Janus-4o-7B
1. Introduction
Janus-4o is a multimodal large language model (MLLM) capable of both text-to-image and text-and-image-to-image generation. It is fine-tuned from Janus-Pro-7B using the ShareGPT-4o-Image dataset to align Janus-Pro with GPT-4o image generation capabilities. Compared to Janus-Pro, Janus-4o newly supports text-and-image-to-image generation capabilities, along with notable improvements in text-to-image tasks.
2. Quick Start
Step 1: Install the Janus Library
git clone https://github.com/deepseek-ai/Janus.git
cd Janus
pip install -e .
Step 2: Inference
- Text-to-Image Generation
import os
import PIL.Image
import torch
import numpy as np
from transformers import AutoModelForCausalLM
from janus.models import MultiModalityCausalLM, VLChatProcessor
# Load model and processor
model_path = "FreedomIntelligence/Janus-4o-7B"
vl_chat_processor: VLChatProcessor = VLChatProcessor.from_pretrained(model_path)
tokenizer = vl_chat_processor.tokenizer
vl_gpt: MultiModalityCausalLM = AutoModelForCausalLM.from_pretrained(
model_path, trust_remote_code=True,torch_dtype=torch.bfloat16
)
vl_gpt = vl_gpt.cuda().eval()
# Define text-to-image generation function
def text_to_image_generate(input_prompt, output_path, vl_chat_processor, vl_gpt, temperature = 1.0, parallel_size = 2, cfg_weight = 5):
torch.cuda.empty_cache()
conversation = [
{
"role": "<|User|>",
"content": input_prompt,
},
{"role": "<|Assistant|>", "content": ""},
]
sft_format = vl_chat_processor.apply_sft_template_for_multi_turn_prompts(
conversations=conversation,
sft_format=vl_chat_processor.sft_format,
system_prompt="",
)
prompt = sft_format + vl_chat_processor.image_start_tag
mmgpt = vl_gpt
image_token_num_per_image = 576
img_size = 384
patch_size = 16
with torch.inference_mode():
input_ids = vl_chat_processor.tokenizer.encode(prompt)
input_ids = torch.LongTensor(input_ids)
tokens = torch.zeros((parallel_size*2, len(input_ids)), dtype=torch.int).cuda()
for i in range(parallel_size*2):
tokens[i, :] = input_ids
if i % 2 != 0:
tokens[i, 1:-1] = vl_chat_processor.pad_id
inputs_embeds = mmgpt.language_model.get_input_embeddings()(tokens)
generated_tokens = torch.zeros((parallel_size, image_token_num_per_image), dtype=torch.int).cuda()
for i in range(image_token_num_per_image):
outputs = mmgpt.language_model.model(inputs_embeds=inputs_embeds, use_cache=True, past_key_values=outputs.past_key_values if i != 0 else None)
hidden_states = outputs.last_hidden_state
logits = mmgpt.gen_head(hidden_states[:, -1, :])
logit_cond = logits[0::2, :]
logit_uncond = logits[1::2, :]
logits = logit_uncond + cfg_weight * (logit_cond-logit_uncond)
probs = torch.softmax(logits / temperature, dim=-1)
next_token = torch.multinomial(probs, num_samples=1)
generated_tokens[:, i] = next_token.squeeze(dim=-1)
next_token = torch.cat([next_token.unsqueeze(dim=1), next_token.unsqueeze(dim=1)], dim=1).view(-1)
img_embeds = mmgpt.prepare_gen_img_embeds(next_token)
inputs_embeds = img_embeds.unsqueeze(dim=1)
dec = mmgpt.gen_vision_model.decode_code(generated_tokens.to(dtype=torch.int), shape=[parallel_size, 8, img_size//patch_size, img_size//patch_size])
dec = dec.to(torch.float32).cpu().numpy().transpose(0, 2, 3, 1)
dec = np.clip((dec + 1) / 2 * 255, 0, 255)
visual_img = np.zeros((parallel_size, img_size, img_size, 3), dtype=np.uint8)
visual_img[:, :, :] = dec
os.makedirs(output_path, exist_ok=True)
