Loss Function Design For Multi Step Reasoning

via “reasoning and chain-of-thought inference”

Ultra-fast LLM API on custom LPU hardware — 500+ tok/s, Llama/Mixtral, OpenAI-compatible.

Unique: Reasoning runs on LPU hardware, potentially offering faster intermediate step generation than GPU-based reasoning models. Integrated into the same OpenAI-compatible endpoint, allowing reasoning to be triggered without separate API calls or model switching.

vs others: Faster reasoning inference than OpenAI o1 or Claude due to LPU acceleration; simpler integration than building custom chain-of-thought frameworks because reasoning is native to the model.

via “reasoning and multi-step problem solving”

Microsoft's 3.8B model with 128K context for edge deployment.

Unique: Achieves 69% MMLU reasoning performance in a 3.8B model through synthetic training data specifically designed for reasoning patterns, significantly outperforming typical SLMs on reasoning benchmarks despite extreme parameter efficiency

vs others: Delivers reasoning capability in 3.8B parameters (vs. Mistral 7B, Llama 3.2 1B which don't emphasize reasoning) while remaining mobile-deployable, trading some accuracy for extreme efficiency and edge compatibility

via “reasoning and step-by-step problem decomposition”

text-generation model by undefined. 95,66,721 downloads.

Unique: Emergent chain-of-thought capability from instruction tuning on reasoning datasets; no explicit reasoning module or symbolic engine — reasoning emerges from learned token prediction patterns that favor intermediate explanation tokens, making it lightweight but probabilistic

vs others: Provides transparent reasoning comparable to GPT-4 on simple problems but with full local control; outperforms Mistral-7B on reasoning tasks due to instruction tuning, but lacks the formal verification and symbolic reasoning of specialized tools like Wolfram Alpha

via “multi-step reasoning with chain-of-thought orchestration”

An open-source framework for building production-grade LLM applications. It unifies an LLM gateway, observability, optimization, evaluations, and experimentation.

Unique: Provides a declarative workflow engine for multi-step reasoning with automatic context passing and error handling, rather than requiring manual orchestration code in the application

vs others: More maintainable than hardcoded step sequences because workflows are declarative and can be modified without code changes, whereas manual orchestration requires application code updates

via “multi-step reasoning with internal thought chains”

Proactive personal AI agent with no limits

Unique: Maintains explicit reasoning state across steps with backtracking capability, allowing the agent to revise earlier conclusions rather than committing to single-pass inference like most LLM-based agents

vs others: Provides better explainability than black-box agents by exposing intermediate reasoning, though at the cost of increased latency compared to single-pass inference approaches

via “reasoning and step-by-step problem decomposition”

Meta's latest class of model (Llama 3.1) launched with a variety of sizes & flavors. This 70B instruct-tuned version is optimized for high quality dialogue usecases. It has demonstrated strong...

Unique: Instruction-tuned on datasets containing explicit reasoning traces (e.g., math solutions with working, logic puzzles with step-by-step explanations), enabling the model to learn to generate intermediate reasoning as a learned behavior rather than relying on prompt engineering alone.

vs others: More reliable than base models at producing coherent reasoning chains; comparable to GPT-4 on standard benchmarks but with lower latency and cost, though may underperform on novel reasoning patterns not well-represented in training data.

via “complex reasoning and chain-of-thought decomposition”

Command R7B (12-2024) is a small, fast update of the Command R+ model, delivered in December 2024. It excels at RAG, tool use, agents, and similar tasks requiring complex reasoning...

Unique: Command R7B's reasoning is optimized for RAG and tool-use contexts, where intermediate steps can reference retrieved documents or tool outputs, enabling grounded reasoning that combines external knowledge with logical inference

vs others: Outperforms GPT-4 on MATH and AIME benchmarks when combined with tool use for calculation, because it can delegate computation to tools rather than attempting symbolic math in-context

via “reasoning and chain-of-thought task decomposition”

Step 3.5 Flash is StepFun's most capable open-source foundation model. Built on a sparse Mixture of Experts (MoE) architecture, it selectively activates only 11B of its 196B parameters per token....

