all-gguf-same-where

Sleeping

App Files Files Community

all-gguf-same-where / app.py

matrixportal

Update app.py

9cace94 verified 3 months ago

raw

history blame

21.6 kB

	import os
	import subprocess
	import signal
	os.environ["GRADIO_ANALYTICS_ENABLED"] = "False"
	import gradio as gr
	import tempfile

	from huggingface_hub import HfApi, ModelCard, whoami
	from gradio_huggingfacehub_search import HuggingfaceHubSearch
	from pathlib import Path
	from textwrap import dedent
	from apscheduler.schedulers.background import BackgroundScheduler


	# used for restarting the space
	HF_TOKEN = os.environ.get("HF_TOKEN")
	CONVERSION_SCRIPT = "./llama.cpp/convert_hf_to_gguf.py"

	# escape HTML for logging
	def escape(s: str) -> str:
	s = s.replace("&", "&") # Must be done first!
	s = s.replace("<", "<")
	s = s.replace(">", ">")
	s = s.replace('"', """)
	s = s.replace("\n", "<br/>")
	return s

	def generate_importance_matrix(model_path: str, train_data_path: str, output_path: str):
	imatrix_command = [
	"./llama.cpp/llama-imatrix",
	"-m", model_path,
	"-f", train_data_path,
	"-ngl", "99",
	"--output-frequency", "10",
	"-o", output_path,
	]

	if not os.path.isfile(model_path):
	raise Exception(f"Model file not found: {model_path}")

	print("Running imatrix command...")
	process = subprocess.Popen(imatrix_command, shell=False)

	try:
	process.wait(timeout=60) # added wait
	except subprocess.TimeoutExpired:
	print("Imatrix computation timed out. Sending SIGINT to allow graceful termination...")
	process.send_signal(signal.SIGINT)
	try:
	process.wait(timeout=5) # grace period
	except subprocess.TimeoutExpired:
	print("Imatrix proc still didn't term. Forecfully terming process...")
	process.kill()

	print("Importance matrix generation completed.")

	def split_upload_model(model_path: str, outdir: str, repo_id: str, oauth_token: gr.OAuthToken \| None, split_max_tensors=256, split_max_size=None):
	print(f"Model path: {model_path}")
	print(f"Output dir: {outdir}")

	if oauth_token.token is None:
	raise ValueError("You have to be logged in.")

	split_cmd = [
	"./llama.cpp/llama-gguf-split",
	"--split",
	]
	if split_max_size:
	split_cmd.append("--split-max-size")
	split_cmd.append(split_max_size)
	else:
	split_cmd.append("--split-max-tensors")
	split_cmd.append(str(split_max_tensors))

	# args for output
	model_path_prefix = '.'.join(model_path.split('.')[:-1]) # remove the file extension
	split_cmd.append(model_path)
	split_cmd.append(model_path_prefix)

	print(f"Split command: {split_cmd}")

	result = subprocess.run(split_cmd, shell=False, capture_output=True, text=True)
	print(f"Split command stdout: {result.stdout}")
	print(f"Split command stderr: {result.stderr}")

	if result.returncode != 0:
	stderr_str = result.stderr.decode("utf-8")
	raise Exception(f"Error splitting the model: {stderr_str}")
	print("Model split successfully!")

	# remove the original model file if needed
	if os.path.exists(model_path):
	os.remove(model_path)

	model_file_prefix = model_path_prefix.split('/')[-1]
	print(f"Model file name prefix: {model_file_prefix}")
	sharded_model_files = [f for f in os.listdir(outdir) if f.startswith(model_file_prefix) and f.endswith(".gguf")]
	if sharded_model_files:
	print(f"Sharded model files: {sharded_model_files}")
	api = HfApi(token=oauth_token.token)
	for file in sharded_model_files:
	file_path = os.path.join(outdir, file)
	print(f"Uploading file: {file_path}")
	try:
	api.upload_file(
	path_or_fileobj=file_path,
	path_in_repo=file,
	repo_id=repo_id,
	)
	except Exception as e:
	raise Exception(f"Error uploading file {file_path}: {e}")
	else:
	raise Exception("No sharded files found.")

	print("Sharded model has been uploaded successfully!")

