AI Model Comparison

GLM-5 vs Grok 4

Verdict
GLM-5 vs Grok 4: Grok 4 scores higher on the Intelligence Index

Head-to-head specifications

MetricGLM-5Grok 4Difference
Intelligence Index33.034.0-2.9%
Context window256K tokens400K tokens
Blended price ($/1M tokens)$0.52$1.68-69.0%
AccessOpen weightsProprietary API
  • Grok 4 leads overall capability (Intelligence Index 34.0 vs 33.0).
  • GLM-5 is the cheaper model to run at $0.52/1M blended tokens — about 3.2× cheaper.
  • Grok 4 offers the larger context window (400K tokens), useful for long documents and codebases.

Verdict: GLM-5 or Grok 4?

Our recommendation
GLM-5 takes the overall edge, though Grok 4 wins in specific areas worth weighing.

GLM-5 advantages

  • Affordability (+69%)

Grok 4 advantages

  • Context window (+36%)

Which should you choose?

  • Choose the GLM-5 if you want the lowest cost per token at scale.
  • Choose the Grok 4 if you work with long documents or large codebases.

Value for money

GLM-5 offers more intelligence per dollar (3.1× 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.

GLM-5 vs Grok 4: which should you choose?

GLM-5 — Z.ai (Zhipu) text model with an Intelligence Index of 33, a 256K-token context window and a blended price of $0.52/1M tokens (open weights).

Grok 4 — xAI multimodal model with an Intelligence Index of 34, a 400K-token context window and a blended price of $1.68/1M tokens.

GLM-5 vs Grok 4: Grok 4 scores higher on the Intelligence Index. Grok 4 leads overall capability (Intelligence Index 34.0 vs 33.0). GLM-5 is the cheaper model to run at $0.52/1M blended tokens — about 3.2× cheaper.

Capability: intelligence, coding and agentic work

On the composite Intelligence Index the Grok 4 scores 34.0 versus 33.0. Composite indices summarize many evaluations, but always test on your own workload before committing.

Context window and speed

The Grok 4 accepts up to 400K tokens per request, which sets how much documentation, transcript or code it can reason over at once.

Pricing and access

At blended per-token rates, GLM-5 is the cheaper model to run ($0.52 vs $1.68 per 1M tokens). GLM-5 is open weights and Grok 4 is proprietary api. 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 GLM-5 better than the Grok 4?

GLM-5 takes the overall edge, though Grok 4 wins in specific areas worth weighing. Grok 4 leads overall capability (Intelligence Index 34.0 vs 33.0).

What is the main difference between the GLM-5 and the Grok 4?

Grok 4 leads overall capability (Intelligence Index 34.0 vs 33.0). GLM-5 is the cheaper model to run at $0.52/1M blended tokens — about 3.2× cheaper.

Which is better value?

GLM-5 offers more intelligence per dollar (3.1× 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 GLM-5 if you want the lowest cost per token at scale. Choose the Grok 4 if you work with long documents or large codebases.

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.

MC
Marcus Chen
Hardware & Product Analyst

Marcus benchmarks processors, GPUs, phones and vehicles and maintains normalized performance databases.

MSc Computer Engineering10+ years review experience
✓ Reviewed by Priya Nair, Data Quality Reviewer.
Last updated 2026-07-01
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