LeroyDyer/Mixtral_AI_Cyber_Q_Vision
VisionEncoderDecoderModel is a generic model class that will be instantiated as a transformer architecture with one of the base vision model classes of the library as encoder and another one as decoder when created with the :
# class method for the encoder and :
transformers.AutoModel.from_pretrained
# class method for the decoder.
transformers.AutoModelForCausalLM.from_pretrained
Model Description
This is an experiment in vision - the model has been created as a mistral/VisionEncoder/Decoder
Customized from:
BaseModel:
- Mixtral_AI_Cyber_Matrix_2.0(7b)
Decoder:
- Locutusque/TinyMistral-248M-v2
ImageProcessor:
- ikim-uk-essen/BiomedCLIP_ViT_patch16_224
- Lin-Chen/ShareGPT4V-7B_Pretrained_vit-large336-l12
Encoder:
- google/vit-base-patch16-224-in21k
- Developed by: [LeroyDyer]
- Model type: [image-text-to-image-text]
- Language(s) (NLP): [English]
Summary
This is the model card of a 🤗 transformers model that has been pushed on the Hub. Previous vision models have been 50/50 as the multimodel model actully requires a lot of memory and gpu and harddrive space to create; the past versions have been attempts to Merge the capabilitys into the main mistral model whilst still retaining its mistral tag! After reading many hugging face articles:
The BackBone Issue is the main cause of creating multi modals !:
with the advent of tiny models we are able to leverage the decoder abilitys as a single expert-ish... within the model : by reducing the size to a fully trainined tiny model! this will only produce decodings and not conversations so it needs to be smart and respond with defined answers: but in general it will produce captions: but as domain based it may be specialized in medical or art etc:
The main llm still needs to retain these models within hence the back bone method of instigating a VisionEncoderDecoder model: istead of a llava model which still need wrangling to work correctly without spoiling the original transformers installation: Previous experiments proved that the mistral large model could be used as a decoder but the total model jumped to 13b so the when applying the tiny model it was only effected by the weight of the model 248M
How to Get Started with the Model
VisionEncoderDecoderModel
As a vision encoder model :
the tensors are combined into the original mistral model so it can be accessed by intaciating the correct model which is the VisionEncoderDecoderModel
from transformers import AutoProcessor, VisionEncoderDecoderModel
import requests
from PIL import Image
import torch
processor = AutoProcessor.from_pretrained("LeroyDyer/Mixtral_AI_Cyber_Q_Vision")
model = VisionEncoderDecoderModel.from_pretrained("LeroyDyer/Mixtral_AI_Cyber_Q_Vision")
# load image from the IAM dataset
url = "https://fki.tic.heia-fr.ch/static/img/a01-122-02.jpg"
image = Image.open(requests.get(url, stream=True).raw).convert("RGB")
# training
model.config.decoder_start_token_id = processor.tokenizer.eos_token_id
model.config.pad_token_id = processor.tokenizer.pad_token_id
model.config.vocab_size = model.config.decoder.vocab_size
pixel_values = processor(image, return_tensors="pt").pixel_values
text = "hello world"
labels = processor.tokenizer(text, return_tensors="pt").input_ids
outputs = model(pixel_values=pixel_values, labels=labels)
loss = outputs.loss
# inference (generation)
generated_ids = model.generate(pixel_values)
generated_text = processor.batch_decode(generated_ids, skip_special_tokens=True)[0]
As a standard LLM:
it can still also be used as a normal AutoModelForCausalLM or MistralModelForCausalLM !
[More Information Needed]
Training Details
Currently inputs are raw and untrained ;
ie: they NEED to be trained as the tensors are randomize maybe? despite using pretrained starting blocks. the encoder decoder modules are ready to be placed in train mode: The main model ie the LLM will need lora/Qlora/Peft etc:
This model will stay in this state as a base training point ! so later versions will be trained; This model is fully usable and still expected to score well ;
The small tiny mistral is also a great performer and a great block to begin a smaller experts model (later) or any multimodal project ie: its like a mini pretrined bert/llama(Mistral is a clone of llamaAlpaca!
from transformers import ViTImageProcessor, AutoTokenizer, VisionEncoderDecoderModel
from datasets import load_dataset
image_processor = ViTImageProcessor.from_pretrained("LeroyDyer/Mixtral_AI_Cyber_Q_Vision")
tokenizer = AutoTokenizer.from_pretrained("LeroyDyer/Mixtral_AI_Cyber_Q_Vision")
model = VisionEncoderDecoderModel.from_encoder_decoder_pretrained(
"LeroyDyer/Mixtral_AI_Cyber_Q_Vision", "LeroyDyer/Mixtral_AI_Cyber_Q_Vision"
)
model.config.decoder_start_token_id = tokenizer.cls_token_id
model.config.pad_token_id = tokenizer.pad_token_id
dataset = load_dataset("huggingface/cats-image")
image = dataset["test"]["image"][0]
pixel_values = image_processor(image, return_tensors="pt").pixel_values
labels = tokenizer(
"an image of two cats chilling on a couch",
return_tensors="pt",
).input_ids
# the forward function automatically creates the correct decoder_input_ids
loss = model(pixel_values=pixel_values, labels=labels).loss
Model Architecture
Aha !!! Here is how you create such a model ::
from transformers import MistralConfig, ViTConfig, VisionEncoderDecoderConfig, VisionEncoderDecoderModel
# Initializing a ViT & Mistral style configuration
config_encoder = ViTConfig()
config_decoder = MistralConfig()
config = VisionEncoderDecoderConfig.from_encoder_decoder_configs(config_encoder, config_decoder)
# Initializing a ViTMistral model (with random weights) from a ViT & Mistral style configurations
model = VisionEncoderDecoderModel(config=config)
# Accessing the model configuration
config_encoder = model.config.encoder
config_decoder = model.config.decoder
# set decoder config to causal lm
config_decoder.is_decoder = True
config_decoder.add_cross_attention = True
# Saving the model, including its configuration
model.save_pretrained("my-model")
# loading model and config from pretrained folder
encoder_decoder_config = VisionEncoderDecoderConfig.from_pretrained("my-model")
model = VisionEncoderDecoderModel.from_pretrained("my-model", config=encoder_decoder_config)
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