HPC Forecast

TL;DR: This study evaluates GPT-3's large language model capabilities for high-performance computing software development, generating code and auto-parallelizing serial code in various programming languages, including C++, Fortran, Python, and Julia, with promising results for code generation and auto-parallelization.

TL;DR: This paper explores the integration of High-Performance Computing (HPC) with the Internet of Everything (IoE), highlighting the IoE's potential to enhance HPC applications, interconnect devices, and drive multi-domain development through people, data, and machine connections.

Abstract: ,

TL;DR: Through describing the experiences, this program can serve as a model for preparing a future workforce to integrate machine learning into trustworthy and reproducible applications.

TL;DR: For example, AlphaFold as mentioned in this paper predicts protein structures with an accuracy competitive with experimental structures in the majority of cases using a novel deep learning architecture. But the accuracy is limited by the fact that no homologous structure is available.

TL;DR: This paper evaluates a custom ASIC-called a Tensor Processing Unit (TPU)-deployed in datacenters since 2015 that accelerates the inference phase of neural networks (NN) and compares it to a server-class Intel Haswell CPU and an Nvidia K80 GPU, which are contemporaries deployed in the samedatacenters.

TL;DR: The Tensor Processing Unit (TPU) as discussed by the authors is a custom ASIC deployed in datacenters since 2015 that accelerates the inference phase of neural networks (NN) using a 65,536 8-bit MAC matrix multiply unit that offers a peak throughput of 92 TeraOps/second (TOPS).