In 2022, NVIDIA released the H100, marking a significant addition to its GPU lineup. Designed to both complement and compete with the A100 model, the H100 received major updates in 2024, including expanded memory configurations with HBM3, enhanced processing features like the Transformer Engine for accelerated AI training, and broader cloud availability.
While the H100 leads in performance, market shifts in 2025 have made it an increasingly popular choice for AI workloads, particularly since H100 cloud pricing has dropped significantly due to enhanced availability. This pricing shift reduces the A100’s former cost advantage, making the H100’s superior performance (2-3x faster for most workloads) a critical consideration for many organizations.
However, the A100 still plays a vital role in broader, mixed-use environments and legacy deployments where compatibility and diverse workload support remain essential. Businesses are increasingly adopting a hybrid GPU strategy, leveraging both H100 and A100 instances to optimize for cost, availability, and performance.
Both GPUs remain highly capable for computation-intensive tasks like machine learning and scientific calculations. This article provides a detailed comparison of the H100 and A100, focusing on their performance metrics and suitability for specific workloads so you can decide which is best for your use case.
What are the performance differences between A100 and H100?
According to benchmarks by NVIDIA and independent parties, the H100 offers double the computation speed of the A100. This performance boost has two major implications:
- Engineering teams can iterate faster if workloads take half the time to complete.
- Even though the H100 costs about twice as much as the A100, the overall expenditure via a cloud model could be similar if the H100 completes tasks in half the time because the H100’s price is balanced by its processing time.
To compare the A100 and H100, we need to first understand what the claim of “at least double” the performance means. Then, we’ll discuss how it’s relevant to specific use cases, and finally, turn to whether you should pick the A100 or H100 for your GPU workloads.
Interpreting NVIDIA’s benchmarks
Let’s start by looking at NVIDIA’s own benchmark results, which you can see in Figure 1. They compare the H100 directly with the A100.
Figure 1: NVIDIA GPU performance comparison showing that H100 exceeds A100 performance by a factor of 1.5x to 6x.
The benchmarks comparing the H100 and A100 are based on artificial scenarios, focusing on raw computing performance or throughput without considering specific real-world applications. In reality, different data formats may experience varying levels of speed improvements, so it’s essential to work with your engineering team or software vendor to determine how your specific workload might benefit from the H100’s enhancements.
The charts in Figure 2 show a practical example of training GPT-3 with an A100 compared to an H100.
Figure 2: GPT-3 training performance comparison: NVIDIA A100 least performant, H100 moderate, and H100 + NVLink Switch best.
In this example, clusters equipped with the A100 and H100 were used to train two LLMs (large language models.) The results showed notable speed improvements, especially when the software was optimized for the H100, such as by using the FP8 data format. However, the standout feature was the new NVLink Switch System, which enabled the H100 cluster to train these models up to nine times faster than the A100 cluster. This significant boost suggests that the H100’s advanced scaling capabilities could make training larger LLMs feasible for organizations previously limited by time constraints.
These numbers are impressive, but they come from NVIDIA, which has a vested interest in promoting its latest (and more expensive) GPU. To get a complete picture, we should also look at what independent sources say.
What independent benchmarks reveal
NVIDIA sells GPUs, so they want them to look as good as possible. The GPT-3 training example above is impressive and likely accurate, but the amount of time spent optimizing the training software for these data formats is unknown. That’s why checking what independent sources say is always a good idea—you’ll get a better idea of how the comparison applies in a real-life, out-of-the-box scenario.
MosaicML compared the training of multiple LLMs on A100 and H100 instances. MosaicML is a managed LLM training and inference service; it doesn’t sell GPUs but rather a service, so it doesn’t care which GPU runs its workload as long as it is cost-effective. That means it has every reason to run realistic test cases, and therefore, its benchmarks could be more directly transferrable than NVIDIA’s own.
Table 1 shows the results for the different models.
| Model | Optimized for H100 | Speedup over A100 |
| 1B | No | 2.2x |
| 1B | Yes | 2.7x |
| 3B | No | 2.2x |
| 3B | Yes | 2.8x |
| 7B | Yes | 3.0x |
| 30B | Yes | 3.3x |
The smaller, unoptimized models achieved a respectable 2.2x speedup on the H100. However, the larger models that were optimized for the H100 showed more significant gains. Notably, the 30B model experienced a 3.3x increase in speed compared to the A100. Another LLM training benchmark for the H100 shows at least doubled performance compared to the A100.