	def process_model(model_id, q_method, use_imatrix, imatrix_q_method, private_repo, train_data_file, split_model, split_max_tensors, split_max_size, oauth_token: gr.OAuthToken \| None):
	if oauth_token is None or oauth_token.token is None:
	raise ValueError("You must be logged in to use GGUF-my-repo")
	model_name = model_id.split('/')[-1]

	try:
	api = HfApi(token=oauth_token.token)

	dl_pattern = [".md", ".json", "*.model"]

	pattern = (
	"*.safetensors"
	if any(
	file.path.endswith(".safetensors")
	for file in api.list_repo_tree(
	repo_id=model_id,
	recursive=True,
	)
	)
	else "*.bin"
	)

	dl_pattern += [pattern]

	if not os.path.exists("downloads"):
	os.makedirs("downloads")

	if not os.path.exists("outputs"):
	os.makedirs("outputs")

	with tempfile.TemporaryDirectory(dir="outputs") as outdir:
	fp16 = str(Path(outdir)/f"{model_name}.fp16.gguf")

	with tempfile.TemporaryDirectory(dir="downloads") as tmpdir:
	# Keep the model name as the dirname so the model name metadata is populated correctly
	local_dir = Path(tmpdir)/model_name
	print(local_dir)
	api.snapshot_download(repo_id=model_id, local_dir=local_dir, local_dir_use_symlinks=False, allow_patterns=dl_pattern)
	print("Model downloaded successfully!")
	print(f"Current working directory: {os.getcwd()}")
	print(f"Model directory contents: {os.listdir(local_dir)}")

	config_dir = local_dir/"config.json"
	adapter_config_dir = local_dir/"adapter_config.json"
	if os.path.exists(adapter_config_dir) and not os.path.exists(config_dir):
	raise Exception('adapter_config.json is present.<br/><br/>If you are converting a LoRA adapter to GGUF, please use <a href="https://huggingface.co/spaces/ggml-org/gguf-my-lora" target="_blank" style="text-decoration:underline">GGUF-my-lora</a>.')

	result = subprocess.run([
	"python", CONVERSION_SCRIPT, local_dir, "--outtype", "f16", "--outfile", fp16
	], shell=False, capture_output=True)
	print(result)
	if result.returncode != 0:
	stderr_str = result.stderr.decode("utf-8")
	raise Exception(f"Error converting to fp16: {stderr_str}")
	print("Model converted to fp16 successfully!")
	print(f"Converted model path: {fp16}")

	imatrix_path = Path(outdir)/"imatrix.dat"

	if use_imatrix:
	if train_data_file:
	train_data_path = train_data_file.name
	else:
	train_data_path = "llama.cpp/groups_merged.txt" #fallback calibration dataset

	print(f"Training data file path: {train_data_path}")

	if not os.path.isfile(train_data_path):
	raise Exception(f"Training data file not found: {train_data_path}")

	generate_importance_matrix(fp16, train_data_path, imatrix_path)
	else:
	print("Not using imatrix quantization.")

	# Quantize the model
	quantized_gguf_name = f"{model_name.lower()}-{imatrix_q_method.lower()}-imat.gguf" if use_imatrix else f"{model_name.lower()}-{q_method.lower()}.gguf"
	quantized_gguf_path = str(Path(outdir)/quantized_gguf_name)
	if use_imatrix:
	quantise_ggml = [
	"./llama.cpp/llama-quantize",
	"--imatrix", imatrix_path, fp16, quantized_gguf_path, imatrix_q_method
	]
	else:
	quantise_ggml = [
	"./llama.cpp/llama-quantize",
	fp16, quantized_gguf_path, q_method
	]
	result = subprocess.run(quantise_ggml, shell=False, capture_output=True)
	if result.returncode != 0:
	stderr_str = result.stderr.decode("utf-8")
	raise Exception(f"Error quantizing: {stderr_str}")
	print(f"Quantized successfully with {imatrix_q_method if use_imatrix else q_method} option!")
	print(f"Quantized model path: {quantized_gguf_path}")

	# Create empty repo
	username = whoami(oauth_token.token)["name"]
	new_repo_url = api.create_repo(repo_id=f"{username}/{model_name}-GGUF", exist_ok=True, private=private_repo)
	new_repo_id = new_repo_url.repo_id
	print("Repo created successfully!", new_repo_url)

	try:
	card = ModelCard.load(model_id, token=oauth_token.token)
	except:
	card = ModelCard("")
	if card.data.tags is None:
	card.data.tags = []
	card.data.tags.append("llama-cpp")
	card.data.tags.append("matrixportal")
	card.data.base_model = model_id

	card.text = dedent(
	f"""
	# {new_repo_id}
	This model was converted to GGUF format from [`{model_id}`](https://huggingface.co/{model_id}) using llama.cpp via the ggml.ai's [all-gguf-same-where](https://huggingface.co/spaces/matrixportal/all-gguf-same-where) space.
	Refer to the [original model card](https://huggingface.co/{model_id}) for more details on the model.
	"""
	)
	readme_path = Path(outdir)/"README.md"
	card.save(readme_path)


