DeepSeek V3 vs GPT 5.4
DeepSeek V3 (Azure AI Foundry, 128,000-token context) versus GPT 5.4 (OpenAI, 1,050,000-token context). DeepSeek V3 is cheaper by 67% on a blended token mix. GPT 5.4 uniquely supports function calling and parallel tool calls. Across 2 public benchmarks we tracked, DeepSeek V3 wins 0 and GPT 5.4 wins 2. Use the live calculator below to plug your real usage shape into both, then route the winner via Agent Command Center for shadow A/B without code changes.
Bottom line — DeepSeek V3 vs GPT 5.4
DeepSeek V3 and GPT 5.4 target overlapping workloads but differ sharply on economics. DeepSeek V3 runs roughly 67% cheaper on a blended input-plus-output token mix, which translates to approximately $10,344 per month at mid-market volume (100K requests/day). The gap compounds at enterprise scale, making the cost axis the first filter most teams apply when deciding between these two models.
GPT 5.4 ships a 1,050,000-token context window, 8.2x larger than DeepSeek V3's 128,000 tokens. That headroom matters for long-document RAG pipelines, multi-turn agent sessions that accumulate tool-call history, and codebases where the entire repository needs to fit in a single prompt. If your average prompt stays under 128,000 tokens, the extra context on GPT 5.4 is insurance you may never use — and DeepSeek V3 may win on other axes.
On capability surface area, the models diverge: GPT 5.4 supports function calling where the other does not; GPT 5.4 supports parallel tool calls where the other does not; GPT 5.4 supports vision input where the other does not. These differences are binary — either your workload needs the capability or it does not. Check whether any critical path in your agent pipeline depends on a capability only one model provides before committing to a migration.
Across 2 public benchmarks, DeepSeek V3 leads on 0 and GPT 5.4 leads on 2. The widest gap is on arena-elo, where GPT 5.4 scores 167.0 points higher. Benchmarks are noisy and task-dependent — a model that leads on arena-elo may trail on code generation. The safest approach is to run both models on your own golden set before treating any benchmark as decisive.
For teams evaluating both models, the recommended path is a shadow A/B test: route production traffic through an OpenAI-compatible gateway, mirror a percentage to the candidate model, score both responses with an automated evaluator (faithfulness, tool-call correctness, latency), and compare cohort-level metrics over two weeks. Future AGI Agent Command Center supports this pattern with a single `base_url` change and built-in evaluators from the ai-evaluation SDK.
Live workload comparison
Same workload run through both models. The cheaper one is highlighted.
strategy: cost-optimized
primary:
model: deepseek-v3
provider: azure-ai-foundry
fallback:
model: gpt-5-4
provider: openai
shadow: { sample_rate: 0.05 } # mirror 5% of traffic to compare quality live| DeepSeek V3 | GPT 5.4 | |
|---|---|---|
| Input price | $1.14/M | $2.50/M |
| Output price | $4.56/M | $15.00/M |
| Context window | 128,000 | 1,050,000 |
| Max output | 8,192 | 128,000 |
| Function calling | — | ✓ |
| Vision | — | ✓ |
| Audio input | — | — |
| Reasoning | — | ✓ |
| Prompt caching | — | ✓ |
| Structured output | — | ✓ |
| Pricing verified | Jun 2, 2026 | Jun 2, 2026 |
Benchmark comparison
Side-by-side public benchmark scores. Greener bar = winner.
Cost at scale: monthly spend at three usage volumes
Estimated monthly cost assuming 1,000 input + 200 output tokens per request — a realistic chat-agent shape. Adjust your own usage in the calculator at the top of this page for an exact number.
| Scale | DeepSeek V3 | GPT 5.4 | Delta |
|---|---|---|---|
| Startup 10K requests/day | $616 /mo | $1,650 /mo | $1,034/mo |
| Mid-market 100K requests/day | $6,156 /mo | $16,500 /mo | $10,344/mo |
| Enterprise 1M requests/day | $61,560 /mo | $165,000 /mo | $103,440/mo |
At enterprise scale (1M requests/day), a difference of even ~10% in unit price compounds into thousands of dollars per month. Cached input pricing and batch tiers can shift this further — both are surfaced on each model's own page.
When to choose which
Picked from the data above — not vendor marketing. Match the rules to your workload, not the other way around.
You're cost-sensitive at scale — DeepSeek V3 runs ~67% cheaper on a blended in+out token mix, compounding into thousands of dollars per month at production volume.
Your workload needs long context — GPT 5.4 fits 1,050,000 tokens versus the other model's 128,000, enough headroom for full books, large codebases, or 100+ page documents in one shot.
Your inputs include screenshots, diagrams, or product photos — GPT 5.4 accepts image input natively, the other doesn't.
Your tasks involve multi-step planning or math-heavy reasoning — GPT 5.4 ships a native reasoning mode that explicitly thinks before responding, the other doesn't.
You re-send the same large system prompt across requests — GPT 5.4 supports prompt caching, cutting input cost on repeat hits.
Your agent calls tools or APIs — GPT 5.4 supports function calling natively, the other model needs a parser shim.
On arena-elo, GPT 5.4 scores 167.0 points higher — if your workload pattern matches that benchmark's task shape, the gap is meaningful.
Capability diff — what you gain and lose on the swap
A specific list of what each model has that the other doesn't. If your workload depends on a row in Only DeepSeek V3, switching to GPT 5.4 means re-architecting that path (and vice versa).
