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Broad drift audit against origin/main (b52b63396).
Reference pages (most user-visible drift):
- slash-commands: add /busy, /curator, /footer, /indicator, /redraw, /steer
that were missing; drop non-existent /terminal-setup; fix /q footnote
(resolves to /queue, not /quit); extend CLI-only list with all 24
CLI-only commands in the registry
- cli-commands: add dedicated sections for hermes curator / fallback /
hooks (new subcommands not previously documented); remove stale
hermes honcho standalone section (the plugin registers dynamically
via hermes memory); list curator/fallback/hooks in top-level table;
fix completion to include fish
- toolsets-reference: document the real 52-toolset count; split browser
vs browser-cdp; add discord / discord_admin / spotify / yuanbao;
correct hermes-cli tool count from 36 to 38; fix misleading claim
that hermes-homeassistant adds tools (it's identical to hermes-cli)
- tools-reference: bump tool count 55 -> 68; add 7 Spotify, 5 Yuanbao,
2 Discord toolsets; move browser_cdp/browser_dialog to their own
browser-cdp toolset section
- environment-variables: add 40+ user-facing HERMES_* vars that were
undocumented (--yolo, --accept-hooks, --ignore-*, inference model
override, agent/stream/checkpoint timeouts, OAuth trace, per-platform
batch tuning for Telegram/Discord/Matrix/Feishu/WeCom, cron knobs,
gateway restart/connect timeouts); dedupe the Cron Scheduler section;
replace stale QQ_SANDBOX with QQ_PORTAL_HOST
User-guide (top level):
- cli.md: compression preserves last 20 turns, not 4 (protect_last_n: 20)
- configuration.md: display.platforms is the canonical per-platform
override key; tool_progress_overrides is deprecated and auto-migrated
- profiles.md: model.default is the config key, not model.model
- sessions.md: CLI/TUI session IDs use 6-char hex, gateway uses 8
- checkpoints-and-rollback.md: destructive-command list now matches
_DESTRUCTIVE_PATTERNS (adds rmdir, cp, install, dd)
- docker.md: the container runs as non-root hermes (UID 10000) via
gosu; fix install command (uv pip); add missing --insecure on the
dashboard compose example (required for non-loopback bind)
- security.md: systemctl danger pattern also matches 'restart'
- index.md: built-in tool count 47 -> 68
- integrations/index.md: 6 STT providers, 8 memory providers
- integrations/providers.md: drop fictional dashscope/qwen aliases
Features:
- overview.md: 9 image models (not 8), 9 TTS providers (not 5),
8 memory providers (Supermemory was missing)
- tool-gateway.md: 9 image models
- tools.md: extend common-toolsets list with search / messaging /
spotify / discord / debugging / safe
- fallback-providers.md: add 6 real providers from PROVIDER_REGISTRY
(lmstudio, kimi-coding-cn, stepfun, alibaba-coding-plan,
tencent-tokenhub, azure-foundry)
- plugins.md: Available Hooks table now includes on_session_finalize,
on_session_reset, subagent_stop
- built-in-plugins.md: add the 7 bundled plugins the page didn't
mention (spotify, google_meet, three image_gen providers, two
dashboard examples)
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- cron.md: hermes cron create takes positional schedule/prompt, not
flags
Messaging:
- telegram.md: TELEGRAM_WEBHOOK_SECRET is now REQUIRED when
TELEGRAM_WEBHOOK_URL is set (gateway refuses to start without it
per GHSA-3vpc-7q5r-276h). Biggest user-visible drift in the batch.
