Claude 4.1 Opus vs Kimi K2.6
Head-to-head specifications
| Metric | Claude 4.1 Opus | Kimi K2.6 | Difference |
|---|---|---|---|
| Intelligence Index | 30.0 | 35.0 | -14.3% |
| Context window | 262K tokens | 300K tokens | — |
| Blended price ($/1M tokens) | $1.68 | $0.56 | +200.0% |
| Output speed (tokens/s) | 30 | 40 | -25.0% |
| Access | Proprietary API | Open weights | — |
- Kimi K2.6 leads overall capability (Intelligence Index 35.0 vs 30.0).
- Kimi K2.6 is the cheaper model to run at $0.56/1M blended tokens — about 3.0× cheaper.
- Kimi K2.6 offers the larger context window (300K tokens), useful for long documents and codebases.
Verdict: Claude 4.1 Opus or Kimi K2.6?
Claude 4.1 Opus advantages
- No decisive advantage on the tracked metrics.
Kimi K2.6 advantages
- General intelligence (+14%)
- Context window (+13%)
- Affordability (+67%)
- Output speed (+25%)
Which should you choose?
- Choose the Kimi K2.6 if you need the strongest overall reasoning and accuracy.
Value for money
Kimi K2.6 offers more intelligence per dollar (3.5× the Intelligence-Index-per-cost of the alternative), making it the stronger value for high-volume use. It is also open-weight, so self-hosting can reduce costs further at scale.
Claude 4.1 Opus vs Kimi K2.6: which should you choose?
Claude 4.1 Opus — Anthropic multimodal model with an Intelligence Index of 30, a 262K-token context window and a blended price of $1.68/1M tokens.
Kimi K2.6 — Moonshot AI text model with an Intelligence Index of 35, a 300K-token context window and a blended price of $0.56/1M tokens (open weights).
Claude 4.1 Opus vs Kimi K2.6: Kimi K2.6 scores higher on the Intelligence Index. Kimi K2.6 leads overall capability (Intelligence Index 35.0 vs 30.0). Kimi K2.6 is the cheaper model to run at $0.56/1M blended tokens — about 3.0× cheaper.
Capability: intelligence, coding and agentic work
On the composite Intelligence Index the Kimi K2.6 scores 35.0 versus 30.0. Composite indices summarize many evaluations, but always test on your own workload before committing.
Context window and speed
The Kimi K2.6 accepts up to 300K tokens per request, which sets how much documentation, transcript or code it can reason over at once. In measured throughput, Kimi K2.6 generates faster (40 vs 30 tokens/s), which matters for interactive apps and high-volume pipelines.
Pricing and access
At blended per-token rates, Kimi K2.6 is the cheaper model to run ($0.56 vs $1.68 per 1M tokens). Claude 4.1 Opus is proprietary api and Kimi K2.6 is open weights. Open-weight models can be self-hosted, trading per-call cost for infrastructure you manage; for production also weigh rate limits, throughput and data-residency requirements.
The verdict
Both are credible choices in the ai model comparison space; the specification table above lays out every metric so you can weigh the trade-offs that matter to you. Pick the one whose strengths line up with how you will actually use it.
Frequently asked questions
Is the Claude 4.1 Opus better than the Kimi K2.6?
Kimi K2.6 is the clearly stronger overall choice, winning most of the dimensions that matter. Kimi K2.6 leads overall capability (Intelligence Index 35.0 vs 30.0).
What is the main difference between the Claude 4.1 Opus and the Kimi K2.6?
Kimi K2.6 leads overall capability (Intelligence Index 35.0 vs 30.0). Kimi K2.6 is the cheaper model to run at $0.56/1M blended tokens — about 3.0× cheaper.
Which is better value?
Kimi K2.6 offers more intelligence per dollar (3.5× the Intelligence-Index-per-cost of the alternative), making it the stronger value for high-volume use. It is also open-weight, so self-hosting can reduce costs further at scale.
Which should I choose?
Choose the Kimi K2.6 if you need the strongest overall reasoning and accuracy.
Methodology
Large language models are compared on independent leaderboard metrics: an Intelligence Index (a composite of reasoning and knowledge evaluations), Coding and Agentic indices where measured, community arena Elo, maximum context window, a blended API price per million tokens (weighted across cache-hit, input and output rates), and measured output speed in tokens per second. Where a model ships multiple reasoning-effort variants, we report its strongest variant. Benchmarks capture only part of real-world quality, which also depends on tool use, latency, safety and task fit — and this space moves quickly, so figures reflect the leaderboard snapshot on the page date.