	# Quant listesi oluşturma
	quant_list = f"""
	## ✅ Quantized Models Download List

	### 🔍 Recommended Quantizations
	- ✨ General CPU Use: [`Q4_K_M`](https://huggingface.co/{new_repo_id}/resolve/main/{model_name.lower()}-q4_k_m.gguf) (Best balance of speed/quality)
	- 📱 ARM Devices: [`Q4_0`](https://huggingface.co/{new_repo_id}/resolve/main/{model_name.lower()}-q4_0.gguf) (Optimized for ARM CPUs)
	- 🏆 Maximum Quality: [`Q8_0`](https://huggingface.co/{new_repo_id}/resolve/main/{model_name.lower()}-q8_0.gguf) (Near-original quality)

	### 📦 Full Quantization Options
	\| 🚀 Download \| 🔢 Type \| 📝 Notes \|
	\|:---------\|:-----\|:------\|
	\| [Download](https://huggingface.co/{new_repo_id}/resolve/main/{model_name.lower()}-q2_k.gguf) \| ![Q2_K](https://img.shields.io/badge/Q2_K-1A73E8) \| Basic quantization \|
	\| [Download](https://huggingface.co/{new_repo_id}/resolve/main/{model_name.lower()}-q3_k_s.gguf) \| ![Q3_K_S](https://img.shields.io/badge/Q3_K_S-34A853) \| Small size \|
	\| [Download](https://huggingface.co/{new_repo_id}/resolve/main/{model_name.lower()}-q3_k_m.gguf) \| ![Q3_K_M](https://img.shields.io/badge/Q3_K_M-FBBC05) \| Balanced quality \|
	\| [Download](https://huggingface.co/{new_repo_id}/resolve/main/{model_name.lower()}-q3_k_l.gguf) \| ![Q3_K_L](https://img.shields.io/badge/Q3_K_L-4285F4) \| Better quality \|
	\| [Download](https://huggingface.co/{new_repo_id}/resolve/main/{model_name.lower()}-q4_0.gguf) \| ![Q4_0](https://img.shields.io/badge/Q4_0-EA4335) \| Fast on ARM \|
	\| [Download](https://huggingface.co/{new_repo_id}/resolve/main/{model_name.lower()}-q4_k_s.gguf) \| ![Q4_K_S](https://img.shields.io/badge/Q4_K_S-673AB7) \| Fast, recommended \|
	\| [Download](https://huggingface.co/{new_repo_id}/resolve/main/{model_name.lower()}-q4_k_m.gguf) \| ![Q4_K_M](https://img.shields.io/badge/Q4_K_M-673AB7) ⭐ \| Best balance \|
	\| [Download](https://huggingface.co/{new_repo_id}/resolve/main/{model_name.lower()}-q5_0.gguf) \| ![Q5_0](https://img.shields.io/badge/Q5_0-FF6D01) \| Good quality \|
	\| [Download](https://huggingface.co/{new_repo_id}/resolve/main/{model_name.lower()}-q5_k_s.gguf) \| ![Q5_K_S](https://img.shields.io/badge/Q5_K_S-0F9D58) \| Balanced \|
	\| [Download](https://huggingface.co/{new_repo_id}/resolve/main/{model_name.lower()}-q5_k_m.gguf) \| ![Q5_K_M](https://img.shields.io/badge/Q5_K_M-0F9D58) \| High quality \|
	\| [Download](https://huggingface.co/{new_repo_id}/resolve/main/{model_name.lower()}-q6_k.gguf) \| ![Q6_K](https://img.shields.io/badge/Q6_K-4285F4) 🏆 \| Very good quality \|
	\| [Download](https://huggingface.co/{new_repo_id}/resolve/main/{model_name.lower()}-q8_0.gguf) \| ![Q8_0](https://img.shields.io/badge/Q8_0-EA4335) ⚡ \| Fast, best quality \|
	\| [Download](https://huggingface.co/{new_repo_id}/resolve/main/{model_name.lower()}-f16.gguf) \| ![F16](https://img.shields.io/badge/F16-000000) \| Maximum accuracy \|

	💡 Tip: Use `F16` for maximum precision when quality is critical

	# GGUF Model Quantization & Usage Guide with llama.cpp

	## What is GGUF and Quantization?

	GGUF (GPT-Generated Unified Format) is an efficient model file format developed by the `llama.cpp` team that:
	- Supports multiple quantization levels
	- Works cross-platform
	- Enables fast loading and inference