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FREE_RESPONSE_CHATS / MENTION_PATTERNS / HOME_CHANNEL /
ALLOW_ALL_USERS that the adapter supports
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var; the setting lives in platforms.bluebubbles.extra only
- qqbot.md: drop dead QQ_SANDBOX; add real QQ_PORTAL_HOST and
QQ_GROUP_ALLOWED_USERS
- wecom-callback.md: replace 'hermes gateway start' (service-only)
with 'hermes gateway' for first-time setup
Developer-guide:
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backend count (7), line counts for run_agent.py (~13.7k), cli.py
(~11.5k), main.py (~10.4k), setup.py (~3.5k), gateway/run.py
(~12.2k), mcp_tool.py (~3.1k); add yuanbao adapter, bump platform
adapter count 18 -> 20
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concrete base methods; only connect/disconnect/send are abstract
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(~/.hermes/state.db); acp.run_agent call uses
use_unstable_protocol=True
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thread via _start_cron_ticker, not on a maintenance cycle; locking
is cross-process via fcntl.flock (Unix) / msvcrt.locking (Windows)
- gateway-internals.md: gateway/run.py ~12k lines
- provider-runtime.md: cron DOES support fallback (run_job reads
fallback_providers from config)
- session-storage.md: SCHEMA_VERSION = 11 (not 9); add migrations
10 and 11 (trigram FTS, inline-mode FTS5 re-index); add
api_call_count column to Sessions DDL; document messages_fts_trigram
and state_meta in the architecture tree
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pressure warnings' section (warnings were removed for causing
models to give up early)
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focus_topic param
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includes model_picker_widget; add to default layout
Also fixed three pre-existing broken links/anchors the build warned
about (docker.md -> api-server.md, yuanbao.md -> cron-jobs.md and
tips#background-tasks, nix-setup.md -> #container-aware-cli).
Regenerated per-skill pages via website/scripts/generate-skill-docs.py
so catalog tables and sidebar are consistent with current SKILL.md
frontmatter.
docusaurus build: clean, no broken links or anchors.
17 KiB
17 KiB
title, sidebar_label, description
| title | sidebar_label | description |
|---|---|---|
| Audiocraft Audio Generation — AudioCraft: MusicGen text-to-music, AudioGen text-to-sound | Audiocraft Audio Generation | AudioCraft: MusicGen text-to-music, AudioGen text-to-sound |
{/* This page is auto-generated from the skill's SKILL.md by website/scripts/generate-skill-docs.py. Edit the source SKILL.md, not this page. */}
Audiocraft Audio Generation
AudioCraft: MusicGen text-to-music, AudioGen text-to-sound.
Skill metadata
| Source | Bundled (installed by default) |
| Path | skills/mlops/models/audiocraft |
| Version | 1.0.0 |
| Author | Orchestra Research |
| License | MIT |
| Dependencies | audiocraft, torch>=2.0.0, transformers>=4.30.0 |
| Tags | Multimodal, Audio Generation, Text-to-Music, Text-to-Audio, MusicGen |
Reference: full SKILL.md
:::info The following is the complete skill definition that Hermes loads when this skill is triggered. This is what the agent sees as instructions when the skill is active. :::
AudioCraft: Audio Generation
Comprehensive guide to using Meta's AudioCraft for text-to-music and text-to-audio generation with MusicGen, AudioGen, and EnCodec.
When to use AudioCraft
Use AudioCraft when:
- Need to generate music from text descriptions
- Creating sound effects and environmental audio
- Building music generation applications
- Need melody-conditioned music generation
- Want stereo audio output
- Require controllable music generation with style transfer
Key features:
- MusicGen: Text-to-music generation with melody conditioning
- AudioGen: Text-to-sound effects generation
- EnCodec: High-fidelity neural audio codec
- Multiple model sizes: Small (300M) to Large (3.3B)
- Stereo support: Full stereo audio generation
- Style conditioning: MusicGen-Style for reference-based generation
Use alternatives instead:
- Stable Audio: For longer commercial music generation
- Bark: For text-to-speech with music/sound effects
- Riffusion: For spectogram-based music generation
- OpenAI Jukebox: For raw audio generation with lyrics
Quick start
Installation
# From PyPI
pip install audiocraft
