unsloth/Kimi-K2.6-GGUF

base_model:

moonshotai/Kimi-K2.6 tags:
compressed-tensors
unsloth license: other license_name: modified-mit library_name: transformers pipeline_tag: image-text-to-text

[!NOTE] Includes Unsloth chat template fixes! <br> For llama.cpp, use --jinja

<div> <p style="margin-top: 0;margin-bottom: 0;"> <em><a href="https://docs.unsloth.ai/basics/unsloth-dynamic-v2.0-gguf">Unsloth Dynamic 2.0</a> achieves superior accuracy & outperforms other leading quants.</em> </p> <div style="display: flex; gap: 5px; align-items: center; "> <a href="https://github.com/unslothai/unsloth/"> <img src="https://github.com/unslothai/unsloth/raw/main/images/unsloth%20new%20logo.png" width="133"> </a> <a href="https://discord.gg/unsloth"> <img src="https://github.com/unslothai/unsloth/raw/main/images/Discord%20button.png" width="173"> </a> <a href="https://docs.unsloth.ai/"> <img src="https://raw.githubusercontent.com/unslothai/unsloth/refs/heads/main/images/documentation%20green%20button.png" width="143"> </a> </div> </div> <div align="center"> <picture> <img src="figures/kimi-logo.png" width="30%" alt="Kimi K2.6"> </picture> </div> <hr> <div align="center" style="line-height:1"> <a href="https://www.kimi.com" target="_blank"><img alt="Chat" src="https://img.shields.io/badge/🤖%20Chat-Kimi%20K2.6-ff6b6b?color=1783ff&logoColor=white"/></a> <a href="https://www.moonshot.ai" target="_blank"><img alt="Homepage" src="https://img.shields.io/badge/Homepage-Moonshot%20AI-white?logo=Kimi&logoColor=white"/></a> </div> <div align="center" style="line-height: 1;"> <a href="https://huggingface.co/moonshotai" target="_blank"><img alt="Hugging Face" src="https://img.shields.io/badge/%F0%9F%A4%97%20Hugging%20Face-Moonshot%20AI-ffc107?color=ffc107&logoColor=white"/></a> <a href="https://twitter.com/kimi_moonshot" target="_blank"><img alt="Twitter Follow" src="https://img.shields.io/badge/Twitter-Kimi.ai-white?logo=x&logoColor=white"/></a> <a href="https://discord.gg/TYU2fdJykW" target="_blank"><img alt="Discord" src="https://img.shields.io/badge/Discord-Kimi.ai-white?logo=discord&logoColor=white"/></a> </div> <div align="center" style="line-height: 1;"> <a href="https://huggingface.co/moonshotai/Kimi-K2.6/blob/main/LICENSE"><img alt="License" src="https://img.shields.io/badge/License-Modified_MIT-f5de53?&color=f5de53"/></a> </div> <p align="center"> <b>📰  <a href="https://www.kimi.com/blog/kimi-k2-6.html">Tech Blog</a></b> </p>

1. Model Introduction

Kimi K2.6 is an open-source, native multimodal agentic model that advances practical capabilities in long-horizon coding, coding-driven design, proactive autonomous execution, and swarm-based task orchestration.

Key Features

Long-Horizon Coding: K2.6 achieves significant improvements on complex, end-to-end coding tasks, generalizing robustly across programming languages (Rust, Go, Python) and domains spanning front-end, DevOps, and performance optimization.
Coding-Driven Design: K2.6 is capable of transforming simple prompts and visual inputs into production-ready interfaces and lightweight full-stack workflows, generating structured layouts, interactive elements, and rich animations with deliberate aesthetic precision.
Elevated Agent Swarm: Scaling horizontally to 300 sub-agents executing 4,000 coordinated steps, K2.6 can dynamically decompose tasks into parallel, domain-specialized subtasks, delivering end-to-end outputs from documents to websites to spreadsheets in a single autonomous run.
Proactive & Open Orchestration: For autonomous tasks, K2.6 demonstrates strong performance in powering persistent, 24/7 background agents that proactively manage schedules, execute code, and orchestrate cross-platform operations without human oversight.

2. Model Summary

| | | |:---:|:---:| | Architecture | Mixture-of-Experts (MoE) | | Total Parameters | 1T | | Activated Parameters | 32B | | Number of Layers (Dense layer included) | 61 | | Number of Dense Layers | 1 | | Attention Hidden Dimension | 7168 | | MoE Hidden Dimension (per Expert) | 2048 | | Number of Attention Heads | 64 | | Number of Experts | 384 | | Selected Experts per Token | 8 | | Number of Shared Experts | 1 | | Vocabulary Size | 160K | | Context Length | 256K | | Attention Mechanism | MLA | | Activation Function | SwiGLU | | Vision Encoder | MoonViT | | Parameters of Vision Encoder | 400M |