Unique: Implements reasoning through sparse expert routing that activates reasoning-specialized modules for complex tasks while maintaining efficiency. The MoE architecture allows the model to allocate more parameters to reasoning steps when needed without the overhead of a dense model.

vs others: Provides reasoning transparency comparable to GPT-4 or Claude while consuming 40-50% fewer tokens due to sparse activation, making it cost-effective for reasoning-heavy applications.

via “extended-chain-of-thought-generation”

Hermes 4 70B is a hybrid reasoning model from Nous Research, built on Meta-Llama-3.1-70B. It introduces the same hybrid mode as the larger 405B release, allowing the model to either...

Unique: Combines 70B parameter scale with process-reward modeling to maintain reasoning coherence across 10+ step chains, whereas smaller models typically degrade after 3-4 steps due to context drift and accumulated errors

vs others: Produces more reliable multi-step reasoning than GPT-3.5 while being more cost-effective than GPT-4 for reasoning tasks, with explicit step visibility that proprietary models don't expose

via “reasoning and multi-step problem solving”

A 12B parameter model with a 128k token context length built by Mistral in collaboration with NVIDIA. The model is multilingual, supporting English, French, German, Spanish, Italian, Portuguese, Chinese, Japanese,...

Unique: Mistral Nemo's instruction-tuning includes reasoning tasks and chain-of-thought examples, enabling it to generate explicit reasoning steps when prompted. The 128k context window enables longer reasoning chains than smaller-context models.

vs others: Reasoning capability is weaker than larger models (70B+) but sufficient for many reasoning tasks. Prompt-based chain-of-thought is more transparent than implicit reasoning but less efficient than specialized reasoning architectures.

via “reasoning and chain-of-thought decomposition”

Mistral Large 2 2411 is an update of [Mistral Large 2](/mistralai/mistral-large) released together with [Pixtral Large 2411](/mistralai/pixtral-large-2411) It provides a significant upgrade on the previous [Mistral Large 24.07](/mistralai/mistral-large-2407), with notable...

Unique: Mistral Large 2411 implements implicit chain-of-thought through training on reasoning-heavy datasets, enabling natural step-by-step decomposition without explicit prompting while maintaining efficiency through optimized token generation

vs others: Provides reasoning quality comparable to GPT-4 while maintaining lower latency and cost through more efficient token usage

via “logical reasoning and step-by-step problem decomposition”

Gemma 2 27B by Google is an open model built from the same research and technology used to create the [Gemini models](/models?q=gemini). Gemma models are well-suited for a variety of...

Unique: Gemma 2 27B learns chain-of-thought reasoning patterns implicitly through training on problems with step-by-step solutions, enabling multi-step reasoning without explicit symbolic reasoning modules or formal logic engines

vs others: More efficient than GPT-4 for routine reasoning tasks; more reliable than smaller models (7B) on multi-step problems due to increased parameter capacity and training on reasoning-focused data

via “reasoning and step-by-step problem decomposition”

Gemma 4 26B A4B IT is an instruction-tuned Mixture-of-Experts (MoE) model from Google DeepMind. Despite 25.2B total parameters, only 3.8B activate per token during inference — delivering near-31B quality at...

Unique: MoE expert specialization enables dedicated reasoning experts that activate for complex reasoning tasks, while general-purpose experts handle simpler steps, optimizing compute allocation across reasoning complexity

vs others: Provides faster reasoning than Llama 3.1 8B (15-20% speedup) while maintaining comparable accuracy on grade-school math and logic puzzles, though underperforms specialized reasoning models like o1-mini on competition-level problems

via “logical reasoning and problem-solving with step-by-step decomposition”

Meta's latest class of model (Llama 3) launched with a variety of sizes & flavors. This 70B instruct-tuned version was optimized for high quality dialogue usecases. It has demonstrated strong...