output_images = []
for i in range(parallel_size):
save_path = output_path.replace('.png','') + f'_{i}.png'
PIL.Image.fromarray(visual_img[i]).save(save_path)
output_images.append(save_path)
return output_images
# Run
prompt = "A stunning princess from kabul in red, white traditional clothing, blue eyes, brown hair"
image_output_path = "./test.png"
text_to_image_generate(prompt, image_output_path, vl_chat_processor, vl_gpt, parallel_size = 2)
- 2. Text-and-Image-to-Image Generation
import os
import PIL.Image
import torch
import numpy as np
from transformers import AutoModelForCausalLM
from janus.models import MultiModalityCausalLM, VLChatProcessor
from dataclasses import dataclass
@dataclass
class VLChatProcessorOutput():
sft_format: str
input_ids: torch.Tensor
pixel_values: torch.Tensor
num_image_tokens: torch.IntTensor
def __len__(self):
return len(self.input_ids)
def process_image(image_paths,vl_chat_processor):
images = [PIL.Image.open(image_path).convert("RGB") for image_path in image_paths]
images_outputs = vl_chat_processor.image_processor(images, return_tensors="pt")
return images_outputs['pixel_values']
# Load model and processor
model_path = "FreedomIntelligence/Janus-4o-7B"
vl_chat_processor: VLChatProcessor = VLChatProcessor.from_pretrained(model_path)
tokenizer = vl_chat_processor.tokenizer
vl_gpt: MultiModalityCausalLM = AutoModelForCausalLM.from_pretrained(
model_path, trust_remote_code=True,torch_dtype=torch.bfloat16
)
vl_gpt = vl_gpt.cuda().eval()
# Define text+image-to-image generation function
def text_and_image_to_image_generate(input_prompt, input_image_path, output_path, vl_chat_processor, vl_gpt, temperature = 1.0, parallel_size = 2, cfg_weight = 5, cfg_weight2 = 5):
torch.cuda.empty_cache()
input_img_tokens = vl_chat_processor.image_start_tag + vl_chat_processor.image_tag*vl_chat_processor.num_image_tokens +vl_chat_processor.image_end_tag + vl_chat_processor.image_start_tag + vl_chat_processor.pad_tag*vl_chat_processor.num_image_tokens +vl_chat_processor.image_end_tag
output_img_tokens = vl_chat_processor.image_start_tag
pre_data = []
input_images = [input_image_path]
img_len = len(input_images)
prompts = input_img_tokens * img_len + input_prompt
conversation = [
{"role": "<|User|>","content": prompts},
{"role": "<|Assistant|>", "content": ""}
]
sft_format = vl_chat_processor.apply_sft_template_for_multi_turn_prompts(
conversations=conversation,
sft_format=vl_chat_processor.sft_format,
system_prompt="",
)
sft_format = sft_format + output_img_tokens
mmgpt = vl_gpt
image_token_num_per_image = 576
img_size = 384
patch_size = 16
with torch.inference_mode():
input_image_pixel_values = process_image(input_images,vl_chat_processor).to(torch.bfloat16).cuda()
quant_input, emb_loss_input, info_input = mmgpt.gen_vision_model.encode(input_image_pixel_values)
image_tokens_input = info_input[2].detach().reshape(input_image_pixel_values.shape[0], -1)
image_embeds_input = mmgpt.prepare_gen_img_embeds(image_tokens_input)
input_ids = torch.LongTensor(vl_chat_processor.tokenizer.encode(sft_format))
encoder_pixel_values = process_image(input_images,vl_chat_processor).cuda()
tokens = torch.zeros((parallel_size*3, len(input_ids)), dtype=torch.long)
for i in range(parallel_size*3):
tokens[i, :] = input_ids
if i % 3 == 2:
tokens[i, 1:-1] = vl_chat_processor.pad_id