</div>

3. Evaluation Results

<div align="center"> <table> <thead> <tr> <th align="center">Benchmark</th> <th align="center"><sup>Kimi K2.6</sup></th> <th align="center"><sup>GPT-5.4 <br><sup>(xhigh)</sup></sup></th> <th align="center"><sup>Claude Opus 4.6 <br><sup>(max effort)</sup></sup></th> <th align="center"><sup>Gemini 3.1 Pro<br><sup>(thinking high)</sup></sup></th> <th align="center"><sup>Kimi K2.5</sup></th> </tr> </thead> <tbody> <tr> <td align="center" colspan=6><strong>Agentic</strong></td> </tr> <tr> <td align="center" style="vertical-align: middle">HLE-Full<br>(w/ tools)</td> <td align="center" style="vertical-align: middle">54.0</td> <td align="center" style="vertical-align: middle">52.1</td> <td align="center" style="vertical-align: middle">53.0</td> <td align="center" style="vertical-align: middle">51.4</td> <td align="center" style="vertical-align: middle">50.2</td> </tr> <tr> <td align="center" style="vertical-align: middle">BrowseComp</td> <td align="center" style="vertical-align: middle">83.2</td> <td align="center" style="vertical-align: middle" rowspan="2">82.7</td> <td align="center" style="vertical-align: middle" rowspan="2">83.7</td> <td align="center" style="vertical-align: middle" rowspan="2">85.9</td> <td align="center" style="vertical-align: middle">74.9</td> </tr> <tr> <td align="center" style="vertical-align: middle">BrowseComp<br>(Agent Swarm)</td> <td align="center" style="vertical-align: middle">86.3</td> <td align="center" style="vertical-align: middle">78.4</td> </tr> <tr> <td align="center" style="vertical-align: middle">DeepSearchQA<br>(f1-score)</td> <td align="center" style="vertical-align: middle">92.5</td> <td align="center" style="vertical-align: middle">78.6</td> <td align="center" style="vertical-align: middle">91.3</td> <td align="center" style="vertical-align: middle">81.9</td> <td align="center" style="vertical-align: middle">89.0</td> </tr> <tr> <td align="center" style="vertical-align: middle">DeepSearchQA<br>(accuracy)</td> <td align="center" style="vertical-align: middle">83.0</td> <td align="center" style="vertical-align: middle">63.7</td> <td align="center" style="vertical-align: middle">80.6</td> <td align="center" style="vertical-align: middle">60.2</td> <td align="center" style="vertical-align: middle">77.1</td> </tr> <tr> <td align="center" style="vertical-align: middle">WideSearch<br> (item-f1)</td> <td align="center" style="vertical-align: middle">80.8</td> <td align="center" style="vertical-align: middle">-</td> <td align="center" style="vertical-align: middle">-</td> <td align="center" style="vertical-align: middle">-</td> <td align="center" style="vertical-align: middle">72.7</td> </tr> <tr> <td align="center" style="vertical-align: middle">Toolathlon</td> <td align="center" style="vertical-align: middle">50.0</td> <td align="center" style="vertical-align: middle">54.6</td> <td align="center" style="vertical-align: middle">47.2</td> <td align="center" style="vertical-align: middle">48.8</td> <td align="center" style="vertical-align: middle">27.8</td> </tr> <tr> <td align="center" style="vertical-align: middle">MCPMark</td> <td align="center" style="vertical-align: middle">55.9</td> <td align="center" style="vertical-align: middle">62.5*</td> <td align="center" style="vertical-align: middle">56.7*</td> <td align="center" style="vertical-align: middle">55.9*</td> <td align="center" style="vertical-align: middle">29.5</td> </tr> <tr> <td align="center" style="vertical-align: middle">Claw Eval (pass^3)</td> <td align="center" style="vertical-align: middle">62.3</td> <td align="center" style="vertical-align: middle">60.3</td> <td align="center" style="vertical-align: middle">70.4</td> <td align="center" style="vertical-align: middle">57.8</td> <td align="center" style="vertical-align: middle">52.3</td> </tr> <tr> <td align="center" style="vertical-align: middle">Claw Eval (pass@3)</td> <td align="center" style="vertical-align: middle">80.9</td> <td align="center" style="vertical-align: middle">78.4</td> <td align="center" style="vertical-align: middle">82.4</td> <td align="center" style="vertical-align: middle">82.9</td> <td align="center" style="vertical-align: middle">75.4</td> </tr> <tr> <td align="center" style="vertical-align: middle">APEX-Agents</td> <td align="center" style="vertical-align: middle">27.9</td> <td align="center" style="vertical-align: middle">33.3</td> <td align="center" style="vertical-align: middle">33.0</td> <td align="center" style="vertical-align: middle">32.0</td> <td align="center" style="vertical-align: middle">11.5</td> </tr> <tr> <td align="center" style="vertical-align: middle">OSWorld-Verified</td> <td align="center" style="vertical-align: middle">73.1</td> <td align="center" style="vertical-align: middle">75.0</td> <td align="center" style="vertical-align: middle">72.7</td> <td align="center" style="vertical-align: middle">-</td> <td align="center" style="vertical-align: middle">63.3</td> </tr> <tr> <td align="center" colspan=6><strong>Coding</strong></td> </tr> <tr> <td align="center" style="vertical-align: middle">Terminal-Bench 2.0<br>(Terminus-2)</td> <td align="center" style="vertical-align: middle">66.7</td> <td align="center" style="vertical-align: middle">65.4*</td> <td align="center" style="vertical-align: middle">65.4</td> <td align="center" style="vertical-align: middle">68.5</td> <td align="center" style="vertical-align: middle">50.8</td> </tr> <tr> <td align="center" style="vertical-align: middle">SWE-Bench Pro</td> <td align="center" style="vertical-align: middle">58.6</td> <td align="center" style="vertical-align: middle">57.7</td> <td align="center" style="vertical-align: middle">53.4</td> <td align="center" style="vertical-align: middle">54.2</td> <td align="center" style="vertical-align: middle">50.7</td> </tr> <tr> <td align="center" style="vertical-align: middle">SWE-Bench Multilingual</td> <td align="center" style="vertical-align: middle">76.7</td> <td align="center" style="vertical-align: middle">-</td> <td align="center" style="vertical-align: middle">77.8</td> <td align="center" style="vertical-align: middle">76.9*</td> <td align="center" style="vertical-align: middle">73.0</td> </tr> <tr> <td align="center" style="vertical-align: middle">SWE-Bench Verified</td> <td align="center" style="vertical-align: middle">80.2</td> <td align="center" style="vertical-align: middle">-</td> <td align="center" style="vertical-align: middle">80.8</td> <td align="center" style="vertical-align: middle">80.6</td> <td align="center" style="vertical-align: middle">76.8</td> </tr> <tr> <td align="center" style="vertical-align: middle">SciCode</td> <td align="center" style="vertical-align: middle">52.2</td> <td align="center" style="vertical-align: middle">56.6</td> <td align="center" style="vertical-align: middle">51.9</td> <td align="center" style="vertical-align: middle">58.9</td> <td align="center" style="vertical-align: middle">48.7</td> </tr> <tr> <td align="center" style="vertical-align: middle">OJBench (python)</td> <td align="center" style="vertical-align: middle">60.6</td> <td align="center" style="vertical-align: middle">-</td> <td align="center" style="vertical-align: middle">60.3</td> <td align="center" style="vertical-align: middle">70.7</td> <td align="center" style="vertical-align: middle">54.7</td> </tr> <tr> <td align="center" style="vertical-align: middle">LiveCodeBench (v6)</td> <td align="center" style="vertical-align: middle">89.6</td> <td align="center" style="vertical-align: middle">-</td> <td align="center" style="vertical-align: middle">88.8</td> <td align="center" style="vertical-align: middle">91.7</td> <td align="center" style="vertical-align: middle">85.0</td> </tr> <tr> <td align="center" colspan=6><strong>Reasoning & Knowledge</strong></td> </tr> <tr> <td align="center" style="vertical-align: middle">HLE-Full</td> <td align="center" style="vertical-align: middle">34.7</td> <td align="center" style="vertical-align: middle">39.8</td> <td align="center" style="vertical-align: middle">40.0</td> <td align="center" style="vertical-align: middle">44.4</td> <td align="center" style="vertical-align: middle">30.1</td> </tr> <tr> <td align="center" style="vertical-align: middle">AIME 2026</td> <td align="center" style="vertical-align: middle">96.4</td> <td align="center" style="vertical-align: middle">99.2</td> <td align="center" style="vertical-align: middle">96.7</td> <td align="center" style="vertical-align: middle">98.3</td> <td align="center" style="vertical-align: middle">95.8</td> </tr> <tr> <td align="center" style="vertical-align: middle">HMMT 2026 (Feb)</td> <td align="center" style="vertical-align: middle">92.7</td> <td align="center" style="vertical-align: middle">97.7</td> <td align="center" style="vertical-align: middle">96.2</td> <td align="center" style="vertical-align: middle">94.7</td> <td align="center" style="vertical-align: middle">87.1</td> </tr> <tr> <td align="center" style="vertical-align: middle">IMO-AnswerBench</td> <td align="center" style="vertical-align: middle">86.0</td> <td align="center" style="vertical-align: middle">91.4</td> <td align="center" style="vertical-align: middle">75.3</td> <td align="center" style="vertical-align: middle">91.0*</td> <td align="center" style="vertical-align: middle">81.8</td> </tr> <tr> <td align="center" style="vertical-align: middle">GPQA-Diamond</td> <td align="center" style="vertical-align: middle">90.5</td> <td align="center" style="vertical-align: middle">92.8</td> <td align="center" style="vertical-align: middle">91.3</td> <td align="center" style="vertical-align: middle">94.3</td> <td align="center" style="vertical-align: middle">87.6</td> </tr> <tr> <td align="center" colspan=6><strong>Vision</strong></td> </tr> <tr> <td align="center" style="vertical-align: middle">MMMU-Pro</td> <td align="center" style="vertical-align: middle">79.4</td> <td align="center" style="vertical-align: middle">81.2</td> <td align="center" style="vertical-align: middle">73.9</td> <td align="center" style="vertical-align: middle">83.0*</td> <td align="center" style="vertical-align: middle">78.5</td> </tr> <tr> <td align="center" style="vertical-align: middle">MMMU-Pro (w/ python)</td> <td align="center" style="vertical-align: middle">80.1</td> <td align="center" style="vertical-align: middle">82.1</td> <td align="center" style="vertical-align: middle">77.3</td> <td align="center" style="vertical-align: middle">85.3*</td> <td align="center" style="vertical-align: middle">77.7</td> </tr> <tr> <td align="center" style="vertical-align: middle">CharXiv (RQ)</td> <td align="center" style="vertical-align: middle">80.4</td> <td align="center" style="vertical-align: middle">82.8*</td> <td align="center" style="vertical-align: middle">69.1</td> <td align="center" style="vertical-align: middle">80.2*</td> <td align="center" style="vertical-align: middle">77.5</td> </tr> <tr> <td align="center" style="vertical-align: middle">CharXiv (RQ) (w/ python)</td> <td align="center" style="vertical-align: middle">86.7</td> <td align="center" style="vertical-align: middle">90.0*</td> <td align="center" style="vertical-align: middle">84.7</td> <td align="center" style="vertical-align: middle">89.9*</td> <td align="center" style="vertical-align: middle">78.7</td> </tr> <tr> <td align="center" style="vertical-align: middle">MathVision</td> <td align="center" style="vertical-align: middle">87.4</td> <td align="center" style="vertical-align: middle">92.0*</td> <td align="center" style="vertical-align: middle">71.2*</td> <td align="center" style="vertical-align: middle">89.8*</td> <td align="center" style="vertical-align: middle">84.2</td> </tr> <tr> <td align="center" style="vertical-align: middle">MathVision (w/ python)</td> <td align="center" style="vertical-align: middle">93.2</td> <td align="center" style="vertical-align: middle">96.1*</td> <td align="center" style="vertical-align: middle">84.6*</td> <td align="center" style="vertical-align: middle">95.7*</td> <td align="center" style="vertical-align: middle">85.0</td> </tr> <tr> <td align="center" style="vertical-align: middle">BabyVision</td> <td align="center" style="vertical-align: middle">39.8</td> <td align="center" style="vertical-align: middle">49.7</td> <td align="center" style="vertical-align: middle">14.8</td> <td align="center" style="vertical-align: middle">51.6</td> <td align="center" style="vertical-align: middle">36.5</td> </tr> <tr> <td align="center" style="vertical-align: middle">BabyVision (w/ python)</td> <td align="center" style="vertical-align: middle">68.5</td> <td align="center" style="vertical-align: middle">80.2*</td> <td align="center" style="vertical-align: middle">38.4*</td> <td align="center" style="vertical-align: middle">68.3*</td> <td align="center" style="vertical-align: middle">40.5</td> </tr> <tr> <td align="center" style="vertical-align: middle">V* (w/ python)</td> <td align="center" style="vertical-align: middle">96.9</td> <td align="center" style="vertical-align: middle">98.4*</td> <td align="center" style="vertical-align: middle">86.4*</td> <td align="center" style="vertical-align: middle">96.9*</td> <td align="center" style="vertical-align: middle">86.9</td> </tr> </tbody> </table> </div> <details> <summary><b>Footnotes</b></summary>

General Testing Details
- We report results for Kimi K2.6 and Kimi K2.5 with thinking mode enabled, Claude Opus 4.6 with max effort, GPT-5.4 with xhigh reasoning effort, and Gemini 3.1 Pro with a high thinking level.
- Unless otherwise specified, all Kimi K2.6 experiments were conducted with temperature = 1.0, top-p = 1.0, and a context length of 262,144 tokens.
- Benchmarks without publicly available scores were re-evaluated under the same conditions used for Kimi K2.6 and are marked with an asterisk (*). Except where noted with an asterisk, all other results are cited from official reports.
Reasoning Benchmarks
- IMO-AnswerBench scores for GPT-5.4 and Claude 4.6 were obtained from z.ai/blog/glm-5.1.
- Humanity's Last Exam (HLE) and other reasoning tasks were evaluated with a maximum generation length of 98,304 tokens. By default, we report results on the HLE full set. For the text-only subset, Kimi K2.6 achieves 36.4% accuracy without tools and 55.5% with tools.
Tool-Augmented / Agentic Tasks
- Kimi K2.6 was equipped with search, code-interpreter, and web-browsing tools for HLE with tools, BrowseComp, DeepSearchQA, and WideSearch.
- For HLE-Full with tools, the maximum generation length is 262,144 tokens with a per-step limit of 49,152 tokens. We employ a simple context management strategy: once the context window exceeds the threshold, only the most recent round of tool-related messages is retained.
- For BrowseComp, we report scores obtained with context management using the same discard-all strategy as Kimi K2.5 and DeepSeek-V3.2.
- For DeepSearchQA, no context management was applied to Kimi K2.6 tests, and tasks exceeding the supported context length were directly counted as failed. Scores for Claude Opus 4.6, GPT-5.4, and Gemini 3.1 Pro on DeepSearchQA are cited from the Claude Opus 4.7 System Card.
- For WideSearch, we report results under the "hide tool result" context management setting. Once the context window exceeds the threshold, only the most recent round of tool-related messages is retained.
- The test system prompts are identical to those used in the Kimi K2.5 technical report.
- Claw Eval was conducted using version 1.1 with max-tokens-per-step = 16384.
- For APEX-Agents, we evaluate 452 tasks from the public 480-task release, as done by Artificial Analysis(excluding Investment Banking Worlds 244 and 246, which have external runtime dependencies)
Coding Tasks
- Terminal-Bench 2.0 scores were obtained with the default agent framework (Terminus-2) and the provided JSON parser, operating in preserve thinking mode.
- For the SWE-Bench series of evaluations (including Verified, Multilingual, and Pro), we used an in-house evaluation framework adapted from SWE-agent. This framework includes a minimal set of tools—bash tool, createfile tool, insert tool, view tool, strreplace tool, and submit tool.
- All reported scores for coding tasks are averaged over 10 independent runs.
Vision Benchmarks
- Max-tokens = 98,304, averaged over three runs (avg@3).
- Settings with Python tool use max-tokens-per-step = 65,536 and max-steps = 50 for multi-step reasoning.
- MMMU-Pro follows the official protocol, preserving input order and prepending images.

