惯性聚合 高效追踪和阅读你感兴趣的博客、新闻、科技资讯
阅读原文 在惯性聚合中打开

推荐订阅源

雷峰网
雷峰网
宝玉的分享
宝玉的分享
I
InfoQ
P
Privacy International News Feed
V
V2EX
IT之家
IT之家
S
SegmentFault 最新的问题
D
Darknet – Hacking Tools, Hacker News & Cyber Security
V2EX - 技术
V2EX - 技术
C
CERT Recently Published Vulnerability Notes
C
Check Point Blog
The Register - Security
The Register - Security
爱范儿
爱范儿
博客园 - 三生石上(FineUI控件)
AWS News Blog
AWS News Blog
M
MIT News - Artificial intelligence
C
Cyber Attacks, Cyber Crime and Cyber Security
F
Fortinet All Blogs
B
Blog
N
Netflix TechBlog - Medium
B
Blog RSS Feed
freeCodeCamp Programming Tutorials: Python, JavaScript, Git & More
Last Week in AI
Last Week in AI
T
Threatpost
Forbes - Security
Forbes - Security
U
Unit 42
A
Arctic Wolf
K
KPMG report finds enterprise disconnect between AI and its ROI | CIO
P
Palo Alto Networks Blog
Threat Intelligence Blog | Flashpoint
Threat Intelligence Blog | Flashpoint
Recorded Future
Recorded Future
L
Lohrmann on Cybersecurity
Exploit-DB.com RSS Feed
Exploit-DB.com RSS Feed
P
Proofpoint News Feed
月光博客
月光博客
Spread Privacy
Spread Privacy
MongoDB | Blog
MongoDB | Blog
Jina AI
Jina AI
I
Intezer
V
Visual Studio Blog
阮一峰的网络日志
阮一峰的网络日志
The Hacker News
The Hacker News
让小产品的独立变现更简单 - ezindie.com
让小产品的独立变现更简单 - ezindie.com
L
LangChain Blog
CTFtime.org: upcoming CTF events
CTFtime.org: upcoming CTF events
博客园_首页
MyScale Blog
MyScale Blog
腾讯CDC
cs.AI updates on arXiv.org
cs.AI updates on arXiv.org
量子位

Replicate's blog

How to make remarkable videos with Seedance 2.0 – Replicate blog How to prompt Seedream 5.0 – Replicate blog Recraft V4: image generation with design taste – Replicate blog Run Isaac 0.1 on Replicate – Replicate blog Run FLUX.2 on Replicate – Replicate blog How to prompt Nano Banana Pro – Replicate blog Retro Diffusion's pixel art models are now on Replicate – Replicate blog Replicate is joining Cloudflare – Replicate blog Extract text from documents and images with Datalab Marker and OCR – Replicate blog How to prompt Veo 3.1 – Replicate blog IBM's Granite 4.0 is now on Replicate – Replicate blog Which image editing model should I use? – Replicate blog Introducing our new search API – Replicate blog Torch compile caching for inference speed – Replicate blog Announcing Replicate's remote MCP server – Replicate blog How to prompt Veo 3 with images – Replicate blog Open source video is back – Replicate blog Generate consistent characters – Replicate blog Bria is now on Replicate – Replicate blog How we optimized FLUX.1 Kontext [dev] – Replicate blog Compare AI video models – Replicate blog The FLUX.1 Kontext hackathon – Replicate blog How to prompt Veo 3 for the best results – Replicate blog Get the most from Google Veo 3 – Replicate blog FLUX.1 Kontext from the community – Replicate blog Use FLUX.1 Kontext to edit images with words – Replicate blog Generate incredible images with Google's Imagen 4 – Replicate blog Run OpenAI’s latest models on Replicate – Replicate blog NVIDIA H100 GPUs are here – Replicate blog Run 30,000+ LoRAs on Hugging Face with Replicate – Replicate blog Ideogram 3.0 on Replicate – Replicate blog Run MiniMax Speech-02 models with an API – Replicate blog Easel AI is now on Replicate – Replicate blog Stylized video with Wan2.1 – Replicate blog Creative roundup: avatars, lightsabers, and LoRA tricks – Replicate blog Wan2.1: generate videos with an API – Replicate blog You can now fine-tune open-source video models – Replicate blog Generate short videos with the Replicate playground – Replicate blog AI video is having its Stable Diffusion moment – Replicate blog FLUX fine-tunes are now fast – Replicate blog FLUX.1 Tools – Control and steerability for FLUX – Replicate blog NVIDIA L40S GPUs are here – Replicate blog Ideogram v2 is an outstanding new inpainting model – Replicate blog Stable Diffusion 3.5 is here – Replicate blog FLUX is fast and it's open source – Replicate blog FLUX1.1 [pro] is here – Replicate blog Using synthetic training data to improve Flux finetunes – Replicate blog Fine-tune FLUX.1 with an API – Replicate blog Fine-tune FLUX.1 to create images of yourself – Replicate blog Replicate Intelligence #12 – Replicate blog Replicate Intelligence #11 – Replicate blog Fine-tune FLUX.1 with your own images – Replicate blog Replicate Intelligence #10 – Replicate blog FLUX.1: First Impressions – Replicate blog Replicate Intelligence #9 – Replicate blog Run FLUX with an API – Replicate blog Replicate Intelligence #8 – Replicate blog Run Meta Llama 3.1 405B with an API – Replicate blog Replicate Intelligence #7 – Replicate blog Replicate Intelligence #6 – Replicate blog Replicate Intelligence #5 – Replicate blog How to get the best results from Stable Diffusion 3 – Replicate blog Run Stable Diffusion 3 on your Apple Silicon Mac – Replicate blog Push a custom version of Stable Diffusion 3 – Replicate blog Replicate Intelligence #4 – Replicate blog Run Stable Diffusion 3 on your own machine with ComfyUI – Replicate blog H100s are coming to Replicate – Replicate blog Run Stable Diffusion 3 with an API – Replicate blog Replicate Intelligence #3 – Replicate blog Replicate Intelligence #2 – Replicate blog Replicate Intelligence #1 – Replicate blog Shared network vulnerability disclosure – Replicate blog Run Snowflake Arctic with an API – Replicate blog Run Meta Llama 3 with an API – Replicate blog Run Code Llama 70B with an API – Replicate blog How to create an AI narrator for your life – Replicate blog Clone your voice using open-source models – Replicate blog Businesses are building on open-source AI – Replicate blog How to run Yi chat models with an API – Replicate blog Scaffold Replicate apps with one command – Replicate blog Using open-source models for faster and cheaper text embeddings – Replicate blog Generate music from chord progressions and text prompts with MusicGen-Chord – Replicate blog Generate images in one second on your Mac using a latent consistency model – Replicate blog How to use retrieval augmented generation with ChromaDB and Mistral – Replicate blog Fine-tune MusicGen to generate music in any style – Replicate blog Jet-setting with Llama 2 + Grammars – Replicate blog How to run Mistral 7B with an API – Replicate blog Make smooth AI generated videos with AnimateDiff and an interpolator – Replicate blog Fine-tuned models now boot in less than one second – Replicate blog Painting with words: a history of text-to-image AI – Replicate blog We're cutting our prices in half – Replicate blog A guide to prompting Llama 2 – Replicate blog Streaming output for language models – Replicate blog Fine-tune SDXL with your own images – Replicate blog Run Llama 2 with an API – Replicate blog Run SDXL with an API – Replicate blog A comprehensive guide to running Llama 2 locally – Replicate blog Fine-tune Llama 2 on Replicate – Replicate blog What happened with Llama 2 in the last 24 hours? 🦙 – Replicate blog Make any large language model a better poet – Replicate blog
Wan2.1 parameter sweep – Replicate blog
2025-03-05 · via Replicate's blog

