
primary_hue=primary_hue,
secondary_hue=secondary_hue,
neutral_hue=neutral_hue,
spacing_size=spacing_size,
radius_size=radius_size,
text_size=text_size,
font=font,
font_mono=font_mono,
)
super().set(
background_fill_primary="#050f19", #The color of the background of blocks
background_fill_secondary="#050f19",
block_background_fill="#050f19", #The color of the background of blocks
block_background_fill_dark="#050f19",
border_color_primary="#050f19", #The border of a block such as dropdown
border_color_primary_dark="#050f19",
link_text_color="#f0ba2d", #The color for links
link_text_color_dark="#f0ba2d",
block_info_text_color="ffffff",
block_info_text_color_dark="ffffff",
block_border_color="#050f19", #The border color around an item (e.g. Accordion)
block_border_color_dark="#050f19",
block_shadow="*shadow_drop_lg",
#form_gap_width="*spacing_md", #The border gap between form elements, (e.g. consecutive textboxes)
input_background_fill="#081527", #The background of an input field
input_background_fill_dark="#081527",
input_border_color="#050f19",
input_border_color_dark="#050f19",
input_border_width="2px",
block_label_background_fill="#f0ba2d",
block_label_background_fill_dark="#f0ba2d",
block_label_border_color=None,
block_label_border_color_dark=None,
block_label_text_color="#050f19",
block_label_text_color_dark="#050f19",
button_primary_background_fill="#ffffff",
button_primary_border_color="#ffffff",
button_primary_text_color="#050f19",
button_shadow="*shadow_drop_lg",
block_title_background_fill="#f0ba2d", #The background of the title of a form element (e.g. textbox).
block_title_background_fill_dark="#f0ba2d",
block_title_radius="*radius_sm",#The corner radius of the title of a form element (e.g. textbox).
block_title_text_color="#050f19", #The text color of the title of a form element (e.g. textbox).
block_title_text_color_dark="#050f19",
block_title_text_size="*text_lg",
block_title_border_width="2px", #The border around the title of a form element (e.g. textbox)
block_title_border_width_dark="2px",
block_title_border_color="#f0ba2d",
block_title_border_color_dark="#f0ba2d",
body_background_fill="#050f19",
body_background_fill_dark="#050f19",
body_text_color="#ffffff", #The default text color.
body_text_color_dark="#ffffff",
body_text_color_subdued="#ffffff",
body_text_color_subdued_dark="#ffffff",
slider_color="*secondary_300",
slider_color_dark="*secondary_600",
)
style = Style()
with gr.Blocks(theme=style) as demo:
Models: list[models.BaseTCOModel] = [models.OpenAIModel, models.CohereModel, models.OpenSourceLlama2Model]
model_names = [Model().get_name() for Model in Models]
gr.Markdown(value=text)
gr.Markdown(value=description)
with gr.Row():
with gr.Column():
# with gr.Row():
# gr.Markdown(value=text0)
with gr.Row():
use_case = gr.Dropdown(["Summarize", "Question-Answering", "Classification"], value="Question-Answering", label=" Describe your use case ")
with gr.Accordion("Click here if you want to customize the number of input and output tokens per request", open=False):
with gr.Row():
input_tokens = gr.Slider(minimum=1, maximum=1000, value=300, step=1, label=" Input tokens per request", info="We suggest a value that we believe best suit your use case choice but feel free to adjust", interactive=True)
output_tokens = gr.Slider(minimum=1, maximum=1000, value=300, step=1, label=" Output tokens per request", info="We suggest a value that we believe best suit your use case choice but feel free to adjust", interactive=True)
with gr.Row(visible=False):
num_users = gr.Number(value="1000", interactive = True, label=" Number of users for your service ")
use_case.change(on_use_case_change, inputs=use_case, outputs=[input_tokens, output_tokens])
with gr.Row():
with gr.Column():
#gr.Markdown(value=text1)
page1 = models.ModelPage(Models)
dropdown = gr.Dropdown(model_names, interactive=True, label=" First AI service option ")
with gr.Accordion("Click here for more information on the computation parameters for your first AI service option", open=False):
page1.render()
with gr.Column():
#gr.Markdown(value=text2)
page2 = models.ModelPage(Models)
dropdown2 = gr.Dropdown(model_names, interactive=True, label=" Second AI service option ")
with gr.Accordion("Click here for more information on the computation parameters for your second AI service option", open=False):
page2.render()
dropdown.change(page1.make_model_visible, inputs=[dropdown, use_case], outputs=page1.get_all_components())
dropdown2.change(page2.make_model_visible, inputs=[dropdown2, use_case], outputs=page2.get_all_components())
#gr.Markdown(value=text3)
compute_tco_btn = gr.Button("Compute & Compare", size="lg", variant="primary", scale=1)
tco1 = gr.State()
tco2 = gr.State()
labor_cost1 = gr.State()
labor_cost2 = gr.State()
with gr.Row():
with gr.Column():
tco_output = gr.Text("Cost/request 1: ", label=" Cost/request for the first option ", info="This is only the infrastructure cost per request for deployment, the labor cost still has to be added for a Total Cost of Model Serving")
latency_info = gr.Markdown()
with gr.Accordion("Click here to see the formula", open=False):
tco_formula = gr.Markdown()
with gr.Column():
tco_output2 = gr.Text("Cost/request 2: ", label=" Cost/request for the second option ", info="This is only the infrastructure cost per request for deployment, the labor cost still has to be added for a Total Cost of Model Serving")
latency_info2 = gr.Markdown()
with gr.Accordion("Click here to see the formula", open=False):
tco_formula2 = gr.Markdown()
with gr.Row():
with gr.Column(scale=1):
ratio = gr.Text("Comparison: ", label=" Comparison of cost/request and TCOs")
with gr.Column(scale=3):
plot = gr.LinePlot()
compute_tco_btn.click(page1.compute_cost_per_token, inputs=page1.get_all_components_for_cost_computing() + [dropdown, input_tokens, output_tokens], outputs=[tco_output, tco1, tco_formula, latency_info, labor_cost1]).then(page2.compute_cost_per_token, inputs=page2.get_all_components_for_cost_computing() + [dropdown2, input_tokens, output_tokens], outputs=[tco_output2, tco2, tco_formula2, latency_info2, labor_cost2]).then(compare, inputs=[tco1, tco2, labor_cost1, labor_cost2, dropdown, dropdown2], outputs=ratio).then(update_plot, inputs=[tco1, tco2, dropdown, dropdown2, labor_cost1, labor_cost2], outputs=plot)
demo.launch(debug=True)