</details>

4. Native INT4 Quantization

Kimi-K2.6 adopts the same native int4 quantization method as Kimi-K2-Thinking.

5. Deployment

[!Note] You can access Kimi-K2.6's API on https://platform.moonshot.ai and we provide OpenAI/Anthropic-compatible API for you. To verify the deployment is correct, we also provide the Kimi Vendor Verifier. Currently, Kimi-K2.6 is recommended to run on the following inference engines:

vLLM
SGLang
KTransformers

Kimi-K2.6 has the same architecture as Kimi-K2.5, and the deployment method can be directly reused.

The version requirement for transformers is >=4.57.1, <5.0.0.

Deployment examples can be found in the Model Deployment Guide.

6. Model Usage

The usage demos below demonstrate how to call our official API.

For third-party APIs deployed with vLLM or SGLang, please note that:

[!Note]

Chat with video content is an experimental feature and is only supported in our official API for now.

The recommended temperature will be 1.0 for Thinking mode and 0.6 for Instant mode.

The recommended top_p is 0.95.

To use instant mode, you need to pass {'chat_template_kwargs': {"thinking": False}} in extra_body.

Chat Completion

This is a simple chat completion script which shows how to call K2.6 API in Thinking and Instant modes.

import openai
import base64
import requests
def simple_chat(client: openai.OpenAI, model_name: str):
    messages = [
        {'role': 'system', 'content': 'You are Kimi, an AI assistant created by Moonshot AI.'},
        {
            'role': 'user',
            'content': [
                {'type': 'text', 'text': 'which one is bigger, 9.11 or 9.9? think carefully.'}
            ],
        },
    ]
    response = client.chat.completions.create(
        model=model_name, messages=messages, stream=False, max_tokens=4096
    )
    print('====== Below is reasoning content in Thinking Mode ======')
    print(f'reasoning content: {response.choices[0].message.reasoning}')
    print('====== Below is response in Thinking Mode ======')
    print(f'response: {response.choices[0].message.content}')

    # To use instant mode, pass {"thinking" = {"type":"disabled"}}
    response = client.chat.completions.create(
        model=model_name,
        messages=messages,
        stream=False,
        max_tokens=4096,
        extra_body={'thinking': {'type': 'disabled'}},  # this is for official API
        # extra_body= {'chat_template_kwargs': {"thinking": False}}  # this is for vLLM/SGLang
    )
    print('====== Below is response in Instant Mode ======')
    print(f'response: {response.choices[0].message.content}')

Chat Completion with visual content

K2.6 supports Image and Video input.

The following example demonstrates how to call K2.6 API with image input:

import openai
import base64
import requests

def chat_with_image(client: openai.OpenAI, model_name: str):
    url = 'https://huggingface.co/moonshotai/Kimi-K2.6/resolve/main/figures/kimi-logo.png'
    image_base64 = base64.b64encode(requests.get(url).content).decode()
    messages = [
        {
            'role': 'user',
            'content': [
                {'type': 'text', 'text': 'Describe this image in detail.'},
                {
                    'type': 'image_url',
                    'image_url': {'url': f'data:image/png;base64, {image_base64}'},
                },
            ],
        }
    ]

    response = client.chat.completions.create(
        model=model_name, messages=messages, stream=False, max_tokens=8192
    )
    print('====== Below is reasoning content in Thinking Mode ======')
    print(f'reasoning content: {response.choices[0].message.reasoning}')
    print('====== Below is response in Thinking Mode ======')
    print(f'response: {response.choices[0].message.content}')

    # Also support instant mode if you pass {"thinking" = {"type":"disabled"}}
    response = client.chat.completions.create(
        model=model_name,
        messages=messages,
        stream=False,
        max_tokens=4096,
        extra_body={'thinking': {'type': 'disabled'}},  # this is for official API
        # extra_body= {'chat_template_kwargs': {"thinking": False}}  # this is for vLLM/SGLang
    )
    print('====== Below is response in Instant Mode ======')
    print(f'response: {response.choices[0].message.content}')

    return response.choices[0].message.content

The following example demonstrates how to call K2.6 API with video input:

import openai
import base64
import requests

def chat_with_video(client: openai.OpenAI, model_name:str):
    url = 'https://huggingface.co/moonshotai/Kimi-K2.6/resolve/main/figures/demo_video.mp4'
    video_base64 = base64.b64encode(requests.get(url).content).decode()
    messages = [
        {
            "role": "user",
            "content": [
                {"type": "text","text": "Describe the video in detail."},
                {
                    "type": "video_url",
                    "video_url": {"url": f"data:video/mp4;base64,{video_base64}"},
                },
            ],
        }
    ]

    response = client.chat.completions.create(model=model_name, messages=messages)
    print('====== Below is reasoning content in Thinking Mode ======')
    print(f'reasoning content: {response.choices[0].message.reasoning}')
    print('====== Below is response in Thinking Mode ======')
    print(f'response: {response.choices[0].message.content}')

    # Also support instant mode if pass {"thinking" = {"type":"disabled"}}
    response = client.chat.completions.create(
        model=model_name,
        messages=messages,
        stream=False,
        max_tokens=4096,
        extra_body={'thinking': {'type': 'disabled'}},  # this is for official API
        # extra_body= {'chat_template_kwargs': {"thinking": False}}  # this is for vLLM/SGLang
    )
    print('====== Below is response in Instant Mode ======')
    print(f'response: {response.choices[0].message.content}')
    return response.choices[0].message.content

Preserve Thinking

Kimi K2.6 supports preserve_thinking mode, which retains full reasoning content across multi-turn interactions and enhances performance in coding agent scenarios.

This feature is disabled by default. The following example demonstrates how to call K2.6 API in preserve_thinking mode:

def chat_with_preserve_thinking(client: openai.OpenAI, model_name: str):
    messages = [
        {
            "role": "user",
            "content": "Tell me three random numbers."
        },
        {
            "role": "assistant",
            "reasoning_content": "I'll start by listing five numbers: 473, 921, 235, 215, 222, and I'll tell you the first three.",
            "content": "473, 921, 235"
        },
        {
            "role": "user",
            "content": "What are the other two numbers you have in mind?"
        }
    ]

    response = client.chat.completions.create(
        model=model_name,
        messages=messages,
        stream=False,
        max_tokens=4096,
        extra_body={'thinking': {'type': 'enabled', 'keep': 'all'}},  # this is for official API
        # extra_body={"chat_template_kwargs": {"thinking":True, "preserve_thinking": True}},  # this is for vLLM/SGLang
        # We recommend enabling preserve_thinking only in think mode.
    )
    # the assistant should mention 215 and 222 that appear in the prior reasoning content
    print(f"response: {response.choices[0].message.reasoning}")
    return response.choices[0].message.content

Interleaved Thinking and Multi-Step Tool Call

K2.6 shares the same design of Interleaved Thinking and Multi-Step Tool Call as K2 Thinking. For usage example, please refer to the K2 Thinking documentation.

Coding Agent Framework

Kimi K2.6 works best with Kimi Code CLI as its agent framework — give it a try at https://www.kimi.com/code.

7. License

Both the code repository and the model weights are released under the Modified MIT License.

8. Third Party Notices

See THIRD PARTY NOTICES

9. Contact Us

If you have any questions, please reach out at support@moonshot.ai.

Author: unsloth

Likes: 45

Downloads: 0

Tags: transformers, compressed-tensors, unsloth, image-text-to-text, arxiv:2602.02276, base_model:moonshotai/Kimi-K2.6, base_model:finetune:moonshotai/Kimi-K2.6, license:other, endpoints_compatible, region:us

lovis93/crt-animation-terminal-ltx-2.3-lora

license: apache-2.0 tags:

text-to-video
lora
ltx-video
ltx-2.3
crt
retro
animation base_model: Lightricks/LTX-Video pipeline_tag: text-to-video

📺 crtanim — CRT / Retro Terminal Video LoRA for LTX‑2.3 22B

An open-source LoRA for LTX‑2.3 22B that locks generations into a real late-80s / early-90s CRT-monitor look — scanlines, phosphor glow, chromatic aberration, barrel curvature, dithering, signal noise, choppy limited-frame motion.

Trained on fal. Runs on fal, ComfyUI, or any other LTX‑2.3 22B runtime that accepts a standard .safetensors LoRA file.

Trigger word: crtanim, (first token of every prompt).

🚀 One-click test on fal: playground

Checkpoints

| File | Steps | Best for | |---|---|---| | crtanim_4000.safetensors | 4 000 | Looser, more expressive motion | | crtanim_10000.safetensors | 10 000 | Cleaner text, sharper structure (recommended) |

Both files are already in ComfyUI key format — drop into ComfyUI/models/loras/, no conversion needed.

Direct URLs:

4 000: https://v3b.fal.media/files/b/0a96b375/yYgKwLBgP9cIx7yJMT0Iy_lora_weights_step_04000.safetensors
10 000: https://v3b.fal.media/files/b/0a96eb30/QratjdCIjYTgJe6jB47OY_lora_weights_step_10000.safetensors

Showcase

Range (6k vs 8k vs 10k training steps)

Terminal text rendering (10k is the one)

Usage — fal

curl --request POST \
  --url https://fal.run/fal-ai/ltx-2.3-22b/text-to-video/lora \
  --header "Authorization: Key $FAL_KEY" \
  --header "Content-Type: application/json" \
  --data '{
    "prompt": "crtanim, a dense CRT terminal typing \"$ claude --continue\" in glowing green pixel font, scanlines, phosphor glow, low choppy frame rate.",
    "loras": [{"path": "https://v3b.fal.media/files/b/0a96eb30/QratjdCIjYTgJe6jB47OY_lora_weights_step_10000.safetensors", "scale": 1.0}],
    "video_size": {"width": 1024, "height": 1024},
    "num_frames": 121,
    "fps": 24,
    "enable_prompt_expansion": false,
    "negative_prompt": "blurry, low quality, jpeg artifacts, compression artifacts, watermark, signature"
  }'

Important settings:

enable_prompt_expansion: false — keeps your prompt intact
Override negative_prompt — the default negative includes "text, on screen text, titles" which breaks readable text
video_size 1024×1024 matches training ratio

Works on every LTX‑2.3 22B endpoint: text-to-video/lora, image-to-video/lora, distilled/text-to-video/lora.

