* docs: deep audit — fix stale config keys, missing commands, and registry drift Cross-checked ~80 high-impact docs pages (getting-started, reference, top-level user-guide, user-guide/features) against the live registries: hermes_cli/commands.py COMMAND_REGISTRY (slash commands) hermes_cli/auth.py PROVIDER_REGISTRY (providers) hermes_cli/config.py DEFAULT_CONFIG (config keys) toolsets.py TOOLSETS (toolsets) tools/registry.py get_all_tool_names() (tools) python -m hermes_cli.main <subcmd> --help (CLI args) reference/ - cli-commands.md: drop duplicate hermes fallback row + duplicate section, add stepfun/lmstudio to --provider enum, expand auth/mcp/curator subcommand lists to match --help output (status/logout/spotify, login, archive/prune/ list-archived). - slash-commands.md: add missing /sessions and /reload-skills entries + correct the cross-platform Notes line. - tools-reference.md: drop bogus '68 tools' headline, drop fictional 'browser-cdp toolset' (these tools live in 'browser' and are runtime-gated), add missing 'kanban' and 'video' toolset sections, fix MCP example to use the real mcp_<server>_<tool> prefix. - toolsets-reference.md: list browser_cdp/browser_dialog inside the 'browser' row, add missing 'kanban' and 'video' toolset rows, drop the stale '38 tools' count for hermes-cli. - profile-commands.md: add missing install/update/info subcommands, document fish completion. - environment-variables.md: dedupe GMI_API_KEY/GMI_BASE_URL rows (kept the one with the correct gmi-serving.com default). - faq.md: Anthropic/Google/OpenAI examples — direct providers exist (not just via OpenRouter), refresh the OpenAI model list. getting-started/ - installation.md: PortableGit (not MinGit) is what the Windows installer fetches; document the 32-bit MinGit fallback. - installation.md / termux.md: installer prefers .[termux-all] then falls back to .[termux]. - nix-setup.md: Python 3.12 (not 3.11), Node.js 22 (not 20); fix invalid 'nix flake update --flake' invocation. - updating.md: 'hermes backup restore --state pre-update' doesn't exist — point at the snapshot/quick-snapshot flow; correct config key 'updates.pre_update_backup' (was 'update.backup'). user-guide/ - configuration.md: api_max_retries default 3 (not 2); display.runtime_footer is the real key (not display.runtime_metadata_footer); checkpoints defaults enabled=false / max_snapshots=20 (not true / 50). - configuring-models.md: 'hermes model list' / 'hermes model set ...' don't exist — hermes model is interactive only. - tui.md: busy_indicator -> tui_status_indicator with values kaomoji|emoji|unicode|ascii (not kawaii|minimal|dots|wings|none). - security.md: SSH backend keys (TERMINAL_SSH_HOST/USER/KEY) live in .env, not config.yaml. - windows-wsl-quickstart.md: there is no 'hermes api' subcommand — the OpenAI-compatible API server runs inside hermes gateway. user-guide/features/ - computer-use.md: approvals.mode (not security.approval_level); fix broken ./browser-use.md link to ./browser.md. - fallback-providers.md: top-level fallback_providers (not model.fallback_providers); the picker is subcommand-based, not modal. - api-server.md: API_SERVER_* are env vars — write to per-profile .env, not 'hermes config set' which targets YAML. - web-search.md: drop web_crawl as a registered tool (it isn't); deep-crawl modes are exposed through web_extract. - kanban.md: failure_limit default is 2, not '~5'. - plugins.md: drop hard-coded '33 providers' count. - honcho.md: fix unclosed quote in echo HONCHO_API_KEY snippet; document that 'hermes honcho' subcommand is gated on memory.provider=honcho; reconcile subcommand list with actual --help output. - memory-providers.md: legacy 'hermes honcho setup' redirect documented. Verified via 'npm run build' — site builds cleanly; broken-link count went from 149 to 146 (no regressions, fixed a few in passing). * docs: round 2 audit fixes + regenerate skill catalogs Follow-up to the previous commit on this branch: Round 2 manual fixes: - quickstart.md: KIMI_CODING_API_KEY mentioned alongside KIMI_API_KEY; voice-mode and ACP install commands rewritten — bare 'pip install ...' doesn't work for curl-installed setups (no pip on PATH, not in repo dir); replaced with 'cd ~/.hermes/hermes-agent && uv pip install -e ".[voice]"'. ACP already ships in [all] so the curl install includes it. - cli.md / configuration.md: 'auxiliary.compression.model' shown as 'google/gemini-3-flash-preview' (the doc's own claimed default); actual default is empty (= use main model). Reworded as 'leave empty (default) or pin a cheap model'. - built-in-plugins.md: added the bundled 'kanban/dashboard' plugin row that was missing from the table. Regenerated skill catalogs: - ran website/scripts/generate-skill-docs.py to refresh all 163 per-skill pages and both reference catalogs (skills-catalog.md, optional-skills-catalog.md). This adds the entries that were genuinely missing — productivity/teams-meeting-pipeline (bundled), optional/finance/* (entire category — 7 skills: 3-statement-model, comps-analysis, dcf-model, excel-author, lbo-model, merger-model, pptx-author), creative/hyperframes, creative/kanban-video-orchestrator, devops/watchers, productivity/shop-app, research/searxng-search, apple/macos-computer-use — and rewrites every other per-skill page from the current SKILL.md. Most diffs are tiny (one line of refreshed metadata). Validation: - 'npm run build' succeeded. - Broken-link count moved 146 -> 155 — the +9 are zh-Hans translation shells that lag every newly-added skill page (pre-existing pattern). No regressions on any en/ page.
