metadata
datasets:
- arxiv
widget:
- text: >-
summarize: We describe a system called Overton, whose main design goal is
to support engineers in building, monitoring, and improving production
machinelearning systems. Key challenges engineers face are monitoring
fine-grained quality, diagnosing errors in sophisticated applications,
and handling contradictory or incomplete supervision data. Overton
automates the life cycle of model construction, deployment, and monitoring
by providing a set of novel high-level, declarative abstractions.
Overton's vision is to shift developers to these higher-level tasks
instead of lower-level machine learning tasks. In fact, using Overton,
engineers can build deep-learning-based applications without writing any
code in frameworks like TensorFlow. For over a year, Overton has been
used in production to support multiple applications in both near-real-time
applications and back-of-house processing. In that time, Overton-based
applications have answered billions of queries in multiple languages and
processed trillions of records reducing errors 1.7-2.9 times versus
production systems.
license: mit
T5 One Line Summary
A T5 model trained on 370,000 research papers, to generate one line summary based on description/abstract of the papers. It is trained using simpleT5 library - A python package built on top of pytorch lightning⚡️ & transformers🤗 to quickly train T5 models
Usage:
abstract = """We describe a system called Overton, whose main design goal is to support engineers in building, monitoring, and improving production
machine learning systems. Key challenges engineers face are monitoring fine-grained quality, diagnosing errors in sophisticated applications, and
handling contradictory or incomplete supervision data. Overton automates the life cycle of model construction, deployment, and monitoring by providing a
set of novel high-level, declarative abstractions. Overton's vision is to shift developers to these higher-level tasks instead of lower-level machine learning tasks.
In fact, using Overton, engineers can build deep-learning-based applications without writing any code in frameworks like TensorFlow. For over a year,
Overton has been used in production to support multiple applications in both near-real-time applications and back-of-house processing. In that time,
Overton-based applications have answered billions of queries in multiple languages and processed trillions of records reducing errors 1.7-2.9 times versus production systems.
"""
Using Transformers🤗
model_name = "snrspeaks/t5-one-line-summary"
from transformers import AutoModelForSeq2SeqLM, AutoTokenizer
model = AutoModelForSeq2SeqLM.from_pretrained(model_name)
tokenizer = AutoTokenizer.from_pretrained(model_name)
input_ids = tokenizer.encode("summarize: " + abstract, return_tensors="pt", add_special_tokens=True)
generated_ids = model.generate(input_ids=input_ids,num_beams=5,max_length=50,repetition_penalty=2.5,length_penalty=1,early_stopping=True,num_return_sequences=3)
preds = [tokenizer.decode(g, skip_special_tokens=True, clean_up_tokenization_spaces=True) for g in generated_ids]
print(preds)
# output
["Overton: Building, Deploying, and Monitoring Machine Learning Systems for Engineers",
"Overton: A System for Building, Monitoring, and Improving Production Machine Learning Systems",
"Overton: Building, Monitoring, and Improving Production Machine Learning Systems"]
Using simpleT5⚡️
# pip install --upgrade simplet5
from simplet5 import SimpleT5
model = SimpleT5()
model.load_model("t5","snrspeaks/t5-one-line-summary")
model.predict(abstract)
# output
"Overton: Building, Deploying, and Monitoring Machine Learning Systems for Engineers"