Prompt recipe

Always start with crtanim, then describe, in order: CRT aesthetic → color palette → animation style → subject → composition → literal text (in quotes) → mood.

Example:

crtanim, a CRT aesthetic with scanlines, green phosphor glow, bloom, chromatic aberration, a terminal typing out exactly "$ ls -la" character by character in glowing green blocky pixel font, a blinking cursor below, static centered composition, low choppy frame rate, hacker mood.

Caveats

Experimental first release — text rendering and motion can be hit-or-miss.
On-screen text works best with short strings (1–3 words / short commands).
The LoRA pulls toward static framing; ask for camera movement explicitly if you want it.
Always override the default negative prompt if you want readable text.

Training

Base: LTX‑2.3 22B · Trainer: fal-ai/ltx23-video-trainer
Aspect 1:1 · LR 2e‑4
Dataset: small hand-curated set of CRT / pixel-art clips

License

Apache 2.0.

Credits

By @lovisdotio. Trained on fal.

Author: lovis93

Likes: 11

Downloads: 0

Tags: text-to-video, lora, ltx-video, ltx-2.3, crt, retro, animation, base_model:Lightricks/LTX-Video, base_model:adapter:Lightricks/LTX-Video, license:apache-2.0, region:us

ubergarm/Kimi-K2.6-GGUF

quantized_by: ubergarm pipeline_tag: text-generation base_model: moonshotai/Kimi-K2.6 license: other license_name: modified-mit license_link: https://huggingface.co/moonshotai/Kimi-K2.6/blob/main/LICENSE base_model_relation: quantized tags:

mla
imatrix
conversational
ik_llama.cpp

imatrix Quantization of moonshotai/Kimi-K2.6

Except for the Q4_X, the other quants in this collection REQUIRE ik_llama.cpp fork to support the ik's latest SOTA quants and optimizations! Do not download these big files and expect them to run on mainline vanilla llama.cpp, ollama, LM Studio, KoboldCpp, etc! NOTE ik_llama.cpp can also run your existing GGUFs from bartowski, unsloth, mradermacher, etc if you want to try it out before downloading my quants.

Some of ik's new quants are supported with Nexesenex/croco.cpp fork of KoboldCPP with Windows builds for CUDA 12.9. Also check for Windows builds by Thireus here. which have been CUDA 12.8.

These quants provide best in class perplexity for the given memory footprint.

Big Thanks

Shout out to Wendell and the Level1Techs crew, the community Forums, YouTube Channel! BIG thanks for providing BIG hardware expertise and access to run these experiments and make these great quants available to the community!!!

Also thanks to all the folks in the quanting and inferencing community on BeaverAI Club Discord and on r/LocalLLaMA for tips and tricks helping each other run, test, and benchmark all the fun new models!

Finally, I really appreciate all the support from aifoundry.org so check out their open source RISC-V solutions, and of course huggingface for hosting all these big quants!

Quant Collection

Perplexity computed against wiki.test.raw. (lower is "better")

Perplexity Chart

Q4_X 543.617 GiB (4.549 BPW)

PPL over 568 chunks for n_ctx=512 = 1.8433 +/- 0.00721

This quant is the "full size" model made using the Q4_X patch to match moonshot official int4 released as described below. It does not use imatrix and is compatible on both ik and mainline llama.cpp

<details> <summary>👈 Secret Recipe</summary>

#!/usr/bin/env bash

# https://github.com/ikawrakow/ik_llama.cpp/pull/1556#issuecomment-4282712006
# Q4_0 (patched) routed experts approximating original QAT design
# Q8_0 everything else

custom="
## Attention [0-60] (GPU)
blk\..*\.attn_k_b\.weight=q8_0
blk\..*\.attn_v_b\.weight=q8_0

# Balance of attn tensors
blk\..*\.attn_kv_a_mqa\.weight=q8_0
blk\..*\.attn_q_a\.weight=q8_0
blk\..*\.attn_q_b\.weight=q8_0
blk\..*\.attn_output\.weight=q8_0

## First Single Dense Layer [0] (GPU)
blk\..*\.ffn_down\.weight=q8_0
blk\..*\.ffn_(gate|up)\.weight=q8_0

## Shared Expert [1-60] (GPU)
blk\..*\.ffn_down_shexp\.weight=q8_0
blk\..*\.ffn_(gate|up)_shexp\.weight=q8_0

## Routed Experts [1-60] (CPU)
blk\..*\.ffn_down_exps\.weight=q4_0
blk\..*\.ffn_(gate|up)_exps\.weight=q4_0

token_embd\.weight=q8_0
output\.weight=q8_0
"

custom=$(
  echo "$custom" | grep -v '^#' | \
  sed -Ez 's:\n+:,:g;s:,$::;s:^,::'
)

numactl -N ${SOCKET} -m ${SOCKET} \
./build/bin/llama-quantize \
    --custom-q "$custom" \
    /mnt/data/models/ubergarm/Kimi-K2.6-GGUF/Kimi-K2.6-384x14B-BF16-00001-of-00046.gguf \
    /mnt/data/models/ubergarm/Kimi-K2.6-GGUF/Kimi-K2.6-Q4_X.gguf \
    Q8_0 \
    128

</details>

IQ3_K 459.945 GiB (3.849 BPW)

PPL over 568 chunks for n_ctx=512 = 1.9012 +/- 0.00753

Note: Just on this quant, imatrix was applied only to ffn_(gate|up)_exps tensors that are iq3_k. Also this recipe is just a smooch bigger than previous Kimi-K2.5 version, but still fits nicely in under 512GB.

<details> <summary>👈 Secret Recipe</summary>

#!/usr/bin/env bash

custom="
## Attention [0-60] (GPU)
blk\..*\.attn_k_b\.weight=q8_0
blk\..*\.attn_v_b\.weight=q8_0

# Balance of attn tensors
blk\..*\.attn_kv_a_mqa\.weight=q8_0
blk\..*\.attn_q_a\.weight=q8_0
blk\..*\.attn_q_b\.weight=q8_0
blk\..*\.attn_output\.weight=q8_0

## First Single Dense Layer [0] (GPU)
blk\..*\.ffn_down\.weight=q8_0
blk\..*\.ffn_(gate|up)\.weight=q8_0

## Shared Expert [1-60] (GPU)
blk\..*\.ffn_down_shexp\.weight=q8_0
blk\..*\.ffn_(gate|up)_shexp\.weight=q8_0

## Routed Experts [1-60] (CPU)
## NOTE: imatrix is *only* applied to the iq3_k tensors for this recipe
blk\..*\.ffn_down_exps\.weight=q4_0
blk\..*\.ffn_(gate|up)_exps\.weight=iq3_k

## NOTE: previous recipe used iq6_k for both of these
token_embd\.weight=q8_0
output\.weight=q8_0
"

custom=$(
  echo "$custom" | grep -v '^#' | \
  sed -Ez 's:\n+:,:g;s:,$::;s:^,::'
)

numactl -N ${SOCKET} -m ${SOCKET} \
./build/bin/llama-quantize \
    --custom-q "$custom" \
    --imatrix /mnt/data/models/ubergarm/Kimi-K2.6-GGUF/imatrix-Kimi-K2.6-Q4_X.dat \
    --include-weights ffn_gate_exps \
    --include-weights ffn_up_exps \
    /mnt/data/models/ubergarm/Kimi-K2.6-GGUF/Kimi-K2.6-384x14B-BF16-00001-of-00046.gguf \
    /mnt/data/models/ubergarm/Kimi-K2.6-GGUF/Kimi-K2.6-IQ3_K.gguf \
    IQ3_K \
    128

</details>

smol-IQ3_KS 388.258 GiB (3.249 BPW)

TODO

<details> <summary>👈 Secret Recipe</summary>

#!/usr/bin/env bash

custom="
## Attention [0-60] (GPU)
blk\..*\.attn_k_b\.weight=q8_0
blk\..*\.attn_v_b\.weight=q8_0

# Balance of attn tensors
blk\..*\.attn_kv_a_mqa\.weight=q8_0
blk\..*\.attn_q_a\.weight=q8_0
blk\..*\.attn_q_b\.weight=q8_0
blk\..*\.attn_output\.weight=q8_0

## First Single Dense Layer [0] (GPU)
blk\..*\.ffn_down\.weight=q8_0
blk\..*\.ffn_(gate|up)\.weight=q8_0

## Shared Expert [1-60] (GPU)
blk\..*\.ffn_down_shexp\.weight=q8_0
blk\..*\.ffn_(gate|up)_shexp\.weight=q8_0

## Routed Experts [1-60] (CPU)
blk\..*\.ffn_down_exps\.weight=iq3_ks
blk\..*\.ffn_(gate|up)_exps\.weight=iq3_ks

token_embd\.weight=iq4_k
output\.weight=iq6_k
"

custom=$(
  echo "$custom" | grep -v '^#' | \
  sed -Ez 's:\n+:,:g;s:,$::;s:^,::'
)

numactl -N ${SOCKET} -m ${SOCKET} \
./build/bin/llama-quantize \
    --custom-q "$custom" \
    --imatrix /mnt/data/models/ubergarm/Kimi-K2.6-GGUF/imatrix-Kimi-K2.6-Q4_X.dat \
    /mnt/data/models/ubergarm/Kimi-K2.6-GGUF/Kimi-K2.6-384x14B-BF16-00001-of-00046.gguf \
    /mnt/data/models/ubergarm/Kimi-K2.6-GGUF/Kimi-K2.6-smol-IQ3_KS.gguf \
    IQ3_KS \
    128

</details>

smol-IQ2_KL 329.195 GiB (2.755 BPW)