- • Function calling
- • Parallel tool calls
- • Vision input
- • PDF input
- • Structured output (JSON schema)
- • Prompt caching
- • Native reasoning mode
Capabilities both share (1)
- ✓ Streaming
Benchmark winners — by the numbers
For each public benchmark that has scores for both models, the higher score and the size of the gap. Benchmarks are noisy — treat anything under a 2-point delta as effectively tied.
| Benchmark | DeepSeek V3 | GPT 5.4 | Winner | Δ |
|---|---|---|---|---|
| arena-elo | 1310.0 | 1477.0 | GPT 5.4 | +167.0 |
| gpqa-diamond | 59.1 | 92.8 | GPT 5.4 | +33.7 |
Migration considerations
Concrete differences to wire through your stack before you flip traffic from one to the other.
- Context window changes up 720% when moving from DeepSeek V3 (128,000) to GPT 5.4 (1,050,000). Re-check any prompt that relies on cramming long history or documents.
- Max output tokens differ: 8,192 on DeepSeek V3 vs 128,000 on GPT 5.4. Long-form generation tasks may truncate differently — adjust streaming UI and chunking accordingly.
- GPT 5.4 has capabilities DeepSeek V3 lacks: Function calling, Parallel tool calls, Vision input, PDF input, Structured output (JSON schema), Prompt caching, Native reasoning mode. Worth wiring through the agent design before commit.
- Provider changes from Azure AI Foundry to OpenAI. API authentication, rate-limit policy, regional availability, and billing all shift. Most teams route through an OpenAI-compatible gateway (e.g., Future AGI Agent Command Center) so the swap is a single `base_url` change instead of an SDK rewrite.
How to A/B test DeepSeek V3 vs GPT 5.4 in production
If you're stuck between the two, run them side-by-side on real traffic. Four steps the Future AGI team uses internally:
- 1. Point your existing OpenAI SDK at
https://gateway.futureagi.com/v1. No code change beyondbase_urland a virtual key. - 2. Mark DeepSeek V3 primary, mirror 20% of traffic to GPT 5.4 in shadow mode. Both responses are logged; only the primary is served to users.
- 3. Score every shadow response with an evaluator — faithfulness, tool-call correctness, response latency, cost. Built-in evaluators in ai-evaluation cover the common axes.
- 4. Compare cohort-level metrics after two weeks. Switch primary when the candidate wins on what matters to your workload — and stays within your latency budget.
Full walkthrough on the Agent Command Center page.
FAQ — DeepSeek V3 vs GPT 5.4
Which is cheaper, DeepSeek V3 or GPT 5.4? ▾
DeepSeek V3 is cheaper by roughly 67% on a blended input + output token mix. Input prices are $1.14/M for DeepSeek V3 versus $2.50/M for GPT 5.4; output prices are $4.56/M versus $15.00/M. The exact savings depend on your input:output ratio — use the live calculator above to plug in your own request shape.
What is the context window of DeepSeek V3 versus GPT 5.4? ▾
DeepSeek V3 supports up to 128,000 tokens of context. GPT 5.4 supports up to 1,050,000 tokens. GPT 5.4 has the larger window by a factor of 8.2x, which matters for long-document RAG, multi-turn agent sessions, and tasks that need to keep an entire codebase in working memory.
Do DeepSeek V3 and GPT 5.4 both support tool calling? ▾
Only GPT 5.4 supports native function calling. The other model can still be made to call tools through a structured-output workaround, but the reliability of that pattern is lower than native support.
Can DeepSeek V3 and GPT 5.4 process images? ▾
GPT 5.4 accepts native image input. DeepSeek V3 does not — you would need to route image-heavy workloads through GPT 5.4 or add a separate vision model in front of DeepSeek V3.
Which model supports prompt caching for cost reduction? ▾
GPT 5.4 supports prompt caching; the other does not. If your agent has a stable system prompt + retrieval context block that repeats across requests, GPT 5.4 gives you a 50–90% discount on those repeated input tokens at the provider level.
When should I choose DeepSeek V3 over GPT 5.4? ▾
You're cost-sensitive at scale — DeepSeek V3 runs ~67% cheaper on a blended in+out token mix, compounding into thousands of dollars per month at production volume.
When should I choose GPT 5.4 over DeepSeek V3? ▾
Your workload needs long context — GPT 5.4 fits 1,050,000 tokens versus the other model's 128,000, enough headroom for full books, large codebases, or 100+ page documents in one shot. Your inputs include screenshots, diagrams, or product photos — GPT 5.4 accepts image input natively, the other doesn't. Your tasks involve multi-step planning or math-heavy reasoning — GPT 5.4 ships a native reasoning mode that explicitly thinks before responding, the other doesn't. You re-send the same large system prompt across requests — GPT 5.4 supports prompt caching, cutting input cost on repeat hits. Your agent calls tools or APIs — GPT 5.4 supports function calling natively, the other model needs a parser shim. On arena-elo, GPT 5.4 scores 167.0 points higher — if your workload pattern matches that benchmark's task shape, the gap is meaningful.
How do I A/B test DeepSeek V3 against GPT 5.4 in production? ▾
Route both through an OpenAI-compatible gateway like Future AGI Agent Command Center with shadow mode enabled. Send 100% of traffic to your primary model, mirror 10–20% to the candidate, score every response with an evaluator (faithfulness, tool-call correctness, response time), and compare cohort-level metrics for two weeks. Switch when the candidate wins on the metrics that matter to your workload and stays within your latency budget.