# From GitHub (latest)
pip install git+https://github.com/facebookresearch/audiocraft.git
# Or use HuggingFace Transformers
pip install transformers torch torchaudio
Basic text-to-music (AudioCraft)
import torchaudio
from audiocraft.models import MusicGen
# Load model
model = MusicGen.get_pretrained('facebook/musicgen-small')
# Set generation parameters
model.set_generation_params(
duration=8, # seconds
top_k=250,
temperature=1.0
)
# Generate from text
descriptions = ["happy upbeat electronic dance music with synths"]
wav = model.generate(descriptions)
# Save audio
torchaudio.save("output.wav", wav[0].cpu(), sample_rate=32000)
Using HuggingFace Transformers
from transformers import AutoProcessor, MusicgenForConditionalGeneration
import scipy
# Load model and processor
processor = AutoProcessor.from_pretrained("facebook/musicgen-small")
model = MusicgenForConditionalGeneration.from_pretrained("facebook/musicgen-small")
model.to("cuda")
# Generate music
inputs = processor(
text=["80s pop track with bassy drums and synth"],
padding=True,
return_tensors="pt"
).to("cuda")
audio_values = model.generate(
**inputs,
do_sample=True,
guidance_scale=3,
max_new_tokens=256
)
# Save
sampling_rate = model.config.audio_encoder.sampling_rate
scipy.io.wavfile.write("output.wav", rate=sampling_rate, data=audio_values[0, 0].cpu().numpy())
Text-to-sound with AudioGen
from audiocraft.models import AudioGen
# Load AudioGen
model = AudioGen.get_pretrained('facebook/audiogen-medium')
model.set_generation_params(duration=5)
# Generate sound effects
descriptions = ["dog barking in a park with birds chirping"]
wav = model.generate(descriptions)
torchaudio.save("sound.wav", wav[0].cpu(), sample_rate=16000)
Core concepts
Architecture overview
AudioCraft Architecture:
┌──────────────────────────────────────────────────────────────┐
│ Text Encoder (T5) │
│ │ │
│ Text Embeddings │
└────────────────────────┬─────────────────────────────────────┘
│
┌────────────────────────▼─────────────────────────────────────┐
│ Transformer Decoder (LM) │
│ Auto-regressively generates audio tokens │
│ Using efficient token interleaving patterns │
└────────────────────────┬─────────────────────────────────────┘
│
┌────────────────────────▼─────────────────────────────────────┐
│ EnCodec Audio Decoder │
│ Converts tokens back to audio waveform │
└──────────────────────────────────────────────────────────────┘
Model variants
| Model | Size | Description | Use Case |
|---|---|---|---|
musicgen-small |
300M | Text-to-music | Quick generation |
musicgen-medium |
1.5B | Text-to-music | Balanced |
musicgen-large |
3.3B | Text-to-music | Best quality |
musicgen-melody |
1.5B | Text + melody | Melody conditioning |
musicgen-melody-large |
3.3B | Text + melody | Best melody |
musicgen-stereo-* |
Varies | Stereo output | Stereo generation |
musicgen-style |
1.5B | Style transfer | Reference-based |
audiogen-medium |
1.5B | Text-to-sound | Sound effects |
Generation parameters
| Parameter | Default | Description |
|---|---|---|
duration |
8.0 | Length in seconds (1-120) |
top_k |
250 | Top-k sampling |
top_p |
0.0 | Nucleus sampling (0 = disabled) |
temperature |
1.0 | Sampling temperature |
cfg_coef |
3.0 | Classifier-free guidance |
MusicGen usage
Text-to-music generation
from audiocraft.models import MusicGen
import torchaudio
model = MusicGen.get_pretrained('facebook/musicgen-medium')
# Configure generation
model.set_generation_params(
duration=30, # Up to 30 seconds
top_k=250, # Sampling diversity
top_p=0.0, # 0 = use top_k only
temperature=1.0, # Creativity (higher = more varied)
cfg_coef=3.0 # Text adherence (higher = stricter)
)
# Generate multiple samples
descriptions = [
"epic orchestral soundtrack with strings and brass",
"chill lo-fi hip hop beat with jazzy piano",
"energetic rock song with electric guitar"
]
# Generate (returns [batch, channels, samples])
wav = model.generate(descriptions)
# Save each
for i, audio in enumerate(wav):
torchaudio.save(f"music_{i}.wav", audio.cpu(), sample_rate=32000)
Melody-conditioned generation
from audiocraft.models import MusicGen
import torchaudio
# Load melody model
model = MusicGen.get_pretrained('facebook/musicgen-melody')
model.set_generation_params(duration=30)
# Load melody audio
melody, sr = torchaudio.load("melody.wav")
# Generate with melody conditioning
descriptions = ["acoustic guitar folk song"]
wav = model.generate_with_chroma(descriptions, melody, sr)