PPL over 568 chunks for n_ctx=512 = 2.2190 +/- 0.00936

<details> <summary>👈 Secret Recipe</summary>

#!/usr/bin/env bash

custom="
## Attention [0-60] (GPU)
blk\..*\.attn_k_b\.weight=q8_0
blk\..*\.attn_v_b\.weight=q8_0

# Balance of attn tensors
blk\..*\.attn_kv_a_mqa\.weight=q8_0
blk\..*\.attn_q_a\.weight=q8_0
blk\..*\.attn_q_b\.weight=q8_0
blk\..*\.attn_output\.weight=q8_0

## First Single Dense Layer [0] (GPU)
blk\..*\.ffn_down\.weight=q8_0
blk\..*\.ffn_(gate|up)\.weight=q8_0

## Shared Expert [1-60] (GPU)
blk\..*\.ffn_down_shexp\.weight=q8_0
blk\..*\.ffn_(gate|up)_shexp\.weight=q8_0

## Routed Experts [1-60] (CPU)
blk\..*\.ffn_down_exps\.weight=iq2_kl
blk\..*\.ffn_(gate|up)_exps\.weight=iq2_kl

token_embd\.weight=iq4_k
output\.weight=iq6_k
"

custom=$(
  echo "$custom" | grep -v '^#' | \
  sed -Ez 's:\n+:,:g;s:,$::;s:^,::'
)

numactl -N ${SOCKET} -m ${SOCKET} \
./build/bin/llama-quantize \
    --custom-q "$custom" \
    --imatrix /mnt/data/models/ubergarm/Kimi-K2.6-GGUF/imatrix-Kimi-K2.6-Q4_X.dat \
    /mnt/data/models/ubergarm/Kimi-K2.6-GGUF/Kimi-K2.6-384x14B-BF16-00001-of-00046.gguf \
    /mnt/data/models/ubergarm/Kimi-K2.6-GGUF/Kimi-K2.6-smol-IQ2_KL.gguf \
    IQ2_KL \
    128

</details>

smol-IQ2_KS 270.133 GiB (2.261 BPW)

TODO

<details> <summary>👈 Secret Recipe</summary>

#!/usr/bin/env bash

custom="
## Attention [0-60] (GPU)
blk\..*\.attn_k_b\.weight=q8_0
blk\..*\.attn_v_b\.weight=q8_0

# Balance of attn tensors
blk\..*\.attn_kv_a_mqa\.weight=q8_0
blk\..*\.attn_q_a\.weight=q8_0
blk\..*\.attn_q_b\.weight=q8_0
blk\..*\.attn_output\.weight=q8_0

## First Single Dense Layer [0] (GPU)
blk\..*\.ffn_down\.weight=q8_0
blk\..*\.ffn_(gate|up)\.weight=q8_0

## Shared Expert [1-60] (GPU)
blk\..*\.ffn_down_shexp\.weight=q8_0
blk\..*\.ffn_(gate|up)_shexp\.weight=q8_0

## Routed Experts [1-60] (CPU)
blk\..*\.ffn_down_exps\.weight=iq2_ks
blk\..*\.ffn_(gate|up)_exps\.weight=iq2_ks

token_embd\.weight=iq4_k
output\.weight=iq6_k
"

custom=$(
  echo "$custom" | grep -v '^#' | \
  sed -Ez 's:\n+:,:g;s:,$::;s:^,::'
)

numactl -N ${SOCKET} -m ${SOCKET} \
./build/bin/llama-quantize \
    --custom-q "$custom" \
    --imatrix /mnt/data/models/ubergarm/Kimi-K2.6-GGUF/imatrix-Kimi-K2.6-Q4_X.dat \
    /mnt/data/models/ubergarm/Kimi-K2.6-GGUF/Kimi-K2.6-384x14B-BF16-00001-of-00046.gguf \
    /mnt/data/models/ubergarm/Kimi-K2.6-GGUF/Kimi-K2.6-smol-IQ2_KS.gguf \
    IQ2_KS \
    128

</details>

smol-IQ1_KT 218.936 GiB (1.832 BPW)

PPL over 568 chunks for n_ctx=512 = 3.3252 +/- 0.01613

only for the desperate

Also keep in mind KT trellis quants generally are slower token generation given likely compute bottleneck if running on CPU, but if it is all you can fit then well... They are fast on GPU similar to EXL3.

<details> <summary>👈 Secret Recipe</summary>

#!/usr/bin/env bash

custom="
## Attention [0-60] (GPU)
blk\..*\.attn_k_b\.weight=q8_0
blk\..*\.attn_v_b\.weight=q8_0

# Balance of attn tensors
blk\..*\.attn_kv_a_mqa\.weight=q8_0
blk\..*\.attn_q_a\.weight=q8_0
blk\..*\.attn_q_b\.weight=q8_0
blk\..*\.attn_output\.weight=q8_0

## First Single Dense Layer [0] (GPU)
blk\..*\.ffn_down\.weight=q8_0
blk\..*\.ffn_(gate|up)\.weight=q8_0

## Shared Expert [1-60] (GPU)
blk\..*\.ffn_down_shexp\.weight=q8_0
blk\..*\.ffn_(gate|up)_shexp\.weight=q8_0

## Routed Experts [1-60] (CPU)
blk\..*\.ffn_down_exps\.weight=iq1_kt
blk\..*\.ffn_(gate|up)_exps\.weight=iq1_kt

token_embd\.weight=iq4_k
output\.weight=iq6_k
"

custom=$(
  echo "$custom" | grep -v '^#' | \
  sed -Ez 's:\n+:,:g;s:,$::;s:^,::'
)

numactl -N ${SOCKET} -m ${SOCKET} \
./build/bin/llama-quantize \
    --custom-q "$custom" \
    --imatrix /mnt/data/models/ubergarm/Kimi-K2.6-GGUF/imatrix-Kimi-K2.6-Q4_X.dat \
    /mnt/data/models/ubergarm/Kimi-K2.6-GGUF/Kimi-K2.6-384x14B-BF16-00001-of-00046.gguf \
    /mnt/data/models/ubergarm/Kimi-K2.6-GGUF/Kimi-K2.6-smol-IQ1_KT.gguf \
    IQ1_KT \
    128

</details>

Quick Start

# Clone and checkout
$ git clone https://github.com/ikawrakow/ik_llama.cpp
$ cd ik_llama.cpp

# Build for hybrid CPU+CUDA (or set GGML_CUDA=OFF for CPU only)
$ cmake -B build -DCMAKE_BUILD_TYPE=Release -DGGML_CUDA=ON
$ cmake --build build --config Release -j $(nproc)

# Hybrid CPU+GPU Inference
echo TODO

# CPU-only inference
numactl -N ${SOCKET} -m ${SOCKET} \
./build/bin/llama-server \
    --model "$model"\
    --alias ubergarm/Kimi-K2.6-GGUF \
    -muge \
    --merge-qkv \
    --ctx-size 131072 \
    -ctk f16 \
    -mla 3 \
    --parallel 1 \
    -ub 4096 -b 4096 \
    --threads 96 \
    --threads-batch 128 \
    --numa numactl \
    --host 127.0.0.1 \
    --port 8080 \
    --no-mmap \
    --jinja

Bring your own jinja chat template with --chat-template-file myTemplate.jinja and may or may not need --special still experimenting.

Seems to be working with spec-decoding e.g. --spec-type ngram-map-k4v --spec-ngram-size-n 8 --spec-ngram-size-m 8 --spec-ngram-min-hits 2 --draft-min 1 --draft-max 12

Increase prompt cache with stuff like -cram 16384 --prompt-cache-all.

Q4_X Patch

https://github.com/ikawrakow/ik_llama.cpp/pull/1556#issuecomment-4282712006

References

Author: ubergarm

Likes: 10

Downloads: 0

Tags: gguf, mla, imatrix, conversational, ik_llama.cpp, text-generation, base_model:moonshotai/Kimi-K2.6, base_model:quantized:moonshotai/Kimi-K2.6, license:other, endpoints_compatible, region:us

unsloth/Kimi-K2.6

base_model:

moonshotai/Kimi-K2.6 tags:
compressed-tensors
unsloth license: other license_name: modified-mit library_name: transformers pipeline_tag: image-text-to-text

[!NOTE] Includes Unsloth chat template fixes! <br> For llama.cpp, use --jinja

1. Model Introduction

Key Features

Long-Horizon Coding: K2.6 achieves significant improvements on complex, end-to-end coding tasks, generalizing robustly across programming languages (Rust, Go, Python) and domains spanning front-end, DevOps, and performance optimization.
Coding-Driven Design: K2.6 is capable of transforming simple prompts and visual inputs into production-ready interfaces and lightweight full-stack workflows, generating structured layouts, interactive elements, and rich animations with deliberate aesthetic precision.
Elevated Agent Swarm: Scaling horizontally to 300 sub-agents executing 4,000 coordinated steps, K2.6 can dynamically decompose tasks into parallel, domain-specialized subtasks, delivering end-to-end outputs from documents to websites to spreadsheets in a single autonomous run.
Proactive & Open Orchestration: For autonomous tasks, K2.6 demonstrates strong performance in powering persistent, 24/7 background agents that proactively manage schedules, execute code, and orchestrate cross-platform operations without human oversight.