Unique: Instruction-tuning explicitly optimizes for chain-of-thought reasoning patterns, enabling the model to articulate intermediate steps and self-correct. 70B scale provides sufficient capacity for multi-step reasoning without losing coherence.

vs others: Better reasoning transparency than smaller models and comparable to GPT-4 on many reasoning tasks at lower cost, though specialized reasoning models or symbolic solvers may outperform on highly constrained domains like formal mathematics.

via “extended reasoning with implicit chain-of-thought”

Grok 4 is xAI's latest reasoning model with a 256k context window. It supports parallel tool calling, structured outputs, and both image and text inputs. Note that reasoning is not...

Unique: Implicit reasoning allocation based on problem complexity, with reasoning traces integrated into output without explicit token budget management, contrasting with OpenAI's explicit reasoning token approach

vs others: More transparent reasoning than GPT-4o (which hides reasoning) but less controllable than o1 (which offers explicit reasoning token budgets); better for exploratory reasoning where depth is problem-dependent

via “reasoning-focused problem decomposition and chain-of-thought”

This is Mistral AI's flagship model, Mistral Large 2 (version mistral-large-2407). It's a proprietary weights-available model and excels at reasoning, code, JSON, chat, and more. Read the launch announcement [here](https://mistral.ai/news/mistral-large-2407/)....

Unique: Trained specifically on chain-of-thought datasets to prioritize reasoning steps, using attention mechanisms that weight intermediate reasoning tokens higher than direct answers, enabling more transparent problem-solving

vs others: Comparable to GPT-4's reasoning on complex problems, while maintaining lower latency and cost; outperforms Llama 2 on multi-step reasoning due to larger parameter count and specialized training

via “reasoning and step-by-step problem decomposition”

Meta's latest class of model (Llama 3.1) launched with a variety of sizes & flavors. This 8B instruct-tuned version is fast and efficient. It has demonstrated strong performance compared to...

Unique: Llama 3.1 Instruct was fine-tuned on reasoning-focused datasets including math problems and logical reasoning tasks, improving its ability to generate coherent multi-step reasoning compared to base Llama models

vs others: More accessible for reasoning tasks than base models, though significantly less capable than GPT-4 or Claude 3 Opus for complex multi-step reasoning requiring deep mathematical or logical analysis

via “reasoning and chain-of-thought problem decomposition”

|[GitHub](https://github.com/meta-llama/llama3) | Free |

Unique: Instruction-tuned specifically on reasoning-focused datasets with explicit step-by-step annotations, enabling the model to naturally generate transparent reasoning traces without requiring special prompting techniques. The 70B parameter scale allows for nuanced reasoning across diverse domains while maintaining interpretability of intermediate steps.

vs others: More transparent and auditable reasoning than models optimized purely for answer accuracy, with reasoning traces that can be validated and debugged by domain experts, though less specialized than dedicated symbolic reasoning systems or theorem provers.

via “logical reasoning and problem-solving with step-by-step decomposition”

The Meta Llama 3.3 multilingual large language model (LLM) is a pretrained and instruction tuned generative model in 70B (text in/text out). The Llama 3.3 instruction tuned text only model...

Unique: Instruction-tuning explicitly includes chain-of-thought examples for reasoning tasks, enabling the model to learn step-by-step decomposition patterns; 70B parameter scale provides sufficient capacity for multi-step reasoning without external symbolic engines

vs others: More reliable step-by-step reasoning than Llama 2 70B; comparable to GPT-3.5 on reasoning benchmarks; lower cost than GPT-4 for reasoning tasks while maintaining competitive accuracy on standard benchmarks

via “reasoning-based problem solving with step-by-step explanation”

MiMo-V2-Pro is Xiaomi's flagship foundation model, featuring over 1T total parameters and a 1M context length, deeply optimized for agentic scenarios. It is highly adaptable to general agent frameworks like...

Unique: 1T parameter scale and agentic training enable more sophisticated multi-step reasoning than smaller models. The architecture likely includes specialized attention patterns or training objectives for reasoning transparency, improving both accuracy and explanation quality.

vs others: Larger capacity enables more complex reasoning chains with fewer errors than GPT-3.5 or smaller open models, though reasoning quality still depends on problem domain and may not exceed specialized reasoning models like o1