324 lines
8.3 KiB
Markdown
324 lines
8.3 KiB
Markdown
---
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title: "Llava — Large Language and Vision Assistant"
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sidebar_label: "Llava"
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description: "Large Language and Vision Assistant"
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---
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{/* 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. */}
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# Llava
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Large Language and Vision Assistant. Enables visual instruction tuning and image-based conversations. Combines CLIP vision encoder with Vicuna/LLaMA language models. Supports multi-turn image chat, visual question answering, and instruction following. Use for vision-language chatbots or image understanding tasks. Best for conversational image analysis.
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## Skill metadata
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| | |
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|---|---|
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| Source | Optional — install with `hermes skills install official/mlops/llava` |
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| Path | `optional-skills/mlops/llava` |
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| Version | `1.0.0` |
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| Author | Orchestra Research |
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| License | MIT |
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| Dependencies | `transformers`, `torch`, `pillow` |
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| Platforms | linux, macos, windows |
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| Tags | `LLaVA`, `Vision-Language`, `Multimodal`, `Visual Question Answering`, `Image Chat`, `CLIP`, `Vicuna`, `Conversational AI`, `Instruction Tuning`, `VQA` |
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## Reference: full SKILL.md
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:::info
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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.
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:::
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# LLaVA - Large Language and Vision Assistant
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Open-source vision-language model for conversational image understanding.
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## When to use LLaVA
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**Use when:**
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- Building vision-language chatbots
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- Visual question answering (VQA)
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- Image description and captioning
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- Multi-turn image conversations
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- Visual instruction following
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- Document understanding with images
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**Metrics**:
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- **23,000+ GitHub stars**
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- GPT-4V level capabilities (targeted)
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- Apache 2.0 License
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- Multiple model sizes (7B-34B params)
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**Use alternatives instead**:
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- **GPT-4V**: Highest quality, API-based
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- **CLIP**: Simple zero-shot classification
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- **BLIP-2**: Better for captioning only
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- **Flamingo**: Research, not open-source
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## Quick start
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### Installation
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```bash
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# Clone repository
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git clone https://github.com/haotian-liu/LLaVA
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cd LLaVA
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# Install
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pip install -e .
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```
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### Basic usage
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```python
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from llava.model.builder import load_pretrained_model
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from llava.mm_utils import get_model_name_from_path, process_images, tokenizer_image_token
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from llava.constants import IMAGE_TOKEN_INDEX, DEFAULT_IMAGE_TOKEN
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from llava.conversation import conv_templates
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from PIL import Image
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import torch
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# Load model
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model_path = "liuhaotian/llava-v1.5-7b"
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tokenizer, model, image_processor, context_len = load_pretrained_model(
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model_path=model_path,
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model_base=None,
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model_name=get_model_name_from_path(model_path)
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)
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# Load image
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image = Image.open("image.jpg")
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image_tensor = process_images([image], image_processor, model.config)
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image_tensor = image_tensor.to(model.device, dtype=torch.float16)
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# Create conversation
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conv = conv_templates["llava_v1"].copy()
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conv.append_message(conv.roles[0], DEFAULT_IMAGE_TOKEN + "\nWhat is in this image?")
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conv.append_message(conv.roles[1], None)
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prompt = conv.get_prompt()
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# Generate response
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input_ids = tokenizer_image_token(prompt, tokenizer, IMAGE_TOKEN_INDEX, return_tensors='pt').unsqueeze(0).to(model.device)
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with torch.inference_mode():
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output_ids = model.generate(
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input_ids,
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images=image_tensor,
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do_sample=True,
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temperature=0.2,
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max_new_tokens=512
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)
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response = tokenizer.decode(output_ids[0], skip_special_tokens=True).strip()
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print(response)
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```
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## Available models
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| Model | Parameters | VRAM | Quality |
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|-------|------------|------|---------|
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| LLaVA-v1.5-7B | 7B | ~14 GB | Good |
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| LLaVA-v1.5-13B | 13B | ~28 GB | Better |
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| LLaVA-v1.6-34B | 34B | ~70 GB | Best |
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```python
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# Load different models
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model_7b = "liuhaotian/llava-v1.5-7b"
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model_13b = "liuhaotian/llava-v1.5-13b"
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model_34b = "liuhaotian/llava-v1.6-34b"
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# 4-bit quantization for lower VRAM
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load_4bit = True # Reduces VRAM by ~4×
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```
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## CLI usage
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```bash
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# Single image query
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python -m llava.serve.cli \
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--model-path liuhaotian/llava-v1.5-7b \
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--image-file image.jpg \
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--query "What is in this image?"