2. Model Summary

</div>

3. Evaluation Results

General Testing Details
- We report results for Kimi K2.6 and Kimi K2.5 with thinking mode enabled, Claude Opus 4.6 with max effort, GPT-5.4 with xhigh reasoning effort, and Gemini 3.1 Pro with a high thinking level.
- Unless otherwise specified, all Kimi K2.6 experiments were conducted with temperature = 1.0, top-p = 1.0, and a context length of 262,144 tokens.
- Benchmarks without publicly available scores were re-evaluated under the same conditions used for Kimi K2.6 and are marked with an asterisk (*). Except where noted with an asterisk, all other results are cited from official reports.
Reasoning Benchmarks
- IMO-AnswerBench scores for GPT-5.4 and Claude 4.6 were obtained from z.ai/blog/glm-5.1.
- Humanity's Last Exam (HLE) and other reasoning tasks were evaluated with a maximum generation length of 98,304 tokens. By default, we report results on the HLE full set. For the text-only subset, Kimi K2.6 achieves 36.4% accuracy without tools and 55.5% with tools.
Tool-Augmented / Agentic Tasks
- Kimi K2.6 was equipped with search, code-interpreter, and web-browsing tools for HLE with tools, BrowseComp, DeepSearchQA, and WideSearch.
- For HLE-Full with tools, the maximum generation length is 262,144 tokens with a per-step limit of 49,152 tokens. We employ a simple context management strategy: once the context window exceeds the threshold, only the most recent round of tool-related messages is retained.
- For BrowseComp, we report scores obtained with context management using the same discard-all strategy as Kimi K2.5 and DeepSeek-V3.2.
- For DeepSearchQA, no context management was applied to Kimi K2.6 tests, and tasks exceeding the supported context length were directly counted as failed. Scores for Claude Opus 4.6, GPT-5.4, and Gemini 3.1 Pro on DeepSearchQA are cited from the Claude Opus 4.7 System Card.
- For WideSearch, we report results under the "hide tool result" context management setting. Once the context window exceeds the threshold, only the most recent round of tool-related messages is retained.
- The test system prompts are identical to those used in the Kimi K2.5 technical report.
- Claw Eval was conducted using version 1.1 with max-tokens-per-step = 16384.
- For APEX-Agents, we evaluate 452 tasks from the public 480-task release, as done by Artificial Analysis(excluding Investment Banking Worlds 244 and 246, which have external runtime dependencies)
Coding Tasks
- Terminal-Bench 2.0 scores were obtained with the default agent framework (Terminus-2) and the provided JSON parser, operating in preserve thinking mode.
- For the SWE-Bench series of evaluations (including Verified, Multilingual, and Pro), we used an in-house evaluation framework adapted from SWE-agent. This framework includes a minimal set of tools—bash tool, createfile tool, insert tool, view tool, strreplace tool, and submit tool.
- All reported scores for coding tasks are averaged over 10 independent runs.
Vision Benchmarks
- Max-tokens = 98,304, averaged over three runs (avg@3).
- Settings with Python tool use max-tokens-per-step = 65,536 and max-steps = 50 for multi-step reasoning.
- MMMU-Pro follows the official protocol, preserving input order and prepending images.

</details>

4. Native INT4 Quantization

Kimi-K2.6 adopts the same native int4 quantization method as Kimi-K2-Thinking.

5. Deployment

[!Note] You can access Kimi-K2.6's API on https://platform.moonshot.ai and we provide OpenAI/Anthropic-compatible API for you. To verify the deployment is correct, we also provide the Kimi Vendor Verifier. Currently, Kimi-K2.6 is recommended to run on the following inference engines:

vLLM
SGLang
KTransformers

Kimi-K2.6 has the same architecture as Kimi-K2.5, and the deployment method can be directly reused.

The version requirement for transformers is >=4.57.1, <5.0.0.

Deployment examples can be found in the Model Deployment Guide.

6. Model Usage

The usage demos below demonstrate how to call our official API.

For third-party APIs deployed with vLLM or SGLang, please note that:

[!Note]

Chat with video content is an experimental feature and is only supported in our official API for now.

The recommended temperature will be 1.0 for Thinking mode and 0.6 for Instant mode.

The recommended top_p is 0.95.

To use instant mode, you need to pass {'chat_template_kwargs': {"thinking": False}} in extra_body.

Chat Completion

This is a simple chat completion script which shows how to call K2.6 API in Thinking and Instant modes.

import openai
import base64
import requests
def simple_chat(client: openai.OpenAI, model_name: str):
    messages = [
        {'role': 'system', 'content': 'You are Kimi, an AI assistant created by Moonshot AI.'},
        {
            'role': 'user',
            'content': [
                {'type': 'text', 'text': 'which one is bigger, 9.11 or 9.9? think carefully.'}
            ],
        },
    ]
    response = client.chat.completions.create(
        model=model_name, messages=messages, stream=False, max_tokens=4096
    )
    print('====== Below is reasoning content in Thinking Mode ======')
    print(f'reasoning content: {response.choices[0].message.reasoning}')
    print('====== Below is response in Thinking Mode ======')
    print(f'response: {response.choices[0].message.content}')

    # To use instant mode, pass {"thinking" = {"type":"disabled"}}
    response = client.chat.completions.create(
        model=model_name,
        messages=messages,
        stream=False,
        max_tokens=4096,
        extra_body={'thinking': {'type': 'disabled'}},  # this is for official API
        # extra_body= {'chat_template_kwargs': {"thinking": False}}  # this is for vLLM/SGLang
    )
    print('====== Below is response in Instant Mode ======')
    print(f'response: {response.choices[0].message.content}')

Chat Completion with visual content

K2.6 supports Image and Video input.

The following example demonstrates how to call K2.6 API with image input:

import openai
import base64
import requests

def chat_with_image(client: openai.OpenAI, model_name: str):
    url = 'https://huggingface.co/moonshotai/Kimi-K2.6/resolve/main/figures/kimi-logo.png'
    image_base64 = base64.b64encode(requests.get(url).content).decode()
    messages = [
        {
            'role': 'user',
            'content': [
                {'type': 'text', 'text': 'Describe this image in detail.'},
                {
                    'type': 'image_url',
                    'image_url': {'url': f'data:image/png;base64, {image_base64}'},
                },
            ],
        }
    ]

    response = client.chat.completions.create(
        model=model_name, messages=messages, stream=False, max_tokens=8192
    )
    print('====== Below is reasoning content in Thinking Mode ======')
    print(f'reasoning content: {response.choices[0].message.reasoning}')
    print('====== Below is response in Thinking Mode ======')
    print(f'response: {response.choices[0].message.content}')

    # Also support instant mode if you pass {"thinking" = {"type":"disabled"}}
    response = client.chat.completions.create(
        model=model_name,
        messages=messages,
        stream=False,
        max_tokens=4096,
        extra_body={'thinking': {'type': 'disabled'}},  # this is for official API
        # extra_body= {'chat_template_kwargs': {"thinking": False}}  # this is for vLLM/SGLang
    )
    print('====== Below is response in Instant Mode ======')
    print(f'response: {response.choices[0].message.content}')

    return response.choices[0].message.content

The following example demonstrates how to call K2.6 API with video input:

import openai
import base64
import requests

def chat_with_video(client: openai.OpenAI, model_name:str):
    url = 'https://huggingface.co/moonshotai/Kimi-K2.6/resolve/main/figures/demo_video.mp4'
    video_base64 = base64.b64encode(requests.get(url).content).decode()
    messages = [
        {
            "role": "user",
            "content": [
                {"type": "text","text": "Describe the video in detail."},
                {
                    "type": "video_url",
                    "video_url": {"url": f"data:video/mp4;base64,{video_base64}"},
                },
            ],
        }
    ]

    response = client.chat.completions.create(model=model_name, messages=messages)
    print('====== Below is reasoning content in Thinking Mode ======')
    print(f'reasoning content: {response.choices[0].message.reasoning}')
    print('====== Below is response in Thinking Mode ======')
    print(f'response: {response.choices[0].message.content}')

    # Also support instant mode if pass {"thinking" = {"type":"disabled"}}
    response = client.chat.completions.create(
        model=model_name,
        messages=messages,
        stream=False,
        max_tokens=4096,
        extra_body={'thinking': {'type': 'disabled'}},  # this is for official API
        # extra_body= {'chat_template_kwargs': {"thinking": False}}  # this is for vLLM/SGLang
    )
    print('====== Below is response in Instant Mode ======')
    print(f'response: {response.choices[0].message.content}')
    return response.choices[0].message.content

Preserve Thinking

Kimi K2.6 supports preserve_thinking mode, which retains full reasoning content across multi-turn interactions and enhances performance in coding agent scenarios.

This feature is disabled by default. The following example demonstrates how to call K2.6 API in preserve_thinking mode:

def chat_with_preserve_thinking(client: openai.OpenAI, model_name: str):
    messages = [
        {
            "role": "user",
            "content": "Tell me three random numbers."
        },
        {
            "role": "assistant",
            "reasoning_content": "I'll start by listing five numbers: 473, 921, 235, 215, 222, and I'll tell you the first three.",
            "content": "473, 921, 235"
        },
        {
            "role": "user",
            "content": "What are the other two numbers you have in mind?"
        }
    ]

    response = client.chat.completions.create(
        model=model_name,
        messages=messages,
        stream=False,
        max_tokens=4096,
        extra_body={'thinking': {'type': 'enabled', 'keep': 'all'}},  # this is for official API
        # extra_body={"chat_template_kwargs": {"thinking":True, "preserve_thinking": True}},  # this is for vLLM/SGLang
        # We recommend enabling preserve_thinking only in think mode.
    )
    # the assistant should mention 215 and 222 that appear in the prior reasoning content
    print(f"response: {response.choices[0].message.reasoning}")
    return response.choices[0].message.content

Interleaved Thinking and Multi-Step Tool Call

K2.6 shares the same design of Interleaved Thinking and Multi-Step Tool Call as K2 Thinking. For usage example, please refer to the K2 Thinking documentation.

Coding Agent Framework

Kimi K2.6 works best with Kimi Code CLI as its agent framework — give it a try at https://www.kimi.com/code.

7. License

Both the code repository and the model weights are released under the Modified MIT License.

8. Third Party Notices

See THIRD PARTY NOTICES

9. Contact Us

If you have any questions, please reach out at support@moonshot.ai.

Author: unsloth

Likes: 6

Downloads: 0

Tags: transformers, safetensors, kimi_k25, feature-extraction, compressed-tensors, unsloth, image-text-to-text, conversational, custom_code, arxiv:2602.02276, base_model:moonshotai/Kimi-K2.6, base_model:quantized:moonshotai/Kimi-K2.6, license:other, eval-results, region:us

oumoumad/LTX-2.3-22b-IC-LoRA-ReFocus

base_model:

Lightricks/LTX-2.3 language:
en license: other license_name: ltx-2-community-license license_link: https://github.com/Lightricks/LTX-2/blob/main/LICENSE pipeline_tag: video-to-video tags:
ltx-video
ic-lora
refocus
deblur
lens-blur

LTX-2.3 22B IC-LoRA ReFocus

This is a ReFocus IC-LoRA trained on top of LTX-2.3-22b, designed to turn out-of-focus footage back into sharp, in-focus video by removing lens blur. It effectively reverses shallow depth-of-field or missed-focus artifacts to restore detail in the scene.

It is based on the LTX-2.3 foundation model.

