ISPD 2021 Wafer-Scale Physics Modeling Contest: A New Frontier for Partitioning, Placement and Routing

Solving 3-D partial differential equations in a Finite Element model is computationally intensive and requires extremely high memory and communication bandwidth. This paper describes a novel way where the Finite Element mesh points of varying resolution are mapped on a large 2-D homogenous array of processors. Cerebras developed a novel supercomputer that is powered by a 21.5cm by 21.5cm Wafer-Scale Engine (WSE) with 850,000 programmable compute cores. With 2.6 trillion transistors in a 7nm process this is by far the largest chip in the world. It is structured as a regular array of 800 by 1060 identical processing elements, each with its own local fast SRAM memory and direct high bandwidth connection to its neighboring cores. For the 2021 ISPD competition we propose a challenge to optimize placement of computational physics problems to achieve the highest possible performance on the Cerebras supercomputer. The objectives are to maximize performance and accuracy by optimizing the mapping of the problem to cores in the system. This involves partitioning and placement algorithms.