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---
base_model: google/gemma-2-9b-it
library_name: peft
license: apache-2.0
datasets:
- neo4j/text2cypher-2024v1
language:
- en
pipeline_tag: text2text-generation
tags:
- neo4j
- cypher
- text2cypher
---
# Model Card for Model ID
<!-- Provide a quick summary of what the model is/does. -->
## Model Details
### Model Description
This model serves as a demonstration of how fine-tuning foundational models using the Neo4j-Text2Cypher(2024) Dataset ([link](https://huggingface.co/datasets/neo4j/text2cypher-2024v1)) can enhance performance on the Text2Cypher task.\
Please note, this is part of ongoing research and exploration, aimed at highlighting the dataset's potential rather than a production-ready solution.
**Base model:** google/gemma-2-9b-it \
**Dataset:** neo4j/text2cypher-2024v1
An overview of the finetuned models and benchmarking results are shared at [Link](TODO Link to Blogposts)
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<!-- ### Model Sources [optional]
<!-- Provide the basic links for the model. -->
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<!-- ## Uses -->
<!-- Address questions around how the model is intended to be used, including the foreseeable users of the model and those affected by the model. -->
<!-- ### Direct Use -->
<!-- This section is for the model use without fine-tuning or plugging into a larger ecosystem/app. -->
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<!-- ### Downstream Use [optional] -->
<!-- This section is for the model use when fine-tuned for a task, or when plugged into a larger ecosystem/app -->
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<!-- ### Out-of-Scope Use
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<!-- This section addresses misuse, malicious use, and uses that the model will not work well for. -->
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## Bias, Risks, and Limitations
<!-- This section is meant to convey both technical and sociotechnical limitations. -->
We need to be cautious about a few risks:
* In our evaluation setup, the training and test sets come from the same data distribution (sampled from a larger dataset). If the data distribution changes, the results may not follow the same pattern.
* The datasets used were gathered from publicly available sources. Over time, foundational models may access both the training and test sets, potentially achieving similar or even better results.
Also check the related blogpost:[Link](TODO Link to Blogposts)
<!-- ### Recommendations -->
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<!-- ## How to Get Started with the Model
Use the code below to get started with the model.
[More Information Needed] -->
## Training Details
<!-- ### Training Data -->
<!-- This should link to a Dataset Card, perhaps with a short stub of information on what the training data is all about as well as documentation related to data pre-processing or additional filtering. -->
<!-- [More Information Needed]-->
### Training Procedure
<!-- This relates heavily to the Technical Specifications. Content here should link to that section when it is relevant to the training procedure. -->
Used RunPod with following setup:
* 1 x A100 PCIe
* 31 vCPU 117 GB RAM
* runpod/pytorch:2.4.0-py3.11-cuda12.4.1-devel-ubuntu22.04
* On-Demand - Secure Cloud
* 60 GB Disk
* 60 GB Pod Volume
<!-- * ~16 hours
* $30 -->
<!-- #### Preprocessing [optional]
[More Information Needed]
-->
#### Training Hyperparameters
<!-- - **Training regime:** -->
<!--fp32, fp16 mixed precision, bf16 mixed precision, bf16 non-mixed precision, fp16 non-mixed precision, fp8 mixed precision -->
* lora_config = LoraConfig(
r=64,
lora_alpha=64,
target_modules=target_modules,
lora_dropout=0.05,
bias="none",
task_type="CAUSAL_LM",
)
* sft_config = SFTConfig(
dataset_text_field=dataset_text_field,
per_device_train_batch_size=4,
gradient_accumulation_steps=8,
dataset_num_proc=16,
max_seq_length=1600,
logging_dir="./logs",
num_train_epochs=1,
learning_rate=2e-5,
save_steps=5,
save_total_limit=1,
logging_steps=5,
output_dir="outputs",
optim="paged_adamw_8bit",
save_strategy="steps",
)
* bnb_config = BitsAndBytesConfig(
load_in_4bit=True,
bnb_4bit_use_double_quant=True,
bnb_4bit_quant_type="nf4",
bnb_4bit_compute_dtype=torch.bfloat16,
)
<!-- #### Speeds, Sizes, Times [optional] -->
<!-- This section provides information about throughput, start/end time, checkpoint size if relevant, etc. -->
<!-- [More Information Needed] -->
<!-- ## Evaluation -->
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<!-- ### Testing Data, Factors & Metrics -->
<!-- #### Testing Data -->
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<!-- [More Information Needed] -->
<!-- #### Factors -->
<!-- These are the things the evaluation is disaggregating by, e.g., subpopulations or domains. -->
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#### Metrics -->
<!-- These are the evaluation metrics being used, ideally with a description of why. -->
<!-- [More Information Needed]
### Results
[More Information Needed]
#### Summary -->
<!-- ## Model Examination [optional]
-->
<!-- Relevant interpretability work for the model goes here -->
<!-- [More Information Needed]
## Environmental Impact -->
<!-- Total emissions (in grams of CO2eq) and additional considerations, such as electricity usage, go here. Edit the suggested text below accordingly -->
<!-- Carbon emissions can be estimated using the [Machine Learning Impact calculator](https://mlco2.github.io/impact#compute) presented in [Lacoste et al. (2019)](https://arxiv.org/abs/1910.09700).