Model Files

ltx-2.3-22b-ic-lora-refocus.safetensors

Model Details

Base Model: LTX-2.3-22b
Training Type: IC LoRA
Purpose: Remove lens blur / restore focus

⚠️ Lens blur only

This LoRA is specifically trained to correct lens blur (out-of-focus / shallow DOF). For other types of blur — motion blur, gaussian blur, etc. — it will yield bad results. Use it only on footage where the blur comes from the lens being out of focus.

🔌 Using in ComfyUI

Copy the LoRA weights into models/loras.
Use the IC-LoRA workflow from the LTX-2 ComfyUI repository.
Load the LoRA using the LTXICLoRALoaderModelOnly node.

License

See the LTX-2-community-license for full terms.

Author: oumoumad

Likes: 6

Downloads: 0

Tags: ltx-video, ic-lora, refocus, deblur, lens-blur, video-to-video, en, base_model:Lightricks/LTX-2.3, base_model:finetune:Lightricks/LTX-2.3, license:other, region:us

mudler/Carnice-Qwen3.6-MoE-35B-A3B-APEX-GGUF

license: apache-2.0 base_model: samuelcardillo/Carnice-Qwen3.6-MoE-35B-A3B tags:

gguf
quantized
apex
moe
mixture-of-experts
qwen3
carnice
agentic
tool-calling

Carnice Qwen3.6 MoE 35B-A3B APEX GGUF

APEX (Adaptive Precision for EXpert Models) quantizations of samuelcardillo/Carnice-Qwen3.6-MoE-35B-A3B.

Brought to you by the LocalAI team | APEX Project | Technical Report

Available Files

| File | Profile | Size | Best For | |------|---------|------|----------| | Carnice-Qwen3.6-MoE-35B-A3B-APEX-I-Balanced.gguf | I-Balanced | 24 GB | Best overall quality/size ratio | | Carnice-Qwen3.6-MoE-35B-A3B-APEX-I-Quality.gguf | I-Quality | 22 GB | Highest quality with imatrix | | Carnice-Qwen3.6-MoE-35B-A3B-APEX-Quality.gguf | Quality | 22 GB | Highest quality standard | | Carnice-Qwen3.6-MoE-35B-A3B-APEX-Balanced.gguf | Balanced | 24 GB | General purpose | | Carnice-Qwen3.6-MoE-35B-A3B-APEX-I-Compact.gguf | I-Compact | 17 GB | Consumer GPUs, best quality/size | | Carnice-Qwen3.6-MoE-35B-A3B-APEX-Compact.gguf | Compact | 17 GB | Consumer GPUs | | Carnice-Qwen3.6-MoE-35B-A3B-APEX-I-Mini.gguf | I-Mini | 14 GB | Smallest viable, fastest inference |

What is APEX?

APEX is a quantization strategy for Mixture-of-Experts (MoE) models. It classifies tensors by role (routed expert, shared expert, attention) and applies a layer-wise precision gradient — edge layers get higher precision, middle layers get more aggressive compression. I-variants use diverse imatrix calibration (chat, code, reasoning, tool-calling, agentic traces, Wikipedia).

See the APEX project for full details, technical report, and scripts.

Architecture

Model: Carnice Qwen3.6 MoE 35B-A3B (fine-tuned for agentic/tool-calling)
Base: Qwen 3.6 35B-A3B
Layers: 40
Experts: 256 routed + shared (8 active per token)
Total Parameters: ~35B
Active Parameters: ~3B per token
Attention: Hybrid (full attention every 4th layer, linear/Mamba otherwise)
APEX Config: 5+5 symmetric edge gradient across 40 layers
Calibration: v1.3 diverse dataset (chat, code, reasoning, multilingual, tool-calling, Wikipedia)
llama.cpp: Built with b8797

Run with LocalAI

local-ai run mudler/Carnice-Qwen3.6-MoE-35B-A3B-APEX-GGUF@Carnice-Qwen3.6-MoE-35B-A3B-APEX-I-Balanced.gguf

Credits

Carnice fine-tune: samuelcardillo
APEX quantization: LocalAI team
Built on llama.cpp

Author: mudler

Likes: 4

Downloads: 0

Tags: gguf, quantized, apex, moe, mixture-of-experts, qwen3, carnice, agentic, tool-calling, base_model:samuelcardillo/Carnice-Qwen3.6-MoE-35B-A3B, base_model:quantized:samuelcardillo/Carnice-Qwen3.6-MoE-35B-A3B, license:apache-2.0, endpoints_compatible, region:us, conversational

OpenMed/OpenMed-PII-Portuguese-SnowflakeMed-Large-568M-v1

language:

pt license: apache-2.0 base_model: Snowflake/snowflake-arctic-embed-l-v2.0 tags:
token-classification
ner
pii
pii-detection
de-identification
privacy
healthcare
medical
clinical
phi
portuguese
pytorch
transformers
openmed pipeline_tag: token-classification library_name: transformers metrics:
f1
precision
recall model-index:
name: OpenMed-PII-Portuguese-SnowflakeMed-Large-568M-v1 results:
- task: type: token-classification name: Named Entity Recognition dataset: name: AI4Privacy + Synthetic Portuguese PII type: ai4privacy/pii-masking-200k split: test metrics:
  - type: f1 value: 0.8921 name: F1 (micro)
  - type: precision value: 0.8914 name: Precision
  - type: recall value: 0.8928 name: Recall widget:
text: "Dr. Pedro Almeida (CPF: 123.456.789-00) pode ser contatado em pedro.almeida@hospital.pt ou +351 912 345 678. Endereço: Rua das Flores 25, 1200-195 Lisboa." example_title: Clinical Note with PII (Portuguese)

OpenMed-PII-Portuguese-SnowflakeMed-Large-568M-v1

Portuguese PII Detection Model | 568M Parameters | Open Source

Model Description

OpenMed-PII-Portuguese-SnowflakeMed-Large-568M-v1 is a transformer-based token classification model fine-tuned for Personally Identifiable Information (PII) detection in Portuguese text. This model identifies and classifies 54 types of sensitive information including names, addresses, social security numbers, medical record numbers, and more.

Key Features

Portuguese-Optimized: Specifically trained on Portuguese text for optimal performance
High Accuracy: Achieves strong F1 scores across diverse PII categories
Comprehensive Coverage: Detects 55+ entity types spanning personal, financial, medical, and contact information
Privacy-Focused: Designed for de-identification and compliance with GDPR and other privacy regulations
Production-Ready: Optimized for real-world text processing pipelines

Performance

Evaluated on the Portuguese test split (AI4Privacy + synthetic data):

| Metric | Score | |:---|:---:| | Micro F1 | 0.8921 | | Precision | 0.8914 | | Recall | 0.8928 | | Macro F1 | 0.6062 | | Weighted F1 | 0.8862 | | Accuracy | 0.9386 |

Top 10 Portuguese PII Models

Supported Entity Types

This model detects 54 PII entity types organized into categories:

<details> <summary><strong>Identifiers</strong> (22 types)</summary>

| Entity | Description | |:---|:---| | ACCOUNTNAME | Accountname | | BANKACCOUNT | Bankaccount | | BIC | Bic | | BITCOINADDRESS | Bitcoinaddress | | CREDITCARD | Creditcard | | CREDITCARDISSUER | Creditcardissuer | | CVV | Cvv | | ETHEREUMADDRESS | Ethereumaddress | | IBAN | Iban | | IMEI | Imei | | ... | and 12 more |

</details> <details> <summary><strong>Personal Info</strong> (11 types)</summary>

| Entity | Description | |:---|:---| | AGE | Age | | DATEOFBIRTH | Dateofbirth | | EYECOLOR | Eyecolor | | FIRSTNAME | Firstname | | GENDER | Gender | | HEIGHT | Height | | LASTNAME | Lastname | | MIDDLENAME | Middlename | | OCCUPATION | Occupation | | PREFIX | Prefix | | ... | and 1 more |

</details> <details> <summary><strong>Contact Info</strong> (2 types)</summary>

| Entity | Description | |:---|:---| | EMAIL | Email | | PHONE | Phone |

</details> <details> <summary><strong>Location</strong> (9 types)</summary>

| Entity | Description | |:---|:---| | BUILDINGNUMBER | Buildingnumber | | CITY | City | | COUNTY | County | | GPSCOORDINATES | Gpscoordinates | | ORDINALDIRECTION | Ordinaldirection | | SECONDARYADDRESS | Secondaryaddress | | STATE | State | | STREET | Street | | ZIPCODE | Zipcode |

</details> <details> <summary><strong>Organization</strong> (3 types)</summary>

| Entity | Description | |:---|:---| | JOBDEPARTMENT | Jobdepartment | | JOBTITLE | Jobtitle | | ORGANIZATION | Organization |

</details> <details> <summary><strong>Financial</strong> (5 types)</summary>

| Entity | Description | |:---|:---| | AMOUNT | Amount | | CURRENCY | Currency | | CURRENCYCODE | Currencycode | | CURRENCYNAME | Currencyname | | CURRENCYSYMBOL | Currencysymbol |

</details> <details> <summary><strong>Temporal</strong> (2 types)</summary>

| Entity | Description | |:---|:---| | DATE | Date | | TIME | Time |

</details>

Usage

Quick Start

from transformers import pipeline

# Load the PII detection pipeline
ner = pipeline("ner", model="OpenMed/OpenMed-PII-Portuguese-SnowflakeMed-Large-568M-v1", aggregation_strategy="simple")

text = """
Paciente Carlos Mendes (nascido em 15/03/1985, CPF: 987.654.321-00) foi atendido hoje.
Contato: carlos.mendes@email.pt, Telefone: +351 912 345 678.
Endereço: Avenida da Liberdade 42, 1250-096 Lisboa.
"""

entities = ner(text)
for entity in entities:
    print(f"{entity['entity_group']}: {entity['word']} (score: {entity['score']:.3f})")

De-identification Example

def redact_pii(text, entities, placeholder='[REDACTED]'):
    """Replace detected PII with placeholders."""
    # Sort entities by start position (descending) to preserve offsets
    sorted_entities = sorted(entities, key=lambda x: x['start'], reverse=True)
    redacted = text
    for ent in sorted_entities:
        redacted = redacted[:ent['start']] + f"[{ent['entity_group']}]" + redacted[ent['end']:]
    return redacted

