Berkeley, CA – Researchers from Julia Computing, UC Berkeley, Intel, the National Energy Research Scientific Computing Center (NERSC), Lawrence Berkeley National Laboratory, and [email protected] have developed a new parallel computing method to dramatically scale up the process of cataloging astronomical objects. This major improvement leverages 8,192 Intel® Xeon® processors in Berkeley Lab’s new Cori supercomputer and Julia, the high-performance, open-source scientific computing language to deliver a 225x increase in the speed of astronomical image analysis.
The code used for this analysis is called Celeste. It was developed at Berkeley Lab and uses statistical inference to mathematically locate and characterize light sources in the sky. When it was first released in 2015, Celeste was limited to single-node execution on at most hundreds of megabytes of astronomical images. In the case of the Sloan Digital Sky Survey, which is the dataset used for this research, this analysis is conducted by identifying points of light in nearly 5 million images of approximately 12 megabytes each – a dataset of 55 terabytes.
Using the new parallel implementation, the research team dramatically increased the speed of its analysis by an estimated 225x. This enabled the processing of more than 20 thousand images, or 250 gigabytes – an increase of more than 3 orders of magnitude compared with previous iterations.
“Astronomical surveys are the primary source of data about the Universe beyond our solar system,” said Jeff Regier, a postdoctoral fellow in the UC Berkeley Department of Electrical Engineering and Computer Sciences who has been instrumental in the development of Celeste. “Through Bayesian statistics, Celeste combines what we already know about stars and galaxies from previous surveys and from physics theories, with what can be learned from new data. Its output is a highly accurate catalog of galaxies’ locations, shapes and colors. Such catalogs let astronomers test hypotheses about the origin of the Universe, as well as about the nature of dark matter and dark energy.”
“It is exactly to enable such cutting-edge machine-learning algorithms on massive data that we designed the Julia language,” said Viral Shah, CEO of Julia Computing. “Researchers can now focus on problem solving rather than programming.”
NERSC provided the extensive computing resources the team needed to apply such a complex algorithm to so much data, assisting with many aspects of designing a program to run at scale, including load balancing and interprocess communication, Regier noted.
“Practically all the significant code that runs on supercomputers is written in C/C++ and Fortran, for good reason: efficiency is critically important,” said Pradeep Dubey, Intel Fellow and Director of the Parallel Computing Lab at Intel. “With Celeste, we are closer to bringing Julia into the conversation because we’ve demonstrated excellent efficiency using hybrid parallelism – not just processes, but threads as well – something that’s still impossible to do with Python or R.”
Alan Edelman, co-creator of the Julia language and professor of applied mathematics at MIT, said, “The JuliaLabs group at MIT is thrilled and impressed with this advancement in the use of Julia for High Performance Computing. The dream of ‘ease of use’ and (‘and’ not ‘or!’) ‘high performance’ is becoming a reality.”
The Celeste project is at the cutting edge of scientific big data analysis along multiple fronts, added Prabhat, NERSC Data and Analytics Services Group Lead and principal investigator for the MANTISSA project. “From a scientific perspective, it is one of the first codes that can conduct inference across multiple imaging surveys and create a unified catalog with uncertainties,” he said. “From a methods perspective, it is the first demonstration of large scale variational inference applied to hundreds of gigabytes of scientific data. From a software perspective, I believe it is one of the largest applications of the Julia language to a significant problem: we have integrated the DTree scheduler and utilized MPI-3 one-sided communication primitives.”
This implementation of Celeste also demonstrated good weak and strong scaling properties on 256 nodes of the Cori Phase I system, Prabhat added. The group’s next step will be to apply Celeste to the entire SDSS imaging dataset, followed by a joint SDSS + DECaLS analysis on Cori Phase II.
About the National Energy Research Scientific Computing Center (NERSC) and Lawrence Berkeley National Laboratory: The National Energy Research Scientific Computing Center (NERSC) is the primary high-performance computing facility for scientific research sponsored by the U.S. Department of Energy’s Office of Science. Located at Lawrence Berkeley National Laboratory, the NERSC Center serves more than 6,000 scientists at national laboratories and universities researching a wide range of problems in combustion, climate modeling, fusion energy, materials science, physics, chemistry, computational biology, and other disciplines. Berkeley Lab is a U.S. Department of Energy national laboratory located in Berkeley, California. It conducts unclassified scientific research and is managed by the University of California for the U.S. DOE Office of Science.
About Julia, Julia Computing and [email protected]: Julia is the high performance open source computing language that is taking astronomy, finance and other big data analytics fields by storm. Julia users and partners include: Intel, DARPA, Lawrence Berkeley National Laboratory, National Energy Research Scientific Computing Center (NERSC), IBM, Federal Aviation Administration (FAA), MIT Lincoln Labs, Moore Foundation, Nobel Laureate Thomas J. Sargent, Federal Reserve Bank of New York (FRBNY), Brazilian National Development Bank (BNDES), BlackRock, Conning, Berkery Noyes, BestX and researchers at MIT, Harvard, UC Berkeley, Stanford and NYU. Julia Computing is the for-profit Julia consulting firm founded by the co-creators of the Julia computing language to help researchers and businesses maximize productivity and efficiency using Julia. [email protected], led by Professor Alan Edelman, conducts research using the Julia language.
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