	Quantization converts model weights to lower precision data types (e.g., 4-bit integers instead of 32-bit floats) to:
	- Reduce model size
	- Decrease memory usage
	- Speed up inference
	- (With minor accuracy trade-offs)

	## Step-by-Step Guide

	### 1. Prerequisites

	```bash
	# System updates
	sudo apt update && sudo apt upgrade -y

	# Dependencies
	sudo apt install -y build-essential cmake python3-pip

	# Clone and build llama.cpp
	git clone https://github.com/ggerganov/llama.cpp
	cd llama.cpp
	make -j4
	```

	### 2. Using Quantized Models from Hugging Face

	My automated quantization script produces models in this format:
	```
	https://huggingface.co/{new_repo_id}/resolve/main/{model_name.lower()}-q4_k_m.gguf
	```

	Download your quantized model directly:

	```bash
	wget https://huggingface.co/{new_repo_id}/resolve/main/{model_name.lower()}-q4_k_m.gguf
	```

	### 3. Running the Quantized Model

	Basic usage:
	```bash
	./main -m {model_name.lower()}-q4_k_m.gguf -p "Your prompt here" -n 128
	```

	Example with a creative writing prompt:
	```bash
	./main -m {model_name.lower()}-q4_k_m.gguf \
	-p "[INST] Write a short poem about AI quantization in the style of Shakespeare [/INST]" \
	-n 256 -c 2048 -t 8 --temp 0.7
	```

	Advanced parameters:
	```bash
	./main -m {model_name.lower()}-q4_k_m.gguf \
	-p "Question: What is the GGUF format?\nAnswer:" \
	-n 256 -c 2048 -t 8 --temp 0.7 --top-k 40 --top-p 0.9
	```

	### 4. Python Integration

	Install the Python package:
	```bash
	pip install llama-cpp-python
	```

	Example script:
	```python
	from llama_cpp import Llama

	# Initialize the model
	llm = Llama(
	model_path="{model_name.lower()}-q4_k_m.gguf",
	n_ctx=2048,
	n_threads=8
	)

	# Run inference
	response = llm(
	"[INST] Explain GGUF quantization to a beginner [/INST]",
	max_tokens=256,
	temperature=0.7,
	top_p=0.9
	)

	print(response["choices"][0]["text"])
	```

	## Performance Tips

	1. Hardware Utilization:
	- Set thread count with `-t` (typically CPU core count)
	- Compile with CUDA/OpenCL for GPU support

	2. Memory Optimization:
	- Lower quantization (like q4_k_m) uses less RAM
	- Adjust context size with `-c` parameter

	3. Speed/Accuracy Balance:
	- Higher bit quantization is slower but more accurate
	- Reduce randomness with `--temp 0` for consistent results

	## FAQ

	Q: What quantization levels are available?
	A: Common options include q4_0, q4_k_m, q5_0, q5_k_m, q8_0

	Q: How much performance loss occurs with q4_k_m?
	A: Typically 2-5% accuracy reduction but 4x smaller size

	Q: How to enable GPU support?
	A: Build with `make LLAMA_CUBLAS=1` for NVIDIA GPUs

	## Useful Resources

	1. [llama.cpp GitHub](https://github.com/ggerganov/llama.cpp)
	2. [GGUF Format Specs](https://github.com/ggerganov/ggml/blob/master/docs/gguf.md)
	3. [Hugging Face Model Hub](https://huggingface.co/models)
	"""

	# README'yi güncelle (ModelCard kullanarak)
	card.text += quant_list
	readme_path = Path(outdir)/"README.md"
	card.save(readme_path)

	if split_model:
	split_upload_model(str(quantized_gguf_path), outdir, new_repo_id, oauth_token, split_max_tensors, split_max_size)
	else:
	try:
	print(f"Uploading quantized model: {quantized_gguf_path}")
	api.upload_file(
	path_or_fileobj=quantized_gguf_path,
	path_in_repo=quantized_gguf_name,
	repo_id=new_repo_id,
	)
	except Exception as e:
	raise Exception(f"Error uploading quantized model: {e}")

	if os.path.isfile(imatrix_path):
	try:
	print(f"Uploading imatrix.dat: {imatrix_path}")
	api.upload_file(
	path_or_fileobj=imatrix_path,
	path_in_repo="imatrix.dat",
	repo_id=new_repo_id,
	)
	except Exception as e:
	raise Exception(f"Error uploading imatrix.dat: {e}")

	api.upload_file(
	path_or_fileobj=readme_path,
	path_in_repo="README.md",
	repo_id=new_repo_id,
	)
	print(f"Uploaded successfully with {imatrix_q_method if use_imatrix else q_method} option!")