# Apply de-identification
redacted_text = redact_pii(text, entities)
print(redacted_text)

Batch Processing

from transformers import AutoModelForTokenClassification, AutoTokenizer
import torch

model_name = "OpenMed/OpenMed-PII-Portuguese-SnowflakeMed-Large-568M-v1"
model = AutoModelForTokenClassification.from_pretrained(model_name)
tokenizer = AutoTokenizer.from_pretrained(model_name)

texts = [
    "Paciente Carlos Mendes (nascido em 15/03/1985, CPF: 987.654.321-00) foi atendido hoje.",
    "Contato: carlos.mendes@email.pt, Telefone: +351 912 345 678.",
]

inputs = tokenizer(texts, return_tensors='pt', padding=True, truncation=True)
with torch.no_grad():
    outputs = model(**inputs)
    predictions = torch.argmax(outputs.logits, dim=-1)

Training Details

Dataset

This model was trained on a combination of:

AI4Privacy PII Masking 200K: Multilingual base dataset (200K records across 8 languages)
NVIDIA Nemotron-PII: Seed dataset for synthetic data generation
Synthetic Portuguese Data: ~80K high-quality samples generated with locale-specific formatting (CPF format, +55 phones, Brazilian names, R$ currency)
Format: BIO-tagged token classification
Labels: 76 BIO tags (54 entity types)

Training Configuration

Max Sequence Length: 512 tokens
Epochs: 3
Framework: Hugging Face Transformers + Trainer API

Intended Use & Limitations

Intended Use

De-identification: Automated redaction of PII in Portuguese clinical notes, medical records, and documents
Compliance: Supporting GDPR, and other privacy regulation compliance
Data Preprocessing: Preparing datasets for research by removing sensitive information
Audit Support: Identifying PII in document collections

Limitations

Important: This model is intended as an assistive tool, not a replacement for human review.

False Negatives: Some PII may not be detected; always verify critical applications
Context Sensitivity: Performance may vary with domain-specific terminology
Language: Optimized for Portuguese text; may not perform well on other languages

Citation

@misc{openmed-pii-2026,
  title = {OpenMed-PII-Portuguese-SnowflakeMed-Large-568M-v1: Portuguese PII Detection Model},
  author = {OpenMed Science},
  year = {2026},
  publisher = {Hugging Face},
  url = {https://huggingface.co/OpenMed/OpenMed-PII-Portuguese-SnowflakeMed-Large-568M-v1}
}

Links

Organization: OpenMed

Author: OpenMed

Likes: 4

Downloads: 0

Tags: transformers, safetensors, xlm-roberta, token-classification, ner, pii, pii-detection, de-identification, privacy, healthcare, medical, clinical, phi, portuguese, pytorch, openmed, pt, base_model:Snowflake/snowflake-arctic-embed-l-v2.0, base_model:finetune:Snowflake/snowflake-arctic-embed-l-v2.0, license:apache-2.0, model-index, endpoints_compatible, region:us

oumoumad/LTX-2.3-22b-IC-LoRA-Uncompress

base_model:

Lightricks/LTX-2.3 language:
en license: other license_name: ltx-2-community-license license_link: https://github.com/Lightricks/LTX-2/blob/main/LICENSE pipeline_tag: video-to-video tags:
ltx-video
ic-lora
uncompress
compression-artifact
restoration

LTX-2.3 22B IC-LoRA Uncompress

This is an Uncompress IC-LoRA trained on top of LTX-2.3-22b, designed to remove MP4 compression artifacts and restore clean video. It effectively reverses the quality loss introduced by aggressive video compression — blocking, banding, mosquito noise, ringing — to recover sharper, cleaner footage.

It is based on the LTX-2.3 foundation model.

Model Files

ltx-2.3-22b-ic-lora-uncompress.safetensors

Model Details

Base Model: LTX-2.3-22b
Training Type: IC LoRA
Purpose: Remove MP4 compression artifacts / restore video quality

🔌 Using in ComfyUI

Copy the LoRA weights into models/loras.
Use the IC-LoRA workflow from the LTX-2 ComfyUI repository.
Load the LoRA using the LTXICLoRALoaderModelOnly node.

License

See the LTX-2-community-license for full terms.

Author: oumoumad

Likes: 4

Downloads: 0

Tags: ltx-video, ic-lora, uncompress, compression-artifact, restoration, video-to-video, en, base_model:Lightricks/LTX-2.3, base_model:finetune:Lightricks/LTX-2.3, license:other, region:us

huihui-ai/Huihui-Qwen3.6-35B-A3B-Claude-4.6-Opus-abliterated

base_model_relation: finetune library_name: transformers pipeline_tag: image-text-to-text license: apache-2.0 language:

en base_model:
hesamation/Qwen3.6-35B-A3B-Claude-4.6-Opus-Reasoning-Distilled tags:
transformers
safetensors
qwen
qwen3.6
qwen3_5_moe
moe
unsloth
trl
reasoning
chain-of-thought
conversational
image-text-to-text
text-generation-inference
vllm
abliterated
uncensored

huihui-ai/Huihui-Qwen3.6-35B-A3B-Claude-4.6-Opus-abliterated

This is an uncensored version of hesamation/Qwen3.6-35B-A3B-Claude-4.6-Opus-Reasoning-Distilled created with abliteration (see remove-refusals-with-transformers to know more about it). This is a crude, proof-of-concept implementation to remove refusals from an LLM model without using TransformerLens.

Usage Warnings

Risk of Sensitive or Controversial Outputs: This model’s safety filtering has been significantly reduced, potentially generating sensitive, controversial, or inappropriate content. Users should exercise caution and rigorously review generated outputs.
Not Suitable for All Audiences: Due to limited content filtering, the model’s outputs may be inappropriate for public settings, underage users, or applications requiring high security.
Legal and Ethical Responsibilities: Users must ensure their usage complies with local laws and ethical standards. Generated content may carry legal or ethical risks, and users are solely responsible for any consequences.
Research and Experimental Use: It is recommended to use this model for research, testing, or controlled environments, avoiding direct use in production or public-facing commercial applications.
Monitoring and Review Recommendations: Users are strongly advised to monitor model outputs in real-time and conduct manual reviews when necessary to prevent the dissemination of inappropriate content.
No Default Safety Guarantees: Unlike standard models, this model has not undergone rigorous safety optimization. huihui.ai bears no responsibility for any consequences arising from its use.

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Author: huihui-ai

Likes: 4

Downloads: 0

Tags: transformers, safetensors, qwen3_5_moe, image-text-to-text, qwen, qwen3.6, moe, unsloth, trl, reasoning, chain-of-thought, conversational, text-generation-inference, vllm, abliterated, uncensored, en, base_model:hesamation/Qwen3.6-35B-A3B-Claude-4.6-Opus-Reasoning-Distilled, base_model:finetune:hesamation/Qwen3.6-35B-A3B-Claude-4.6-Opus-Reasoning-Distilled, license:apache-2.0, endpoints_compatible, region:us

MahmoodLab/KRONOSv2

Author: MahmoodLab

Likes: 3

Downloads: 0

Tags: multiplex, spatial-proteomics, pathology, vision, pytorch, self-supervised, vit, image-feature-extraction, en, arxiv:2506.03373, license:cc-by-nc-nd-4.0, region:us

Todays AI Summary

AI Developments: Enhanced Pronoun Handling, Synthetic Content Forensics, and More

Noteworthy Research Papers

Model Releases

AI Papers for 2026-04-21

ASMR-Bench: Auditing for Sabotage in ML Research

Using Large Language Models and Knowledge Graphs to Improve the Interpretability of Machine Learning Models in Manufacturing

Learning to Reason with Insight for Informal Theorem Proving

VEFX-Bench: A Holistic Benchmark for Generic Video Editing and Visual Effects

From Benchmarking to Reasoning: A Dual-Aspect, Large-Scale Evaluation of LLMs on Vietnamese Legal Text

Beyond Distribution Sharpening: The Importance of Task Rewards

Characterising LLM-Generated Competency Questions: a Cross-Domain Empirical Study using Open and Closed Models

Joint-Centric Dual Contrastive Alignment with Structure-Preserving and Information-Balanced Regularization

BAGEL: Benchmarking Animal Knowledge Expertise in Language Models

A Two-Stage, Object-Centric Deep Learning Framework for Robust Exam Cheating Detection

AI Models

unsloth/Kimi-K2.6-GGUF

1. Model Introduction

Key Features

2. Model Summary

3. Evaluation Results

4. Native INT4 Quantization

5. Deployment

6. Model Usage

Chat Completion

Chat Completion with visual content

Preserve Thinking

Interleaved Thinking and Multi-Step Tool Call

Coding Agent Framework

7. License

8. Third Party Notices

9. Contact Us

lovis93/crt-animation-terminal-ltx-2.3-lora

📺 crtanim — CRT / Retro Terminal Video LoRA for LTX‑2.3 22B

Checkpoints

Showcase

Range (6k vs 8k vs 10k training steps)

Terminal text rendering (10k is the one)

Usage — fal

Prompt recipe

Caveats

Training

License

Credits

ubergarm/Kimi-K2.6-GGUF

imatrix Quantization of moonshotai/Kimi-K2.6

Big Thanks

Quant Collection

Q4_X 543.617 GiB (4.549 BPW)

IQ3_K 459.945 GiB (3.849 BPW)

smol-IQ3_KS 388.258 GiB (3.249 BPW)

smol-IQ2_KL 329.195 GiB (2.755 BPW)

smol-IQ2_KS 270.133 GiB (2.261 BPW)

smol-IQ1_KT 218.936 GiB (1.832 BPW)

Quick Start

Q4_X Patch

References

unsloth/Kimi-K2.6

1. Model Introduction

Key Features

2. Model Summary

3. Evaluation Results

4. Native INT4 Quantization

5. Deployment

6. Model Usage

Chat Completion

Chat Completion with visual content

Preserve Thinking

Interleaved Thinking and Multi-Step Tool Call

Coding Agent Framework

7. License

8. Third Party Notices

9. Contact Us

oumoumad/LTX-2.3-22b-IC-LoRA-ReFocus

LTX-2.3 22B IC-LoRA ReFocus

Model Files

Model Details

⚠️ Lens blur only

🔌 Using in ComfyUI

License