AI tool comparison
GLM-5.1 vs Qwen3.6-35B-A3B
Which one should you ship with? Here is the side-by-side panel verdict, pricing read, reviewer split, and community vote comparison.
AI Models
GLM-5.1
#1 on SWE-Bench Pro — Zhipu's open 754B MoE beats GPT-5 on coding
50%
Panel ship
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Community
Paid
Entry
Z.ai (formerly Zhipu AI) has released GLM-5.1, a 754B-parameter Mixture-of-Experts model that's currently sitting at #1 on SWE-Bench Pro with a score of 58.4 — outperforming GPT-5.4 and Claude Opus 4.6 on long-horizon software engineering tasks. The model ships under MIT license with full weights on HuggingFace. GLM-5.1 was specifically designed for agentic software engineering workflows: multi-file reasoning, autonomous test-run-fix loops, and extended coding sessions that span hundreds of tool calls. It's not just a capability leap — at 754B active parameters via sparse MoE, it can be run more efficiently than a dense model of equivalent capability on a sufficiently provisioned cluster. The SWE-Bench Pro result is significant because that benchmark is harder to game than vanilla SWE-Bench Verified. It tests whether a model can resolve real GitHub issues with correct tests, proper diffs, and no regressions — the things that actually matter in production. For anyone running self-hosted coding agents or building on open models, GLM-5.1 just became the new baseline to beat.
AI Models
Qwen3.6-35B-A3B
35B MoE model, only 3B active params, beats Claude Sonnet 4.5 on benchmarks
75%
Panel ship
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Community
Paid
Entry
Qwen3.6-35B-A3B is Alibaba's latest sparse Mixture-of-Experts model — 35 billion total parameters, but only 3 billion activate per forward pass. That efficiency makes it competitive with models three to four times larger at inference while fitting comfortably on consumer hardware. It's natively multimodal, handling image, video, document, and spatial reasoning inputs out of the box, with a 262K context window extensible to 1M tokens. The benchmark numbers have been drawing serious attention. SWE-bench Verified: 73.4% (vs Gemma 4-31B at 52%, and substantially above Claude Sonnet 4.5). MMMU: 81.7 (Claude Sonnet 4.5 scores 79.6). AIME 2026: 92.7. On local inference hardware, community reports show 79–187 tokens/second depending on GPU tier, making it genuinely usable for agentic workflows without API latency. Released under Apache 2.0. The timing matters. With Claude Opus 4.7 drawing community criticism over tokenizer-inflated pricing, Qwen3.6-35B-A3B is arriving as a credible local alternative for agentic coding. r/LocalLLaMA threads from the past week show active migration from Opus 4.7 to Qwen3.6 for cost-sensitive workloads. It's currently #1 trending on Replicate.
Reviewer scorecard
“If the SWE-Bench Pro numbers hold up under independent replication, this is the first open model that can genuinely replace a proprietary API for serious agentic coding work. MIT license means you can fine-tune and deploy on your own infra. This is a big deal.”
“73.4% SWE-bench with 3B active params is extraordinary efficiency. This runs on a single A100 at usable speed, which means you can deploy it self-hosted for agentic coding pipelines without paying frontier API rates. The Apache license seals it — this goes into our infra immediately.”
“754B parameters is not something 99% of developers can run locally. You need a multi-GPU cluster or serious cloud spend. The benchmark numbers are from Z.ai's own evaluations, and Zhipu has a history of optimistic benchmarking. Wait for independent replications.”
“Alibaba benchmarks should be read with appropriate skepticism — SWE-bench scores are sensitive to eval harness choices and there have been reproducibility issues with some Qwen claims before. Also, the 262K context at 3B active params sounds too good; I'd want to see real-world retrieval accuracy at 200K+ before trusting it in production agentic pipelines.”
“A Chinese lab shipping an MIT-licensed model that tops global coding benchmarks is a watershed moment for open-source AI. The geopolitical implications are real — this is the model that makes US export controls look strategically shortsighted.”
“MoE with sparse activation is clearly the dominant architecture for the next wave of open models. The fact that 3B active params can match 2024's frontier is a signal about where inference efficiency is heading. In 12 months, 'frontier-competitive' will mean running locally on a MacBook.”
“Unless you're building coding tools or agent infrastructure, a 754B MoE model doesn't move the needle for creative applications. The energy and infra overhead for creative use cases doesn't pencil out versus smaller, cheaper models.”
“Native multimodal handling of images, video, and documents at this efficiency is a game-changer for content pipelines. If the quality holds up on real-world design tasks, this replaces a stack of specialized models with one local deployment.”
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