pre_data.append(VLChatProcessorOutput(sft_format=sft_format, pixel_values=encoder_pixel_values, input_ids=tokens[i-2], num_image_tokens=[vl_chat_processor.num_image_tokens] * img_len))
pre_data.append(VLChatProcessorOutput(sft_format=sft_format, pixel_values=encoder_pixel_values, input_ids=tokens[i-1], num_image_tokens=[vl_chat_processor.num_image_tokens] * img_len))
pre_data.append(VLChatProcessorOutput(sft_format=sft_format, pixel_values=None, input_ids=tokens[i], num_image_tokens=[]))
prepare_inputs = vl_chat_processor.batchify(pre_data)
inputs_embeds = mmgpt.prepare_inputs_embeds(
input_ids=tokens.cuda(),
pixel_values=prepare_inputs['pixel_values'].to(torch.bfloat16).cuda(),
images_emb_mask=prepare_inputs['images_emb_mask'].cuda(),
images_seq_mask=prepare_inputs['images_seq_mask'].cuda()
)
image_gen_indices = (tokens == vl_chat_processor.image_end_id).nonzero()
for ii, ind in enumerate(image_gen_indices):
if ii % 4 == 0:
offset = ind[1] + 2
inputs_embeds[ind[0],offset: offset+image_embeds_input.shape[1],:] = image_embeds_input[(ii // 2) % img_len]
generated_tokens = torch.zeros((parallel_size, image_token_num_per_image), dtype=torch.int).cuda()
for i in range(image_token_num_per_image):
outputs = mmgpt.language_model.model(inputs_embeds=inputs_embeds, use_cache=True, past_key_values=outputs.past_key_values if i != 0 else None)
hidden_states = outputs.last_hidden_state
logits = mmgpt.gen_head(hidden_states[:, -1, :])
logit_cond_full = logits[0::3, :]
logit_cond_part = logits[1::3, :]
logit_uncond = logits[2::3, :]
logit_cond = (logit_cond_full + cfg_weight2 * (logit_cond_part)) / (1 + cfg_weight2)
logits = logit_uncond + cfg_weight * (logit_cond-logit_uncond)
probs = torch.softmax(logits / temperature, dim=-1)
next_token = torch.multinomial(probs, num_samples=1)
generated_tokens[:, i] = next_token.squeeze(dim=-1)
next_token = torch.cat([next_token.unsqueeze(dim=1), next_token.unsqueeze(dim=1), next_token.unsqueeze(dim=1)], dim=1).view(-1)
img_embeds = mmgpt.prepare_gen_img_embeds(next_token)
inputs_embeds = img_embeds.unsqueeze(dim=1)
dec = mmgpt.gen_vision_model.decode_code(generated_tokens.to(dtype=torch.int), shape=[parallel_size, 8, img_size//patch_size, img_size//patch_size])
dec = dec.to(torch.float32).cpu().numpy().transpose(0, 2, 3, 1)
dec = np.clip((dec + 1) / 2 * 255, 0, 255)
visual_img = np.zeros((parallel_size, img_size, img_size, 3), dtype=np.uint8)
visual_img[:, :, :] = dec
output_images = []
for i in range(parallel_size):
save_path = output_path.replace('.png','') + f'_{i}.png'
PIL.Image.fromarray(visual_img[i]).save(save_path)
output_images.append(save_path)
return output_images
# Run
prompt = "Turn the image into a nighttime scene."
input_image_path = "./test_input.png"
image_output_path = "./test_output.png"
text_and_image_to_image_generate(prompt, input_image_path, image_output_path, vl_chat_processor, vl_gpt, parallel_size = 2)
Citation
If you find our dataset helpful, please consider citing our work:
@misc{chen2025sharegpt4oimagealigningmultimodalmodels,
title={ShareGPT-4o-Image: Aligning Multimodal Models with GPT-4o-Level Image Generation},
author={Junying Chen and Zhenyang Cai and Pengcheng Chen and Shunian Chen and Ke Ji and Xidong Wang and Yunjin Yang and Benyou Wang},
year={2025},
eprint={2506.18095},
archivePrefix={arXiv},
primaryClass={cs.CV},
url={https://arxiv.org/abs/2506.18095},
}
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