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QuantFactory/pip-sql-1.3b-GGUF

This is quantized version of PipableAI/pip-sql-1.3b created using llama.cpp

Original Model Card

pipSQL-1.3b

pipableAi

colab_notebook

What have we built?

A 1.3 bn SQL model that outperforms most SQL expert models and chatgpt on popular benchmarks. This is a distilled model built on the deepseek base model. Please refer to https://huggingface.co/PipableAI/pip-library-etl-1.3b for our state of the art model.

How we built it?

We used softmax cross entropy and a modified form of policy grad along with Q loss, optimized in an EM set up. Loss behaviour in the set up mentioned above -

image/png

Benchmarking :

For benchmarking purposes we are using Semantic Evaluation for Text-to-SQL with Distilled Test Suites, an officially accepted evaluation framework for Spider, SParC, and CoSQL which was proposed by a research team of Yale and Berkeley. The benchmark contains 2200 test data points Here is the link to run the evaluation:

Test Suite SQL Eval

model easy medium hard extra
sqlcoder-7b-2 72.0 58.0 40.6 37.3
pipSQL-1.3b 78.5 57.5 42.1 28.3
pipSQL-7b 63.0 40.0 30.2 25.0
sqlcoder-7b 60.6 48.2 28.3 20.4
gpt-3.5 58.8 44.7 31.0 28.4

We have also benchmarked it on defog eval. It contains 200 test data points handpicked by defog team. Here is the link to it:

Defog SQL-Eval These are the results -

image/png

License

The model is open source under apache 2.0. License

Usage

Installation

pip install transformers

Prompt

prompt = f"""<schema>{schema}</schema>
<question>{question}</question>
<sql>"""

PyTorch

from transformers import AutoModelForCausalLM, AutoTokenizer
device = "cuda"
model = AutoModelForCausalLM.from_pretrained("PipableAI/pip-sql-1.3b")
tokenizer = AutoTokenizer.from_pretrained("PipableAI/pip-sql-1.3b")

inputs = tokenizer(text, return_tensors="pt")
outputs = model.generate(**inputs, max_new_tokens=200)
print(tokenizer.decode(outputs[0], skip_special_tokens=True).split('<sql>')[1].split('</sql>')[0])

Flax

from transformers import FlaxAutoModelForCausalLM, AutoTokenizer
device = "cuda"
model = FlaxAutoModelForCausalLM.from_pretrained("PipableAI/pip-sql-1.3b",from_pt=True)
tokenizer = AutoTokenizer.from_pretrained("PipableAI/pip-sql-1.3b")

inputs = tokenizer(text, return_tensors="jax")
outputs = model.generate(**inputs, max_new_tokens=200)
print(tokenizer.decode(outputs[0], skip_special_tokens=True).split('<sql>')[1].split('</sql>')[0])

Examples

Schema

CREATE TABLE Products (
  product_id number,
  parent_product_id number,
  product_name text,
  product_price number,
  product_color text,
  product_size text,
  product_description text);

CREATE TABLE Customers (
  customer_id number,
  gender_code text,
  customer_first_name text,
  customer_middle_initial text,
  customer_last_name text,
  email_address text,
  login_name text,
  login_password text,
  phone_number text,
  address_line_1 text,
  town_city text,
  county text,
  country text);

CREATE TABLE Customer_Payment_Methods (
  customer_id number,
  payment_method_code text);

CREATE TABLE Invoices (
  invoice_number number,
  invoice_status_code text,
  invoice_date time);

CREATE TABLE Orders (
  order_id number,
  customer_id number,
  order_status_code text,
  date_order_placed time);

CREATE TABLE Order_Items (
  order_item_id number,
  product_id number,
  order_id number,
  order_item_status_code text);

CREATE TABLE Shipments (
  shipment_id number,
  order_id number,
  invoice_number number,
  shipment_tracking_number text,
  shipment_date time);

CREATE TABLE Shipment_Items (
  shipment_id number,
  order_item_id number);

Questions

What are the email address, town and county of the customers who are of the least common gender?

SELECT email_address ,  town_city ,  county FROM customers GROUP BY gender_code ORDER BY count(*) ASC LIMIT 1

What are the product price and the product size of the products whose price is above average?

SELECT product_price ,  product_size FROM products WHERE product_price  > (SELECT avg(product_price) FROM products)

Which customers did not make any orders? List the first name, middle initial and last name.

SELECT T1.customer_first_name ,  T1.customer_middle_initial ,  T1.customer_last_name FROM Customers AS T1 WHERE T1.customer_id NOT IN (SELECT T2.customer_id FROM Orders AS T2)

Team

Avi Kothari, Pratham Gupta, Ritvik Aryan Kalra, Rohan Bhatial, Soham Acharya

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Dataset used to train QuantFactory/pip-sql-1.3b-GGUF