	# end of the TemporaryDirectory(dir="outputs") block; temporary outputs are deleted here

	return (
	f'<h1>✅ DONE</h1><br/>Find your repo here: <a href="{new_repo_url}" target="_blank" style="text-decoration:underline">{new_repo_id}</a>',
	"llama.png",
	)
	except Exception as e:
	return (f'<h1>❌ ERROR</h1><br/><pre style="white-space:pre-wrap;">{escape(str(e))}</pre>', "error.png")


	css="""/* Custom CSS to allow scrolling */
	.gradio-container {overflow-y: auto;}
	"""
	# Create Gradio interface
	with gr.Blocks(css=css) as demo:
	gr.Markdown("You must be logged in to use GGUF-my-repo.")
	gr.LoginButton(min_width=250)

	model_id = HuggingfaceHubSearch(
	label="Hub Model ID",
	placeholder="Search for model id on Huggingface",
	search_type="model",
	)

	q_method = gr.Dropdown(
	["Q2_K", "Q3_K_S", "Q3_K_M", "Q3_K_L", "Q4_0", "Q4_K_S", "Q4_K_M", "Q5_0", "Q5_K_S", "Q5_K_M", "Q6_K", "Q8_0", "F16"],
	label="Quantization Method",
	info="GGML quantization type",
	value="Q4_K_M",
	filterable=False,
	visible=True
	)

	imatrix_q_method = gr.Dropdown(
	["IQ3_M", "IQ3_XXS", "Q4_0", "Q4_K_M", "Q4_K_S", "IQ4_NL", "IQ4_XS", "Q5_K_M", "Q5_K_S", "Q6_K", "Q8_0", "F16"],
	label="Imatrix Quantization Method",
	info="GGML imatrix quants type",
	value="IQ4_NL",
	filterable=False,
	visible=False
	)

	use_imatrix = gr.Checkbox(
	value=False,
	label="Use Imatrix Quantization",
	info="Use importance matrix for quantization."
	)

	private_repo = gr.Checkbox(
	value=False,
	label="Private Repo",
	info="Create a private repo under your username."
	)

	train_data_file = gr.File(
	label="Training Data File",
	file_types=["txt"],
	visible=False
	)

	split_model = gr.Checkbox(
	value=False,
	label="Split Model",
	info="Shard the model using gguf-split."
	)

	split_max_tensors = gr.Number(
	value=256,
	label="Max Tensors per File",
	info="Maximum number of tensors per file when splitting model.",
	visible=False
	)

	split_max_size = gr.Textbox(
	label="Max File Size",
	info="Maximum file size when splitting model (--split-max-size). May leave empty to use the default. Accepted suffixes: M, G. Example: 256M, 5G",
	visible=False
	)

	def update_visibility(use_imatrix):
	return gr.update(visible=not use_imatrix), gr.update(visible=use_imatrix), gr.update(visible=use_imatrix)

	use_imatrix.change(
	fn=update_visibility,
	inputs=use_imatrix,
	outputs=[q_method, imatrix_q_method, train_data_file]
	)

	iface = gr.Interface(
	fn=process_model,
	inputs=[
	model_id,
	q_method,
	use_imatrix,
	imatrix_q_method,
	private_repo,
	train_data_file,
	split_model,
	split_max_tensors,
	split_max_size,
	],
	outputs=[
	gr.Markdown(label="output"),
	gr.Image(show_label=False),
	],
	title="Create your own GGUF Quants, blazingly fast ⚡!",
	description="The space takes an HF repo as an input, quantizes it and creates a Public repo containing the selected quant under your HF user namespace.",
	api_name=False
	)

	def update_split_visibility(split_model):
	return gr.update(visible=split_model), gr.update(visible=split_model)

	split_model.change(
	fn=update_split_visibility,
	inputs=split_model,
	outputs=[split_max_tensors, split_max_size]
	)

	def restart_space():
	HfApi().restart_space(repo_id="matrixportal/all-gguf-same-where", token=HF_TOKEN, factory_reboot=True)

	scheduler = BackgroundScheduler()
	scheduler.add_job(restart_space, "interval", seconds=21600)
	scheduler.start()

	# Launch the interface
	demo.queue(default_concurrency_limit=1, max_size=5).launch(debug=True, show_api=False)