torchaudio.save("melody_conditioned.wav", wav[0].cpu(), sample_rate=32000)
Stereo generation
from audiocraft.models import MusicGen
# Load stereo model
model = MusicGen.get_pretrained('facebook/musicgen-stereo-medium')
model.set_generation_params(duration=15)
descriptions = ["ambient electronic music with wide stereo panning"]
wav = model.generate(descriptions)
# wav shape: [batch, 2, samples] for stereo
print(f"Stereo shape: {wav.shape}") # [1, 2, 480000]
torchaudio.save("stereo.wav", wav[0].cpu(), sample_rate=32000)
Audio continuation
from transformers import AutoProcessor, MusicgenForConditionalGeneration
processor = AutoProcessor.from_pretrained("facebook/musicgen-medium")
model = MusicgenForConditionalGeneration.from_pretrained("facebook/musicgen-medium")
# Load audio to continue
import torchaudio
audio, sr = torchaudio.load("intro.wav")
# Process with text and audio
inputs = processor(
audio=audio.squeeze().numpy(),
sampling_rate=sr,
text=["continue with a epic chorus"],
padding=True,
return_tensors="pt"
)
# Generate continuation
audio_values = model.generate(**inputs, do_sample=True, guidance_scale=3, max_new_tokens=512)
MusicGen-Style usage
Style-conditioned generation
from audiocraft.models import MusicGen
# Load style model
model = MusicGen.get_pretrained('facebook/musicgen-style')
# Configure generation with style
model.set_generation_params(
duration=30,
cfg_coef=3.0,
cfg_coef_beta=5.0 # Style influence
)
# Configure style conditioner
model.set_style_conditioner_params(
eval_q=3, # RVQ quantizers (1-6)
excerpt_length=3.0 # Style excerpt length
)
# Load style reference
style_audio, sr = torchaudio.load("reference_style.wav")
# Generate with text + style
descriptions = ["upbeat dance track"]
wav = model.generate_with_style(descriptions, style_audio, sr)
Style-only generation (no text)
# Generate matching style without text prompt
model.set_generation_params(
duration=30,
cfg_coef=3.0,
cfg_coef_beta=None # Disable double CFG for style-only
)
wav = model.generate_with_style([None], style_audio, sr)
AudioGen usage
Sound effect generation
from audiocraft.models import AudioGen
import torchaudio
model = AudioGen.get_pretrained('facebook/audiogen-medium')
model.set_generation_params(duration=10)
# Generate various sounds
descriptions = [
"thunderstorm with heavy rain and lightning",
"busy city traffic with car horns",
"ocean waves crashing on rocks",
"crackling campfire in forest"
]
wav = model.generate(descriptions)
for i, audio in enumerate(wav):
torchaudio.save(f"sound_{i}.wav", audio.cpu(), sample_rate=16000)
EnCodec usage
Audio compression
from audiocraft.models import CompressionModel
import torch
import torchaudio
# Load EnCodec
model = CompressionModel.get_pretrained('facebook/encodec_32khz')
# Load audio
wav, sr = torchaudio.load("audio.wav")
# Ensure correct sample rate
if sr != 32000:
resampler = torchaudio.transforms.Resample(sr, 32000)
wav = resampler(wav)
# Encode to tokens
with torch.no_grad():
encoded = model.encode(wav.unsqueeze(0))
codes = encoded[0] # Audio codes
# Decode back to audio
with torch.no_grad():
decoded = model.decode(codes)
torchaudio.save("reconstructed.wav", decoded[0].cpu(), sample_rate=32000)
Common workflows
Workflow 1: Music generation pipeline
import torch
import torchaudio
from audiocraft.models import MusicGen
class MusicGenerator:
def __init__(self, model_name="facebook/musicgen-medium"):
self.model = MusicGen.get_pretrained(model_name)
self.sample_rate = 32000
def generate(self, prompt, duration=30, temperature=1.0, cfg=3.0):
self.model.set_generation_params(
duration=duration,
top_k=250,
temperature=temperature,
cfg_coef=cfg
)
with torch.no_grad():
wav = self.model.generate([prompt])
return wav[0].cpu()
def generate_batch(self, prompts, duration=30):
self.model.set_generation_params(duration=duration)
with torch.no_grad():
wav = self.model.generate(prompts)
return wav.cpu()
def save(self, audio, path):
torchaudio.save(path, audio, sample_rate=self.sample_rate)
# Usage
generator = MusicGenerator()
audio = generator.generate(
"epic cinematic orchestral music",
duration=30,
temperature=1.0
)
generator.save(audio, "epic_music.wav")
Workflow 2: Sound design batch processing
import json
from pathlib import Path
from audiocraft.models import AudioGen
import torchaudio
def batch_generate_sounds(sound_specs, output_dir):
"""
Generate multiple sounds from specifications.