- **Hardware Type:** [More Information Needed]
- **Hours used:** [More Information Needed]
- **Cloud Provider:** [More Information Needed]
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- **Carbon Emitted:** [More Information Needed]
## Technical Specifications [optional]
### Model Architecture and Objective
[More Information Needed]
### Compute Infrastructure
[More Information Needed]
#### Hardware
[More Information Needed]
#### Software
[More Information Needed]
## Citation [optional]-->
<!-- If there is a paper or blog post introducing the model, the APA and Bibtex information for that should go in this section. -->
<!-- **BibTeX:**
[More Information Needed]
**APA:**
[More Information Needed]
## Glossary [optional] -->
<!-- If relevant, include terms and calculations in this section that can help readers understand the model or model card. -->
<!-- [More Information Needed]
## More Information [optional]
[More Information Needed]
## Model Card Authors [optional]
[More Information Needed]
## Model Card Contact
[More Information Needed] -->
### Framework versions
- PEFT 0.12.0
### Example Cypher generation
```
from peft import PeftModel, PeftConfig
import torch
from transformers import (
AutoModelForCausalLM,
AutoTokenizer,
BitsAndBytesConfig,
)
instruction = (
"Generate Cypher statement to query a graph database. "
"Use only the provided relationship types and properties in the schema. \n"
"Schema: {schema} \n Question: {question} \n Cypher output: "
)
def prepare_chat_prompt(question, schema) -> list[dict]:
chat = [
{
"role": "user",
"content": instruction.format(
schema=schema, question=question
),
}
]
return chat
def _postprocess_output_cypher(output_cypher: str) -> str:
# Remove any explanation. E.g. MATCH...\n\n**Explanation:**\n\n -> MATCH...
# Remove cypher indicator. E.g.```cypher\nMATCH...```` --> MATCH...
# Note: Possible to have both:
# E.g. ```cypher\nMATCH...````\n\n**Explanation:**\n\n --> MATCH...
partition_by = "**Explanation:**"
output_cypher, _, _ = output_cypher.partition(partition_by)
output_cypher = output_cypher.strip("`\n")
output_cypher = output_cypher.lstrip("cypher\n")
output_cypher = output_cypher.strip("`\n ")
return output_cypher
# Model
model_name = "neo4j/text2cypher-gemma-2-9b-it-finetuned-2024v1"
bnb_config = BitsAndBytesConfig(
load_in_4bit=True,
bnb_4bit_use_double_quant=True,
bnb_4bit_quant_type="nf4",
bnb_4bit_compute_dtype=torch.bfloat16,
)
tokenizer = AutoTokenizer.from_pretrained(model_name)
model = AutoModelForCausalLM.from_pretrained(
model_name,
quantization_config=bnb_config,
torch_dtype=torch.bfloat16,
attn_implementation="eager",
low_cpu_mem_usage=True,
)
# Question
question = "What are the movies of Tom Hanks?"
schema = "(:Actor)-[:ActedIn]->(:Movie)"
new_message = prepare_chat_prompt(question=question, schema=schema)
prompt = tokenizer.apply_chat_template(new_message, add_generation_prompt=True, tokenize=False)
inputs = tokenizer(prompt, return_tensors="pt", padding=True)
# Any other parameters
model_generate_parameters = {
"top_p": 0.9,
"temperature": 0.2,
"max_new_tokens": 512,
"do_sample": True,
"pad_token_id": tokenizer.eos_token_id,
}
inputs.to(model.device)
model.eval()
with torch.no_grad():
tokens = model.generate(**inputs, **model_generate_parameters)
tokens = tokens[:, inputs.input_ids.shape[1] :]
raw_outputs = tokenizer.batch_decode(tokens, skip_special_tokens=True)
outputs = [_postprocess_output_cypher(output) for output in raw_outputs]
print(outputs)
> ["MATCH (a:Actor {Name: 'Tom Hanks'})-[:ActedIn]->(m:Movie) RETURN m"]
``` |