Univa,
a leading innovator in enterprise-grade workload management and
optimization solutions for on-premises and hybrid cloud high-performance
computing (HPC), today announced that it has successfully demonstrated
extreme scale HPC by working with Amazon Web Services (AWS) customer,
Western Digital, a leading data infrastructure company, using Univa's
highly-scalable cluster management and scheduling solutions, Navops Launch and Univa Grid Engine.
The purpose of this collaborative project was to build a cloud-scale
HPC cluster on AWS to simulate key elements of upcoming designs for
their next-generation hard disk drives (HDD).
Continuing
its legacy of product innovation, Western Digital turned to the cloud
to determine how virtually unlimited scale could allow them to solve
R&D and engineering challenges faster. With this in mind, they
teamed up with Univa and AWS to evaluate the impact of running their
electro-magnetic engineering simulations on a massive HPC cluster built
on AWS using Amazon Elastic Compute Cloud (Amazon EC2) Spot Instances.
The goal was to complete the job in the smallest amount of time and at
the lowest cost. As part of this record-setting collaborative effort,
Western Digital ran approximately 2.5 million simulation tasks on a
Spot-based cluster of a little over one million vCPUs to determine
optimal device characteristics that would help improve product quality,
performance, reliability and durability for next-generation HDDs. That
said, this project required complex multi-physics simulations that
needed enough capacity to run deeper simulations for increasingly
complex product designs. To put this in perspective, running 2.5 million
tasks of this kind in an on-premises environment would take 20 days to
complete.
"Storage
technology is amazingly complex, and we're constantly pushing the
limits of physics and engineering to deliver next-generation capacities
and technical innovation," said Steve Phillpott, CIO of Western Digital.
"This successful collaboration with Univa and AWS shows the extreme
scale, power and agility of cloud-based HPC to help us run complex
simulations for future storage architecture analysis and materials
science explorations. Using AWS to easily shrink simulation time from 20
days to 8 hours allows Western Digital R&D teams to explore new
designs and innovations at a pace un-imaginable just a short time ago."
The
electro-magnetic simulations combined with the features of AWS Spot
Fleet included roughly 40,000 Spot instances and more than one million
vCPUs. With AWS, Univa's highly-scalable cluster management and
scheduling capabilities of Navops Launch and Univa Grid Engine were also
used to coordinate cluster management and workload execution across the
wide capacity of Western Digital's infrastructure and keep the cluster
fully utilized even under such a very high workload. The result was an
extraordinary 60x reduction in simulation time - from 20 days to 8
hours.
"We
are honored to have participated in such a unique project alongside
Western Digital, who is a storage infrastructure leader," said Gary
Tyreman, President and CEO of Univa. "Univa works with hundreds of
enterprise organizations who are often challenged with migrating HPC
applications to the cloud, as this can typically be considerably more
expensive than on-premises if not properly managed. Our Navops Launch
solution gives HPC administrators the ability to control which
applications are placed in the cloud, while also being able to control
and monitor HPC cloud consumption and spend. I am proud of the work that
the Univa team did alongside AWS, as we successfully demonstrated
extreme scale HPC cloud."