Porting HPC Applications to AMD Instinct MI300A Using Unified Memory and OpenMP

Porting HPC Applications to AMD Instinct MI300A Using Unified Memory and OpenMP

Tuesday, May 14, 2024 2:20 PM to 2:45 PM · 25 min. (Europe/Berlin)
Hall F - 2nd floor
Research Paper
Computational PhysicsEngineeringExtreme-scale AlgorithmsIndustrial Use Cases of HPC, ML and QC

Information

AMD Instinct MI300A is the world’s first data center accelerated processing unit (APU) with memory shared between the AMD “Zen 4” EPYC cores and third generation CDNA compute units. A single memory space offers several advantages: i) it eliminates the need for data replication and costly data transfers, ii) it substantially simplifies application development and allows an incremental acceleration of applications, iii) is easy to maintain, and iv) its potential can be well realized via the abstractions in the OpenMP 5.2 standard, where the host and the device data environments can be unified in a more performant way. In this article, we provide a blueprint of the APU programming model leveraging unified memory and highlight key distinctions compared to the conventional approach with discrete GPUs. OpenFOAM, an open-source C++ library for computational fluid dynamics, is presented as a case study to emphasize the flexibility and ease of offloading a full-scale production-ready application on MI300 APUs using directive-based OpenMP programming.
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