Overview
This model, elucidator8918/apigen-prototype-0.1, is tailored for API generation, based on the Mistral-7B-Instruct-v0.1-sharded architecture fine-tuned on the LLAMA-2 Instruct 121k Code dataset.
Key Information
- Model Name: Mistral-7B-Instruct-v0.1-sharded
- Fine-tuned Model Name: elucidator8918/apigen-prototype-0.1
- Dataset: emre/llama-2-instruct-121k-code
- Language: English (en)
Model Details
LoRA Parameters (QLoRA):
- LoRA attention dimension: 64
- Alpha parameter for LoRA scaling: 16
- Dropout probability for LoRA layers: 0.1
bitsandbytes Parameters:
- Activate 4-bit precision base model loading
- Compute dtype for 4-bit base models: float16
- Quantization type: nf4
- Activate nested quantization for 4-bit base models: No
TrainingArguments Parameters:
- Number of training epochs: 1
- Batch size per GPU for training: 4
- Batch size per GPU for evaluation: 4
- Gradient accumulation steps: 1
- Enable gradient checkpointing: Yes
- Maximum gradient norm: 0.3
- Initial learning rate: 2e-4
- Weight decay: 0.001
- Optimizer: paged_adamw_32bit
- Learning rate scheduler type: cosine
- Warm-up ratio: 0.03
- Group sequences into batches with the same length: Yes
Usage
- Example Code (API Generation):
from transformers import pipeline
api_gen_pipeline = pipeline("text-generation", model="elucidator8918/apigen-prototype-0.1")
# Run text generation pipeline with our next model
prompt = "Write code to do a POST request in FastAPI framework to find the multiplication of two matrices using NumPy"
pipe = pipeline(task="text-generation", model=model, tokenizer=tokenizer, max_length=500)
result = pipe(f"[INST] {prompt} [/INST]")
print(result[0]['generated_text'])
- Output API Generation:
[INST] Write code to do a POST request in fastapi framework to find the multiplication of two matrices using numpy [/INST]
Below is an example of how to make a POST request in FastAPI to find the multiplication of two matrices using numpy:
from fastapi import FastAPI, HTTPException
import numpy as np
app = FastAPI()
@app.post("/matrix_multiplication")
async def matrix_multiplication(matrix1: np.ndarray, matrix2: np.ndarray):
if matrix1.shape[1]!= matrix2.shape[0]:
raise HTTPException(status_code=400, detail="The number of columns in matrix1 must be equal to the number of rows in matrix2")
result = np.matmul(matrix1, matrix2)
return {"result": result}
This code defines a FastAPI endpoint at /matrix_multiplication
that takes two matrices as input and returns the multiplication of the two matrices. The np.matmul
function is used to perform the multiplication. The endpoint also includes a check to ensure that the number of columns in the first matrix is equal to the number of rows in the second matrix.
To use this endpoint, you can make a POST request to http://localhost:8000/matrix_multiplication
with the two matrices as input. The response will include the multiplication of the two matrices.
import requests
matrix1 = np.array([[1, 2], [3, 4]])
matrix2 = np.array([[5, 6], [7, 8]])
response = requests.post("http://localhost:8000/matrix_multiplication", json={"matrix1": matrix1, "matrix2": matrix2})
print(response.json())
This code makes a POST request to the endpoint with the two matrices as input and prints the response. The response should include the multiplication of the two matrices, which is [[11, 14], [29, 36]]
.
License
This model is released under the MIT License.
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