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GPU Metrics – SM Clock

In the previous blog, we discussed why tracking and reporting GPU Memory Utilization metrics matters. In this blog, we will dive deeper into another critical GPU metric i.e. GPU SM Clock. The GPU SM clock (Streaming Multiprocessor clock) metric refers to the clock speed at which the GPU’s cores (SMs) are running.

The SM is the main processing unit of the GPU, responsible for executing compute tasks such as deep learning operations, simulations, and graphics rendering. Monitoring the SM clock speed can help users assess the performance and health of your GPU during workloads and detect potential bottlenecks related to clock speed throttling.

Important
Navigate to documentation for Rafay’s integrated capabilities for Multi Cluster GPU Metrics Aggregation & Visualization.

 

Why is it Important?

High SM Clock Speed indicates that the GPU is fully utilizing its cores to execute tasks. If the SM clock speed is at or near the maximum, the GPU is operating at full capacity.

  • If your workload is performing well, high SM clock speeds are expected.
  • If performance is poor despite high clock speeds, other resources (like memory or data transfer) might be bottlenecks.

Low SM Clock Speed indicates that the GPU may not be fully utilized. This could occur because of the following scenarios:

  • Thermal Throttling: The GPU may be operating at reduced clock speed to prevent overheating.
  • Power Management: The GPU might be under clocked due to power saving measures if the workload does not demand high compute power.
  • Low Utilization: If the workload is not compute-intensive or is CPU-bound, the GPU will not require maximum clock speeds.

Thermal Throttling

If the SM clock is lower than expected and the GPU temperature is high (i.e. >80°C), the GPU may be thermally throttling to reduce heat. Monitor the GPU temperature and improve cooling if necessary.

Power Management Throttling

The GPU might lower the SM clock speed to conserve power if the workload does not demand high performance. This can happen when the system is idle or running lightweight tasks.

Performance Bottleneck Diagnosis

If the SM clock speed is high but the workload is still not performing well, it might indicate bottlenecks elsewhere. For example, memory bandwidth or PCIe data transfers may be causing the bottleneck rather than the GPU compute cores.

The table below summarizes the typical scenarios where the SM Clock metric is instrumental identifying issues.

Scenario Description
High SM Clock Speed + Low GPU Utilization Could indicate that the workload is memory-bound or PCIe-bound.
Low SM Clock Speed + High Temperature Indicates thermal throttling.
Stable SM Clock Speed + Fluctuating Utilization Could indicate that workload demands are highly variable.

 

Real Life Scenarios

Here are two real-life scenarios where the SM Clock metric impacted GPU performance:

High-Performance Computing (HPC) for Weather Simulation

A research institute is running climate models on a GPU cluster to predict weather patterns. These models involve highly parallel computations, which require extensive GPU resources. During one simulation, the researchers noticed that the SM clock speed was consistently high, but GPU utilization was low.

  • Impact Upon investigation, they realized that the workload was memory-bound—meaning that the models were waiting for data from memory (or PCIe) rather than using the GPU’s computational power efficiently. As a result, the SM clock speed was high, but the GPU cores weren’t being fully utilized. This led to inefficient processing and extended simulation times.
  • Solution They optimized the memory access patterns and reduced data transfer bottlenecks, allowing the GPU cores to be more effectively utilized, which in turn improved overall performance.

Deep Learning Training on a Data-Center Scale

A machine learning company was training a large neural network on GPUs in a data center. During the training, the engineers observed that the SM clock speed was fluctuating while the temperature of the GPUs was rising. As training progressed, the SM clock speed would frequently drop, and the performance of the training process slowed down significantly.

  • Impact The team realized the GPUs were experiencing thermal throttling. As the GPU temperature increased beyond safe thresholds, the system automatically reduced the SM clock speed to prevent overheating, thereby decreasing computational throughput.
  • Solution The engineers addressed this by improving the cooling system in the data center, which helped maintain the SM clock speed at optimal levels and allowed the training process to proceed without thermal throttling.

In both cases, the SM clock metric provided valuable insights into the underlying bottlenecks, allowing the teams to take corrective actions to enhance performance.


 

How Rafay Helps with SM Clock Metrics

As we learnt in the prior blog, Rafay automatically scapes GPU metrics and aggregates them centrally in a time series database at the Controller. This data is then made available to authorized users via intuitive charts and dashboards. Shown below is an illustrative image of GPU SM Clock metrics for a Nvidia GPU.

SM Clock Metrics in Rafay

Here is a video that showcases how an administrator can use the integrated GPU dashboards to understand metrics like GPU utilization. All the data they require is literally just a click away.


 

Conclusion

By monitoring and interpreting SM clock speeds, you can effectively diagnose GPU performance issues, optimize workloads, and ensure that your GPU resources are being used efficiently. In the next blog, we will do a deep dive into the Power Consumption metric.

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