--- tags: - gguf - llama.cpp - unsloth - vision-language-model - qwen35 - qwen3next - structure - MakeShort - LoRA language: - en - si - fr - de - es - ja - zh - hi - ko base_model: - Qwen/Qwen3.5-2B pipeline_tag: summarization --- # QNS-2-ReLearn-Preview These models are used to summarize text for training data for smaller models. This is in preview; data generated by this model may require review by a human. benchmarks will be released in a few days/weeks > **IMPORTANT NOTE:** Languages besides English are experimental! The model's performance may be unstable below q8. I recommend using BF16 for multilingual heavy data. ## Structure of generated text > QNS models follow a very specific structure. The benefit from this is that the text can be displayed in creative ways in an in-app UI. Example text generated about photosynthesis: ``` Photosynthesis is the fundamental biological process that captures solar energy to produce chemical energy, forming the basis of food chains, atmospheric stability, and global carbon cycling. ``` Then, after this, the model will create the proper summary: ``` ### The Process of Photosynthesis - Photosynthesis is the primary mechanism by which energy from the Sun is captured and transformed into chemical energy stored in glucose. - It occurs in plant cells within specialized organelles called chloroplasts, utilizing pigments like chlorophyll to absorb light energy. - The process involves two major stages: light-dependent reactions and light-independent reactions (Calvin Cycle). - Light-dependent reactions occur in the thylakoid membranes, generating ATP and NADPH while splitting water molecules. - Light-independent reactions (Calvin Cycle) use ATP and NADPH to fix carbon dioxide into glucose. - Photosynthesis requires raw materials such as carbon dioxide, water, and sunlight, and involves the coordinated movement of these substances within the plant. ### Mechanisms and Factors - **Light Dependent Reactions:** - Light energy excites electrons in chlorophyll, initiating a chain of reactions that produce ATP and NADPH. - Water molecules are split (photolysis), releasing oxygen as a byproduct. - **Light Independent Reactions (Calvin Cycle):** - These reactions occur in the stroma and depend on ATP and NADPH from the light reactions. - Carbon dioxide is incorporated into organic molecules to synthesize glucose and other carbohydrates. - **Environmental Influences:** - **Light Intensity:** Limits the energy available; saturation occurs at high light levels. - **Temperature:** Enzymes involved in photosynthesis are sensitive; extreme temperatures can denature them. - **Carbon Dioxide Concentration:** Higher concentrations generally enhance photosynthetic rates up to a threshold. - **Water Availability:** Essential for stomatal opening; shortages cause stomata to close, limiting carbon dioxide uptake. - **Ecological and Evolutionary Importance:** - Photosynthesis is the foundation of nearly all food chains, providing energy for herbivores and carnivores. - It plays a critical role in climate regulation by absorbing atmospheric carbon dioxide. - Evolutionary adaptations, such as C4 and CAM photosynthesis, demonstrate the flexibility of photosynthetic pathways in response to environmental pressures. ``` The response is very predictable, making it suitable for apps that require summaries. I recommend using QNS-2-preview if you want to do an in-app inference. Note: > Sometimes, the model tends to be chatty or unpredictable. I will fix that in the proper release of the model. Use this model to mass produce data to make training data. I will fix this with a proper human selected dataset, and DPO.