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# Multi-turn conversation
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python -m llava.serve.cli \
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--model-path liuhaotian/llava-v1.5-7b \
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--image-file image.jpg
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# Then type questions interactively
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```
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## Web UI (Gradio)
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```bash
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# Launch Gradio interface
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python -m llava.serve.gradio_web_server \
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--model-path liuhaotian/llava-v1.5-7b \
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--load-4bit # Optional: reduce VRAM
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# Access at http://localhost:7860
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```
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## Multi-turn conversations
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```python
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# Initialize conversation
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conv = conv_templates["llava_v1"].copy()
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# Turn 1
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conv.append_message(conv.roles[0], DEFAULT_IMAGE_TOKEN + "\nWhat is in this image?")
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conv.append_message(conv.roles[1], None)
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response1 = generate(conv, model, image) # "A dog playing in a park"
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# Turn 2
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conv.messages[-1][1] = response1 # Add previous response
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conv.append_message(conv.roles[0], "What breed is the dog?")
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conv.append_message(conv.roles[1], None)
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response2 = generate(conv, model, image) # "Golden Retriever"
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# Turn 3
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conv.messages[-1][1] = response2
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conv.append_message(conv.roles[0], "What time of day is it?")
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conv.append_message(conv.roles[1], None)
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response3 = generate(conv, model, image)
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```
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## Common tasks
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### Image captioning
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```python
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question = "Describe this image in detail."
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response = ask(model, image, question)
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```
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### Visual question answering
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```python
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question = "How many people are in the image?"
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response = ask(model, image, question)
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```
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### Object detection (textual)
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```python
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question = "List all the objects you can see in this image."
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response = ask(model, image, question)
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```
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### Scene understanding
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```python
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question = "What is happening in this scene?"
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response = ask(model, image, question)
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```
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### Document understanding
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```python
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question = "What is the main topic of this document?"
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response = ask(model, document_image, question)
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```
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## Training custom model
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```bash
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# Stage 1: Feature alignment (558K image-caption pairs)
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bash scripts/v1_5/pretrain.sh
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# Stage 2: Visual instruction tuning (150K instruction data)
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bash scripts/v1_5/finetune.sh
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```
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## Quantization (reduce VRAM)
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```python
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# 4-bit quantization
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tokenizer, model, image_processor, context_len = load_pretrained_model(
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model_path="liuhaotian/llava-v1.5-13b",
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model_base=None,
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model_name=get_model_name_from_path("liuhaotian/llava-v1.5-13b"),
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load_4bit=True # Reduces VRAM ~4×
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)
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# 8-bit quantization
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load_8bit=True # Reduces VRAM ~2×
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```
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## Best practices
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1. **Start with 7B model** - Good quality, manageable VRAM
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2. **Use 4-bit quantization** - Reduces VRAM significantly
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3. **GPU required** - CPU inference extremely slow
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4. **Clear prompts** - Specific questions get better answers
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5. **Multi-turn conversations** - Maintain conversation context
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6. **Temperature 0.2-0.7** - Balance creativity/consistency
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7. **max_new_tokens 512-1024** - For detailed responses
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8. **Batch processing** - Process multiple images sequentially
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## Performance
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| Model | VRAM (FP16) | VRAM (4-bit) | Speed (tokens/s) |
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|-------|-------------|--------------|------------------|
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| 7B | ~14 GB | ~4 GB | ~20 |
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| 13B | ~28 GB | ~8 GB | ~12 |
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| 34B | ~70 GB | ~18 GB | ~5 |
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*On A100 GPU*
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## Benchmarks
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LLaVA achieves competitive scores on:
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- **VQAv2**: 78.5%
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- **GQA**: 62.0%
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- **MM-Vet**: 35.4%
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- **MMBench**: 64.3%
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## Limitations
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1. **Hallucinations** - May describe things not in image
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2. **Spatial reasoning** - Struggles with precise locations
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3. **Small text** - Difficulty reading fine print
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4. **Object counting** - Imprecise for many objects
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5. **VRAM requirements** - Need powerful GPU
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6. **Inference speed** - Slower than CLIP
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## Integration with frameworks
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### LangChain
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```python
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from langchain.llms.base import LLM
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class LLaVALLM(LLM):
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def _call(self, prompt, stop=None):
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# Custom LLaVA inference
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return response
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llm = LLaVALLM()
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```
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### Gradio App
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```python
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import gradio as gr
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def chat(image, text, history):
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response = ask_llava(model, image, text)
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return response
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demo = gr.ChatInterface(
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chat,
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additional_inputs=[gr.Image(type="pil")],
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title="LLaVA Chat"
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)
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demo.launch()
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```
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## Resources
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- **GitHub**: https://github.com/haotian-liu/LLaVA ⭐ 23,000+
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- **Paper**: https://arxiv.org/abs/2304.08485
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- **Demo**: https://llava.hliu.cc
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- **Models**: https://huggingface.co/liuhaotian
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- **License**: Apache 2.0
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