While these numbers aren’t as impressive as NVIDIA claims, they suggest that you can get a speedup of two times using the H100 compared to the A100, without investing in extra engineering hours for optimization. If your goal is to increase the size of your LLMs, and you have an engineering team ready to optimize your code base, you can get even more performance from an H100.
What does the H100 offer that the A100 doesn’t?
The H100 introduces a new chip design and several additional features, setting it apart from its predecessor. Let’s explore these updates to assess whether your use case requires the new model.
Confidential computing
An exciting new privacy feature is the confidential computing (CC) environment. In addition to data encryption at rest (i.e., on a hard drive) and data encryption in transit (i.e., on a network), CC allows data encryption in use. If you’re handling private or confidential information and security compliance is of concern—like in the healthcare and financial industries—the H100’s CC feature could make it the preferred choice.
Tensor Memory Accelerator
The Tensor Memory Accelerator (TMA) is a new part of the H100 Hopper architecture that frees GPU threads from memory management tasks. Its introduction primarily enhances performance, representing a significant architectural shift rather than just an incremental improvement like adding more cores.
With the ever-increasing volume of training data required for reliable models, the TMA’s capability to seamlessly transfer large data sets without overloading the computation threads could prove to be a crucial advantage, especially as training software begins to fully use this feature. Thanks to its TMA, the H100 may prove itself to be a more futureproof option and a superior choice for large-scale AI model training.
Transformer Engine support
The H100’s Transformer Engine processes both floating-point and integer data simultaneously using mixed-precision calculations, combining FP8, FP16, and INT8 operations. This significantly reduces memory usage while improving computational efficiency. By dynamically adjusting precision levels, the H100 delivers up to 6x faster training of models like GPT-style transformers compared to the A100, enabling efficient large-scale model training.
How much more does the H100 cost?
The H100 is more expensive than the A100. Let’s look at a comparable on-demand pricing example created with the Gcore pricing calculator to see what this means in practice.
| Specs | A100 Server | H100 Server |
| CPUs | 2x Intel Xeon 8468 | 2x Intel Xeon 8468 |
| Memory | 2TB | 2TB |
| Block storage | 8x 3.84TB NVMe | 8x 3.84 TB NVMe |
| GPUs | 8x NVIDIA A100 80GB 800Gbit/s Infiniband | 8x NVIDIA H100 80GB 3200Gbit/s Infiniband |
| Cost | 16.483 €/h | 30.013 €/h |
The H100 is 82% more expensive than the A100: less than double the price. However, considering that billing is based on the duration of workload operation, an H100—which is between two and nine times faster than an A100—could significantly lower costs if your workload is effectively optimized for the H100.
Should you pick the A100 or the H100?
Picking the right GPU is clearlyn’t simple. Here are the factors worth considering when weighing up the A100 and H100 for your business’ workloads.
Cost efficiency
While the A100 typically costs about half as much to rent from a cloud provider compared to the H100, this difference may be offset if the H100 can complete your workload in half the time. Consult with your engineers or vendors to make sure that your specific GPU software won’t suffer any performance regressions, which could negate the cost benefits of the speedups.
Licensing costs
The software you plan to use with the GPUs has licensing terms that bind it to a specific GPU model. Licensing for software compatible with the A100 can be considerably less expensive than for the H100.
Use cases
The H100 is NVIDIA’s first GPU specifically optimized for machine learning, while the A100 offers more versatility, handling a broader range of tasks like data analytics effectively. If your primary focus is on training large language models, the H100 is likely to be the most cost-effective choice. If it’s anything other than LLMs, the A100 is worth serious consideration.
Power consumption
For on-premises operations, the H100 can consume up to 700W, compared to the A100’s maximum of 400W. Increased performance comes with higher energy demands and heat output, so check whether your infrastructure can support such requirements if you’re considering buying GPUs outright.