We’ve been playing with Alibaba’s WAN2.1 text-to-video model lately. Like most image and video generation models, Wan has a lot of input parameters, and each of them can have a profound impact on the quality of the generated output.

What happens when you tweak those mysterious inputs? Let’s find out.

The experiment

We wanted to see how the guidance scale and shift input parameters affect the output. For our experiment, we used the WAN2.1 14b text-to-video model with 720p resolution.

To do this, we did what’s called a “parameter sweep”, systematically testing different combinations of input values to understand how they affect the output. We generated videos for each combination of guidance scale and shift values, keeping all other parameters constant.

We kept the following inputs consistent across all the videos:

  • prompt: "A smiling woman walking in London at night"
  • seed: 42
  • frames: 81
  • sample_steps: 30

We then varied just these two inputs, testing against a range of values:

  • sample_guide_scale: from 0 to 10
  • sample_shift: from 1 to 9

If you’d like to run similar experiments yourself, we’ve shared the code on GitHub that we used to generate these parameter sweeps.

What is guide scale?

You can think of the guide scale as the “creativity vs obedience” knob.

At guide_scale=0, the model ignores your prompt. As you increase the value, the model tries harder to match your prompt.

  • Lower values: more creative freedom.
  • Higher values: more literal interpretation.

Here’s what happens when you dial it from 0 to 10:

What is shift?

Shift controls how the model moves through the denoising process, affecting motion and time flow in your video.

It’s basically controlling the “flow of time” in your generated video.

  • Lower values: smoother, more predictable movement.
  • Higher values: more dynamic but sometimes chaotic motion.

Here’s what happens when you change shift from 1 to 9:

What we’re seeing in these videos

For guide scale:

  • guide_scale=0: Really weird but cool outputs. Creative but barely related to the prompt.
  • guide_scale=1-2: Strange artifacts, especially around the woman’s mouth.
  • guide_scale=3-7: 👈 The sweet spot. Natural looking with minimal issues.
  • guide_scale=8+: The dreaded “AI look” creeps in - that overcooked, shiny skin that screams “I was made by AI.”

Recommendation: Use 0 for weird creative stuff, 3-7 for realistic results, and avoid 8+ unless you want that AI shine.

For shift values (all with guide_scale=5):

  • shift=1: Creates a cool “dolly effect” where the background warps but the person looks real.
  • shift=3-6: Shows varied women (different skin tones, all brunettes) positioned on the left side with a zoomed-out perspective.
  • shift=7-9: Consistently shows a blonde woman on the right side of the frame, with surprisingly similar results across these values.

Higher shift values tend to look better overall, but the differences are more subtle than with guide scale changes.

Why this matters

Getting these parameters right makes the difference between an amateur-looking video and something that looks almost professional.

Most people just use the defaults, but knowing how to tweak these gives you way more control over your outputs.

Now you don’t have to guess anymore.


Got any parameters you’re curious about? Let us know!