Design and Implementation of the Linpack Benchmark for Single and Multi-node Systems Based on Intel® Xeon Phi Coprocessor
Citations Over TimeTop 1% of 2013 papers
Abstract
Dense linear algebra has been traditionally used to evaluate the performance and efficiency of new architectures. This trend has continued for the past half decade with the advent of multi-core processors and hardware accelerators. In this paper we describe how several flavors of the Linpack benchmark are accelerated on Intel's recently released Intel ® Xeon Phi™ 1 co-processor (code-named Knights Corner) in both native and hybrid configurations. Our native DGEMM implementation takes full advantage of Knights Corner's salient architectural features and successfully utilizes close to 90% of its peak compute capability. Our native Linpack implementation running entirely on Knights Corner employs novel dynamic scheduling and achieves close to 80% efficiency - the highest published co-processor efficiency. Similarly to native, our single-node hybrid implementation of Linpack also achieves nearly 80% efficiency. Using dynamic scheduling and an enhanced look-ahead scheme, this implementation scales well to a 100-node cluster, on which it achieves over 76% efficiency while delivering the total performance of 107 TFLOPS.
Related Papers
- → Intel® Xeon Phi coprocessor (codename Knights Corner)(2012)89 cited
- → Efficient Implementation of Many-Body Quantum Chemical Methods on the Intel® Xeon Phi Coprocessor(2014)31 cited
- → Intel® Xeon Phi™ Coprocessors(2013)26 cited
- → Evaluating the transport layer of the ALFA framework for the Intel®Xeon Phi™Coprocessor(2015)1 cited
- → High Performance Iterative Tomography Reconstructions on GPU and Intel Xeon Phi Coprocessor(2017)