Availability
Not all cloud providers offer every GPU model. Due to overwhelming demand, H100 models have had availability issues. If your provider only offers one of these GPUs, your choice may be predetermined. However, depending on your relationship with the provider, you might find more competitive pricing for the A100. Gcore has both A100 and H100 in stock right now.
Access the H100 and A100 for training and inference with Gcore’s convenient, scalable AI solution
The H100 offers undisputed improvements in machine learning and scientific computing, including enhanced scaling through NVLink 4.0 and significant AI-specific upgrades. If you’re ready to optimize your workloads, the H100 will deliver better performance and ROI. However, if you require broader versatility, the A100 remains a reliable, cost-effective alternative.
With Gcore, you can access the industry’s most advanced GPUs—the NVIDIA H100, A100, and H200—on a scalable cloud platform. Experience unmatched flexibility, real-time deployment, and cost transparency.
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GTC Europe 2025: watch Seva Vayner on European AI trends
Inference is becoming Europe’s core AI workload. Telcos are moving fast on low-latency infrastructure. Data sovereignty is shaping every deployment decision.At GTC Europe, these trends were impossible to miss. The conversation has moved beyond experimentation to execution, with exciting, distinctly European priorities shaping conversations.Gcore’s own Seva Vayner, Product Director of Edge Cloud and AI, shared his take on this year’s event during GTC. He sees a clear shift in what European enterprises are asking for and what the ecosystem is ready to deliver.Scroll on to watch the interview and see where AI in Europe is heading.“It’s really a pleasure to see GTC in Europe”After years of global AI strategy being shaped primarily by the US and China, Europe is carving its own path. Seva notes that this year’s GTC Europe wasn’t just a regional spin-off. it marked the emergence of a distinctly European voice in AI development.“First of all, it's really a pleasure to see that GTC in Europe happened, and that a lot of European companies came together to have the conversation and build the ecosystem.”As Seva notes, the real excitement came from watching European players collaborate. The focus was less on following global trends and more on co-creating the region’s own AI trajectory.“Inference workloads will grow significantly in Europe”Inference was a throughline across nearly every session. As Seva points out, Europe is still at the early stages of adopting inference at scale, but the shift is happening fast.“Europe is only just starting its journey into inference, but we already see the trend. Over the next 5 to 10 years, inference workloads will grow significantly. That’s why GTC Europe is becoming a permanent, yearly event.”This growth won’t just be driven by startups. Enterprises, governments, and infrastructure providers are all waking up to the importance of real-time, regional inference capabilities.“There’s real traction. Companies are more and more interested in how to deliver low-latency inference. In a few years, this will be one of the most crucial workloads for any GPU cloud in Europe.”“Telcos are getting serious about AI”One of the clearest signs of maturity at GTC Europe was that telcos and CSPs are actively looking to deploy AI. And they’re asking the hard questions about how to integrate it into their infrastructure at a vast scale.“One of the most interesting things is how telcos are thinking about adopting AI workloads on their infrastructure to deliver low latency. Sovereignty is crucial, especially for customers looking to serve training or inference workloads inside their region. And also user experience: how can I get GPU capacity in clusters, or deliver inference in just a few clicks?”This theme—fast, sovereign, self-service AI—popped up again and again. Telcos and service providers want frictionless deployment and local control.“Companies are struggling most with data”While model deployment and infrastructure strategy took center stage, Seva reminds us that data processing and storage remains the bottleneck. Enterprises know they need to adopt AI, but they’re still navigating where and how to store and process the data that fuels it.“One of the biggest struggles for end customers is the data: where it’s processed, where it’s stored, and what kind of capabilities are available. From a European perspective, we already see more and more companies looking for sovereign data privacy and simple, mature solutions for end users.”That’s a familiar challenge for enterprises operating under GDPR, NIS2, and other compliance frameworks. The new wave of AI infrastructure has to be built for performance and for trust.AI in Europe: responsible, scalable, and localSeva’s key takeaway is that AI in Europe is no longer about catching up, it’s about doing it differently. The questions have changed from “Should we do AI?” to “How do we scale it responsibly, reliably, and locally?”From sovereign deployment to edge-first infrastructure, GTC Europe 2025 showed that inference is the foundation of how European businesses plan to run AI. “The ecosystem is coming together,” explains Seva. “And the next five years will be crucial for defining how AI will work: not just in the cloud, but everywhere.”If you’re looking to reduce latency, cut costs, and stay compliant while deploying AI in production, we invite you to download our free ebook, The inference optimization playbook.Download our free inference optimization playbook
