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---
license: openrail
pipeline_tag: text-generation
library_name: transformers
language:
- zh
- en
---
## Original model card
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#### Description
GGUF Format model files for [This project](https://huggingface.co/NeuralNovel/Mistral-7B-Instruct-v0.2-Neural-Story).
### GGUF Specs
GGUF is a format based on the existing GGJT, but makes a few changes to the format to make it more extensible and easier to use. The following features are desired:
Single-file deployment: they can be easily distributed and loaded, and do not require any external files for additional information.
Extensible: new features can be added to GGML-based executors/new information can be added to GGUF models without breaking compatibility with existing models.
mmap compatibility: models can be loaded using mmap for fast loading and saving.
Easy to use: models can be easily loaded and saved using a small amount of code, with no need for external libraries, regardless of the language used.
Full information: all information needed to load a model is contained in the model file, and no additional information needs to be provided by the user.
The key difference between GGJT and GGUF is the use of a key-value structure for the hyperparameters (now referred to as metadata), rather than a list of untyped values.
This allows for new metadata to be added without breaking compatibility with existing models, and to annotate the model with additional information that may be useful for
inference or for identifying the model.
### inference
User: Tell me story about what is an quantization and what do we need to build.
Assistant: I'd be happy to help explain the concept of quantization, which is a crucial step in digital signal processing and multimedia applications like sound synthesis and compression.
Quantization refers to the process of converting continuously variable data into a discrete form. In simpler terms, it is about reducing the precision of data while retaining essential information. This is necessary because most digital systems can only process data in discrete levels or 'buckets.'
Let's take an example of analog-to-digital conversion (ADC), which is a common application of quantization. Analog signals
# Original model card