MiniMax-M2.7 vs Claude Opus 4.6 (Adaptive Reasoning, Max Effort): Which AI Model Is Better?

Q: Should I use MiniMax-M2.7 or Claude Opus 4.6 (Adaptive Reasoning, Max Effort)?

It depends on your priorities. Claude Opus 4.6 (Adaptive Reasoning, Max Effort) scores higher on intelligence (53.0), but MiniMax-M2.7 may be better for specific use cases like budget-conscious projects or speed-critical applications.

Updated March 26, 2026· Based on independent benchmark data

Quick Verdict

Claude Opus 4.6 (Adaptive Reasoning, Max Effort) leads in intelligence with a score of 53.0 vs 49.6. MiniMax-M2.7 is 16.7x cheaper at $0.30/1M tokens vs $5.00/1M.

Head-to-Head Comparison

Metric	MiniMax-M2.7	Claude Opus 4.6 (Adaptive Reasoning, Max Effort)
Intelligence Score	49.6	53.0
Coding Score	41.9	48.1
Math Score	N/A	N/A
Speed (tok/s)	45 tok/s	51 tok/s
Latency (TTFT)	1.78s	12.63s
Input Price / 1M tokens	$0.30	$5.00
Output Price / 1M tokens	$1.20	$25
Context Window

Detailed Analysis

Intelligence & Quality

Claude Opus 4.6 (Adaptive Reasoning, Max Effort) outperforms MiniMax-M2.7 on the intelligence index with a score of 53.0 compared to 49.6. For coding tasks, Claude Opus 4.6 (Adaptive Reasoning, Max Effort) has the edge with a coding score of 48.1 vs 41.9.

Speed & Latency

Both models deliver similar output speeds: MiniMax-M2.7 at 45 tok/s and Claude Opus 4.6 (Adaptive Reasoning, Max Effort) at 51 tok/s. Time to first token is 1.78s for MiniMax-M2.7 vs 12.63s for Claude Opus 4.6 (Adaptive Reasoning, Max Effort), which affects perceived responsiveness in interactive applications.

Pricing

MiniMax-M2.7 is more affordable at $0.30/1M input tokens ($1.20/1M output), while Claude Opus 4.6 (Adaptive Reasoning, Max Effort) costs $5.00/1M input ($25/1M output). That makes Claude Opus 4.6 (Adaptive Reasoning, Max Effort) 16.7x more expensive per token, which can add up significantly at scale. For a typical workload of 100 requests per day at 2,000 tokens each, MiniMax-M2.7 would cost approximately $1.80/month vs $30.00/month for Claude Opus 4.6 (Adaptive Reasoning, Max Effort) in input costs alone.

Best Use Cases

Choose MiniMax-M2.7 when you need lower cost. Choose Claude Opus 4.6 (Adaptive Reasoning, Max Effort) when you need higher intelligence (53.0), stronger coding performance (48.1).

Choose MiniMax-M2.7 if:

✓You want lower latency (1.78s vs 12.63s TTFT)
✓Budget is a concern ($0.30/1M vs $5.00/1M)

Choose Claude Opus 4.6 (Adaptive Reasoning, Max Effort) if:

✓You need higher intelligence (score: 53.0 vs 49.6)
✓You prioritize coding performance (score: 48.1 vs 41.9)

Frequently Asked Questions

Is MiniMax-M2.7 better than Claude Opus 4.6 (Adaptive Reasoning, Max Effort) for coding?

Claude Opus 4.6 (Adaptive Reasoning, Max Effort) scores higher on coding benchmarks (48.1 vs 41.9), making it the better choice for programming tasks.

Which is cheaper, MiniMax-M2.7 or Claude Opus 4.6 (Adaptive Reasoning, Max Effort)?

MiniMax-M2.7 is cheaper at $0.30/1M input tokens vs $5.00/1M for Claude Opus 4.6 (Adaptive Reasoning, Max Effort).

Is MiniMax-M2.7 faster than Claude Opus 4.6 (Adaptive Reasoning, Max Effort)?

Claude Opus 4.6 (Adaptive Reasoning, Max Effort) is faster, producing output at 51 tok/s compared to MiniMax-M2.7's 45 tok/s.

Can MiniMax-M2.7 process images?

No, MiniMax-M2.7 does not support image input. Neither model supports image input.

Should I use MiniMax-M2.7 or Claude Opus 4.6 (Adaptive Reasoning, Max Effort)?

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View MiniMax-M2.7details →View Claude Opus 4.6 (Adaptive Reasoning, Max Effort)details →Full pricing comparison →

Data last synced: March 26, 2026