Gcore and Orange Business launch innovation program piloting joint solution to deliver sovereign inference as a service
Gcore and Orange Business have kicked off a strategic co-innovation program with the mission to deliver a scalable, production-grade AI inference service that is sovereign by design. By combining Orange Business’ secure, trusted cloud infrastructure and Gcore’s AI inference private deployment service, the collaboration empowers European enterprises and public sector organizations to run inference workloads at scale, without compromising on latency, control, or compliance.Gcore’s AI inference private deployment service is already live on Orange Business’ Cloud Avenue infrastructure. Selected enterprises across industries are actively testing it in real-world scenarios. These pilot customers are exploring how fast, secure, and compliant inference can accelerate their AI projects, cut deployment times, and reduce infrastructure overhead.The prototype will be demonstrated at NVIDIA GTC Paris, at the Taiga Cloud booth G26. Stop by any time to see it in action.The inference supercycle is underwayBy 2030, inference will comprise 70% of enterprise AI workloads. Telcos are well positioned to lead this shift due to their dense edge presence, licensed national data infrastructure, and long-standing trust relationships.Gcore’s inference solution provides a sovereign, edge-native inference layer. It enables users to serve real-time, GPU-intensive applications like agentic AI, trusted LLMs, computer vision, and predictive analytics, all while staying compliant with Europe’s evolving data and AI governance frameworks.From complexity to three clicksEnterprise AI doesn’t need to be hard. Deploying inference workloads at scale used to demand Kubernetes fluency, large MLOps teams, and costly trial-and-error.Now? It’s just three clicks:Pick a model: Choose from NVIDIA NIMs, open source, or proprietary libraries.Choose a region: Select one of Orange Business’ accredited EU data centers.Deploy: See your workloads go live in under 10 seconds.Enterprises can launch inference projects faster, test ideas more quickly, and deliver production-ready AI services without spending months on ML plumbing.Explore our blog to watch a demo showing how enterprises can deploy inference workloads in just three clicks and ten seconds.Sovereign by designAll model data, logs, and inference results are stored exclusively within Orange Business’ own data centers in France, Germany, Norway, and Sweden. Cross-border data transfer is opt-in only, helping ensure alignment with GDPR, sector-specific regulations, and the forthcoming EU AI Act.This platform is built for trust, transparency, and sovereignty by default. Customers maintain full control over their data, with governance baked into every layer of the deployment.Performance without trade-offsGcore’s AI inference solution avoids the latency spikes, cold starts, and resource waste common in traditional cloud AI setups. Key design features include:Smart GPU routing: Directs each request to the nearest in-region GPU, delivering real-time performance with sub-50ms latency.Pre-loaded models: Reduces cold start delays and improves response times.Secure multi-tenancy: Isolates customer data while maximizing infrastructure efficiency.The result is a production-ready inference platform optimized for both performance and compliance.Powering the future of AI infrastructureThis partnership marks a step forward for Europe’s sovereign AI capabilities. It highlights how telcos can serve as the backbone of next-generation AI infrastructure, hosting, scaling, and securing workloads at the edge.With hundreds of edge POPs, trusted national networks, and deep ties across vertical industries, Orange Business is uniquely positioned to support a broad range of use cases, including real-time customer service AI, fraud detection, healthcare diagnostics, logistics automation, and public sector digital services.What’s next: validating real-world performanceThis phase of the Gcore and Orange Business program is focused on validating the solution through live customer deployments and performance benchmarks. Orange Business will gather feedback from early access customers to shape its future sovereign inference service offering. These insights will drive refinements and shape the roadmap ahead of a full commercial launch planned for later this year.Gcore and Orange Business are committed to delivering a sovereign inference service that meets Europe’s highest standards for speed, simplicity, and trust. This co-innovation program lays the foundation for that future.Ready to discover how Gcore and Orange Business can deliver sovereign inference as a service for your business?Request a preview
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