Faro-Yi-9B / README.md
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metadata
license: mit
datasets:
  - wenbopan/Fusang-v1
  - wenbopan/OpenOrca-zh-20k
language:
  - zh
  - en

image/webp

The Faro chat model focuses on practicality and long-context modeling. It handles various downstream tasks with higher quality, delivering stable and reliable results even when inputs contain lengthy documents or complex instructions. Faro seamlessly works in both English and Chinese.

Faro-Yi-9B-200K

Faro-Yi-9B-200K is an improved Yi-9B-200K with extensive instruction tuning on Fusang-V1. Compared to Yi-9B-200K, Faro-Yi-9B-200K has gained greater capability in various downstream tasks and long-context modeling thanks to the large-scale synthetic data in Fusang-V1.

How to Use

Faro-Yi-9B-200K uses chatml template. This make it easy to set up system prompt and multi-turn conversations. It truly excels when used for analyzing long documents or instructions. I recommend using vLLM for long inputs.

import io
import requests
from PyPDF2 import PdfReader
from vllm import LLM, SamplingParams

llm = LLM(model="wenbopan/Faro-Yi-9B-200K")

pdf_data = io.BytesIO(requests.get("https://arxiv.org/pdf/2303.08774.pdf").content)
document = "".join(page.extract_text() for page in PdfReader(pdf_data).pages) # 100 pages

question = f"{document}\n\nAccording to the paper, what is the parameter count of GPT-4?"
messages = [ {"role": "user", "content": question} ] # 83K tokens
prompt = llm.get_tokenizer().apply_chat_template(messages, add_generation_prompt=True, tokenize=False)
output = llm.generate(prompt, SamplingParams(temperature=0.8, max_tokens=500))
print(output[0].outputs[0].text)
# Yi-9B-200K:      175B. GPT-4 has 175B \nparameters. How many models were combined to create GPT-4? Answer: 6. ...
# Faro-Yi-9B-200K: GPT-4 does not have a publicly disclosed parameter count due to the competitive landscape and safety implications of large-scale models like GPT-4. ...
Or With Transformers
from transformers import AutoModelForCausalLM, AutoTokenizer

model = AutoModelForCausalLM.from_pretrained('wenbopan/Faro-Yi-9B-200K', device_map="cuda")
tokenizer = AutoTokenizer.from_pretrained('wenbopan/Faro-Yi-9B-200K')
messages = [
    {"role": "system", "content": "You are a helpful assistant. Always answer with a short response."},
    {"role": "user", "content": "Tell me what is Pythagorean theorem like you are a pirate."}
]
input_ids = tokenizer.apply_chat_template(messages, tokenize=True, add_generation_prompt=True, return_tensors="pt").to(model.device)
generated_ids = model.generate(input_ids, max_new_tokens=512, temperature=0.5)
response = tokenizer.decode(generated_ids[0], skip_special_tokens=True) # Aye, matey! The Pythagorean theorem is a nautical rule that helps us find the length of the third side of a triangle. ...

With

Performance

Faro-Yi-9B enhances its ability compared to Yi-9B-200K in most dimensions, especially in long-range modeling and bilingual (English, Chinese) understanding. Faro is competitive among all open-sourced models at around 9B parameters.

Benchmark Results

Fact-based Evaluation (Open LLM Leaderboard)

Metric MMLU GSM8K HellaSwag TruthfulQA Arc Winogrande
Yi-9B-200K 65.73 50.49 56.72 33.80 69.25 71.67
Faro-Yi-9B 68.80 63.08 57.28 40.86 72.58 71.11

Long-context Modeling (LongBench)

Name Average_zh Average_en Code Completion
Yi-9B-200K 30.288 36.7071 72.2
Faro-Yi-9B 41.092 40.9536 46.0
Score breakdown
Name Few-shot Learning_en Synthetic Tasks_en Single-Doc QA_en Multi-Doc QA_en Summarization_en Few-shot Learning_zh Synthetic Tasks_zh Single-Doc QA_zh Multi-Doc QA_zh Summarization_zh
Yi-9B-200K 60.6 22.8 30.9 38.9 25.8 46.5 28.0 49.6 17.7 9.7
Faro-Yi-9B 63.8 40.2 36.2 38.0 26.3 30.0 75.1 55.6 30.7 14.1

Performance on Preference (MT-Bench)

image/png

Bilingual Ability (CMMLU & MMLU)

Name MMLU CMMLU
Yi-9B-200K 65.73 71.97
Faro-Yi-9B 68.80 73.28