voxtral / README.md

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	---
	library_name: transformers
	pipeline_tag: text-generation
	inference: true
	widget:
	- text: Hello!
	example_title: Hello world
	group: Python
	base_model:
	- mistralai/Voxtral-Small-24B-2507
	---

	This tiny model is for debugging. It is randomly initialized with the config adapted from [mistralai/Voxtral-Small-24B-2507](https://huggingface.co/mistralai/Voxtral-Small-24B-2507).

	### Example usage:

	- vLLM

	```bash
	vllm serve tiny-random/voxtral --trust-remote-code
	```

	- Transformers

	```python
	import torch
	from transformers import AutoProcessor, VoxtralForConditionalGeneration

	model_id = "tiny-random/voxtral"

	device = "cuda"
	processor = AutoProcessor.from_pretrained(model_id)
	model = VoxtralForConditionalGeneration.from_pretrained(model_id, torch_dtype=torch.bfloat16, device_map=device)

	conversation = [
	{
	"role": "user",
	"content": [
	{
	"type": "audio",
	"path": "https://huggingface.co/datasets/hf-internal-testing/dummy-audio-samples/resolve/main/mary_had_lamb.mp3",
	},
	{
	"type": "audio",
	"path": "https://huggingface.co/datasets/hf-internal-testing/dummy-audio-samples/resolve/main/winning_call.mp3",
	},
	{"type": "text", "text": "What sport and what nursery rhyme are referenced?"},
	],
	}
	]

	inputs = processor.apply_chat_template(conversation)
	inputs = inputs.to(device, dtype=torch.bfloat16)

	outputs = model.generate(**inputs, max_new_tokens=32)
	decoded_outputs = processor.batch_decode(outputs[:, inputs.input_ids.shape[1]:], skip_special_tokens=True)

	print("\nGenerated response:")
	print("=" * 80)
	print(decoded_outputs[0])
	print("=" * 80)
	```

	### Codes to create this repo:

	```python
	import json
	from pathlib import Path

	import accelerate
	import torch
	from huggingface_hub import file_exists, hf_hub_download
	from transformers import (
	AutoConfig,
	AutoModel,
	AutoModelForCausalLM,
	AutoProcessor,
	GenerationConfig,
	set_seed,
	)

	source_model_id = "mistralai/Voxtral-Small-24B-2507"
	save_folder = "/tmp/tiny-random/voxtral"

	processor = AutoProcessor.from_pretrained(source_model_id, trust_remote_code=True)
	processor.save_pretrained(save_folder)

	with open(hf_hub_download(source_model_id, filename='config.json', repo_type='model'), 'r', encoding='utf-8') as f:
	config_json = json.load(f)
	config_json['audio_config'].update(
	{
	"head_dim": 32,
	"hidden_size": 64,
	"intermediate_size": 256,
	"num_attention_heads": 2,
	"num_key_value_heads": 2,
	"num_hidden_layers": 2,
	}
	)
	config_json['hidden_size'] = 64
	config_json['text_config'].update(
	{
	"head_dim": 32,
	"hidden_size": 64,
	"intermediate_size": 128,
	"num_attention_heads": 2,
	"num_key_value_heads": 1,
	"num_hidden_layers": 2,
	'tie_word_embeddings': True,
	}
	)
	with open(f"{save_folder}/config.json", "w", encoding='utf-8') as f:
	json.dump(config_json, f, indent=2)
	config = AutoConfig.from_pretrained(
	save_folder,
	trust_remote_code=True,
	)
	print(config)
	torch.set_default_dtype(torch.bfloat16)
	model = AutoModel.from_config(config)
	torch.set_default_dtype(torch.float32)
	if file_exists(filename="generation_config.json", repo_id=source_model_id, repo_type='model'):
	model.generation_config = GenerationConfig.from_pretrained(
	source_model_id, trust_remote_code=True,
	)
	set_seed(42)
	model = model.cpu() # cpu is more stable for random initialization across machines
	with torch.no_grad():
	for name, p in sorted(model.named_parameters()):
	torch.nn.init.normal_(p, 0, 0.2)
	print(name, p.shape)
	model.save_pretrained(save_folder)
	print(model)
	```

	### Printing the model:

	```text
	VoxtralForConditionalGeneration(
	(audio_tower): VoxtralEncoder(
	(conv1): Conv1d(128, 64, kernel_size=(3,), stride=(1,), padding=(1,))
	(conv2): Conv1d(64, 64, kernel_size=(3,), stride=(2,), padding=(1,))
	(embed_positions): Embedding(1500, 64)
	(layers): ModuleList(
	(0-1): 2 x VoxtralEncoderLayer(
	(self_attn): VoxtralAttention(
	(k_proj): Linear(in_features=64, out_features=64, bias=False)
	(v_proj): Linear(in_features=64, out_features=64, bias=True)
	(q_proj): Linear(in_features=64, out_features=64, bias=True)
	(out_proj): Linear(in_features=64, out_features=64, bias=True)
	)
	(self_attn_layer_norm): LayerNorm((64,), eps=1e-05, elementwise_affine=True)
	(activation_fn): GELUActivation()
	(fc1): Linear(in_features=64, out_features=256, bias=True)
	(fc2): Linear(in_features=256, out_features=64, bias=True)
	(final_layer_norm): LayerNorm((64,), eps=1e-05, elementwise_affine=True)
	)
	)
	(layer_norm): LayerNorm((64,), eps=1e-05, elementwise_affine=True)
	(avg_pooler): AvgPool1d(kernel_size=(2,), stride=(2,), padding=(0,))
	)
	(language_model): LlamaForCausalLM(
	(model): LlamaModel(
	(embed_tokens): Embedding(131072, 64)
	(layers): ModuleList(
	(0-1): 2 x LlamaDecoderLayer(
	(self_attn): LlamaAttention(
	(q_proj): Linear(in_features=64, out_features=64, bias=False)
	(k_proj): Linear(in_features=64, out_features=32, bias=False)
	(v_proj): Linear(in_features=64, out_features=32, bias=False)
	(o_proj): Linear(in_features=64, out_features=64, bias=False)
	)
	(mlp): LlamaMLP(
	(gate_proj): Linear(in_features=64, out_features=128, bias=False)
	(up_proj): Linear(in_features=64, out_features=128, bias=False)
	(down_proj): Linear(in_features=128, out_features=64, bias=False)
	(act_fn): SiLU()
	)
	(input_layernorm): LlamaRMSNorm((64,), eps=1e-05)
	(post_attention_layernorm): LlamaRMSNorm((64,), eps=1e-05)
	)
	)
	(norm): LlamaRMSNorm((64,), eps=1e-05)
	(rotary_emb): LlamaRotaryEmbedding()
	)
	(lm_head): Linear(in_features=64, out_features=131072, bias=False)
	)
	(multi_modal_projector): VoxtralMultiModalProjector(
	(linear_1): Linear(in_features=256, out_features=64, bias=False)
	(act): GELUActivation()
	(linear_2): Linear(in_features=64, out_features=64, bias=False)
	)
	)
	```