Args:
sound_specs: list of {"name": str, "description": str, "duration": float}
output_dir: output directory path
"""
model = AudioGen.get_pretrained('facebook/audiogen-medium')
output_dir = Path(output_dir)
output_dir.mkdir(exist_ok=True)
results = []
for spec in sound_specs:
model.set_generation_params(duration=spec.get("duration", 5))
wav = model.generate([spec["description"]])
output_path = output_dir / f"{spec['name']}.wav"
torchaudio.save(str(output_path), wav[0].cpu(), sample_rate=16000)
results.append({
"name": spec["name"],
"path": str(output_path),
"description": spec["description"]
})
return results
# Usage
sounds = [
{"name": "explosion", "description": "massive explosion with debris", "duration": 3},
{"name": "footsteps", "description": "footsteps on wooden floor", "duration": 5},
{"name": "door", "description": "wooden door creaking and closing", "duration": 2}
]
results = batch_generate_sounds(sounds, "sound_effects/")
Workflow 3: Gradio demo
import gradio as gr
import torch
import torchaudio
from audiocraft.models import MusicGen
model = MusicGen.get_pretrained('facebook/musicgen-small')
def generate_music(prompt, duration, temperature, cfg_coef):
model.set_generation_params(
duration=duration,
temperature=temperature,
cfg_coef=cfg_coef
)
with torch.no_grad():
wav = model.generate([prompt])
# Save to temp file
path = "temp_output.wav"
torchaudio.save(path, wav[0].cpu(), sample_rate=32000)
return path
demo = gr.Interface(
fn=generate_music,
inputs=[
gr.Textbox(label="Music Description", placeholder="upbeat electronic dance music"),
gr.Slider(1, 30, value=8, label="Duration (seconds)"),
gr.Slider(0.5, 2.0, value=1.0, label="Temperature"),
gr.Slider(1.0, 10.0, value=3.0, label="CFG Coefficient")
],
outputs=gr.Audio(label="Generated Music"),
title="MusicGen Demo"
)
demo.launch()
Performance optimization
Memory optimization
# Use smaller model
model = MusicGen.get_pretrained('facebook/musicgen-small')
# Clear cache between generations
torch.cuda.empty_cache()
# Generate shorter durations
model.set_generation_params(duration=10) # Instead of 30
# Use half precision
model = model.half()
Batch processing efficiency
# Process multiple prompts at once (more efficient)
descriptions = ["prompt1", "prompt2", "prompt3", "prompt4"]
wav = model.generate(descriptions) # Single batch
# Instead of
for desc in descriptions:
wav = model.generate([desc]) # Multiple batches (slower)
GPU memory requirements
| Model | FP32 VRAM | FP16 VRAM |
|---|---|---|
| musicgen-small | ~4GB | ~2GB |
| musicgen-medium | ~8GB | ~4GB |
| musicgen-large | ~16GB | ~8GB |
Common issues
| Issue | Solution |
|---|---|
| CUDA OOM | Use smaller model, reduce duration |
| Poor quality | Increase cfg_coef, better prompts |
| Generation too short | Check max duration setting |
| Audio artifacts | Try different temperature |
| Stereo not working | Use stereo model variant |
References
- Advanced Usage - Training, fine-tuning, deployment
- Troubleshooting - Common issues and solutions
Resources
- GitHub: https://github.com/facebookresearch/audiocraft
- Paper (MusicGen): https://arxiv.org/abs/2306.05284
- Paper (AudioGen): https://arxiv.org/abs/2209.15352
- HuggingFace: https://huggingface.co/facebook/musicgen-small
- Demo: https://huggingface.co/spaces/facebook/MusicGen