NVIDIA GH200 Grace Hopper VS NVIDIA L4
Choosing between **GH200** and **L4** depends on your specific AI workload requirements. The **GH200** leads in both memory capacity and raw compute power, making it a stronger choice for high-end LLM training. Currently, you can rent these GPUs starting from **$1.49/h** and **$0.26/h** respectively across 36 providers.
📊 Detailed Specifications Comparison
| Specification | GH200 | L4 | Difference |
|---|---|---|---|
| Architecture & Design | |||
| Architecture | Hopper + Grace | Ada Lovelace | - |
| Process Node | 4nm | 4nm | - |
| Target Market | datacenter | datacenter | - |
| Form Factor | Superchip | Single-slot PCIe | - |
| Memory & Bandwidth | |||
| VRAM Capacity | 96GB | 24GB | +300% |
| Memory Type | HBM3 | GDDR6 | - |
| Memory Bandwidth | 4.0 TB/s | 300 GB/s | +1233% |
| Memory Bus Width | 6144-bit | 192-bit | - |
| Compute Infrastructure | |||
| CUDA Cores | 16,896 | 7,424 | +128% |
| Tensor Cores (AI) | 528 | 232 | +128% |
| RT Cores (Ray Tracing) | N/A | 58 | |
| AI & Compute Performance (TFLOPS) | |||
| FP32 (Single Precision) | 67 TFLOPS | 30.3 TFLOPS | +121% |
| FP16 (Half Precision) | 1,979 TFLOPS | 121 TFLOPS | +1536% |
| TF32 (Tensor Float) | 989 TFLOPS | N/A | |
| FP64 (Double Precision) | 34 TFLOPS | N/A | |
| Power & Efficiency | |||
| TDP (Thermal Design Power) | 900W | 72W | +1150% |
| PCIe Interface | PCIe 5.0 x16 | PCIe 4.0 x16 | - |
| Multi-GPU Interconnect | NVLink-C2C (900 GB/s) | None | - |
🎯 Use Case Recommendations
LLM & Large Model Training
NVIDIA GH200 Grace Hopper
Higher VRAM capacity and memory bandwidth are critical for training large language models. The GH200 offers 96GB compared to 24GB.
AI Inference
NVIDIA GH200 Grace Hopper
For inference workloads, performance per watt matters most. Consider the balance between FP16/INT8 throughput and power consumption.
Budget-Conscious Choice
NVIDIA L4
Based on current cloud pricing, the L4 starts at a lower hourly rate.
Technical Deep Dive: GH200 vs L4
This is a generational comparison within the NVIDIA ecosystem, pitting Hopper + Grace against Ada Lovelace. The GH200 has a significant **72GB VRAM advantage**, which is crucial for training massive datasets or large language models. From a cost perspective, the **L4** is currently about **83% cheaper** per hour, offering better value for budget-conscious projects.
NVIDIA GH200 Grace Hopper is Best For:
- CPU+GPU unified computing
- Large-memory AI workloads
- Standard GPU deployments
NVIDIA L4 is Best For:
- Edge AI inference
- Video transcoding
- Large model training
Frequently Asked Questions
Which GPU is better for AI training: GH200 or L4?
For AI training, the key factors are VRAM size, memory bandwidth, and tensor core performance. The GH200 offers 96GB of HBM3 memory with 4.0 TB/s bandwidth, while the L4 provides 24GB of GDDR6 with 300 GB/s bandwidth. For larger models, the GH200's higher VRAM capacity gives it an advantage.
What is the price difference between GH200 and L4 in the cloud?
Cloud GPU rental prices vary by provider and region. Based on our data, GH200 starts at $1.49/hour while L4 starts at $0.26/hour. This represents a 473% price difference.
Can I use L4 instead of GH200 for my workload?
It depends on your specific requirements. If your model fits within 24GB of VRAM and you don't need the additional throughput of the GH200, the L4 can be a cost-effective alternative. However, for workloads requiring maximum memory capacity or multi-GPU scaling, the GH200's NVLink support (NVLink-C2C (900 GB/s)) may be essential.
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