@@ -25,7 +25,7 @@ We have a multilingual project where Chapel (https://chapel-lang.org/) is used f
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@@ -25,7 +25,7 @@ We have a multilingual project where Chapel (https://chapel-lang.org/) is used f
We will run most large-scale jobs on the thin CPU nodes since we will require 50 to a 100 nodes at once. However, we also wish to explore the opportunity to compile our code for the GPUs (Halide natively supports it, and the Chapel team is working on it with initial support available since version 1.29).
We will run most large-scale jobs on the thin CPU nodes since we will require 50 to a 100 nodes at once. However, we also wish to explore the opportunity to compile our code for the GPUs (Halide natively supports it, and the Chapel team is working on it with initial support available since version 1.29).
Assistance from SURF in tuning the code for the Snellius suprtcomputer will be greatly appreciated. We are familiar with Epyc processors and Infiniband networks, but might be lacking some Snellius-specific details.
Assistance from SURF in tuning the code for the Snellius supercomputer will be greatly appreciated. We are familiar with Epyc processors and Infiniband networks, but might be lacking some Snellius-specific details.
In total, we will require 1000000 SBU comprised from:
In total, we will require 1000000 SBU comprised from:
- 768000 SBUs on thin CPU nodes: 5 runs * 24 hours * 128 SBUs * 50 nodes
- 768000 SBUs on thin CPU nodes: 5 runs * 24 hours * 128 SBUs * 50 nodes
