Big data applications, on the other hand, tend to suck up massive amounts of compute load. They also tend to feature spikes of activity-they start and end at a particular point in time.
"Big data is really changing the way data centers are operating and some of the needs they have," says Rob Clyde, CEO of Adaptive Computing, a specialist in private/hybrid cloud and technical computing environments. "The traditional data center is very much about achieving equilibrium and uptime."
"On the big data side, scheduling becomes crucial," he adds. "Without it, you end up with a real logjam."
On Tuesday, Adaptive Computing launched its Big Workflow solution, which is designed to leverage high-performance computing (HPC) and cloud technology in an effort to help large enterprises address that problem.
Clyde says Big Workflow draws on Adaptive Computing's Moab HPC Suite and Moab Cloud Suite to allow data centers to use all available resources-including bare metal and virtual machines, technical computing environments (like HPC and Hadoop), cloud (public, private and hybrid) and even agnostic platforms that span multiple environments (like OpenStack)-as a single ecosystem that adapts as workloads demand.
In turn, that allows the data center to optimize the analysis process to deliver an organized workflow that increases throughput and productivity while reducing cost, complexity and errors. It also allows data centers to guarantee services that ensure SLAs, maximize uptime and prove services were delivered and resources were fairly allocated.
"The explosion of big data, coupled with the collisions of HPC and cloud, is driving the evolution of big data analytics," Clyde says. "A Big Workflow approach to big data not only delivers business intelligence more rapidly, accurately and cost effectively, but also provides a distinct competitive advantage. We are confident that Big Workflow will enable enterprises across all industries to leverage big data that inspires game-changing, data-driven decisions."
DigitalGlobe Meets SLAs During Disasters
One customer that has benefited from Big Workflow is high-resolution satellite imagery solutions provider DigitalGlobe.
DigitalGlobe's archived Earth imagery contains more than 4.5 billion square kilometers of global coverage. Each year it adds two petabytes of raw imagery to its archives that turns into eight petabytes of new product.
The company provides satellite imagery analysis for companies and government organizations around the world, supporting a wide variety of uses within defense and intelligence, civil agencies, mapping and analysis, environmental monitoring, oil and gas exploration, infrastructure management, Internet portals and navigation technology.
Its analysis might help big box retailers do things like analyze density of cars in its parking lots, but it also provides first responders with essential, potentially life-saving intelligence in the wake of a natural disaster-whether it's a wildfire in Australia, flooding in Thailand or a hurricane that's ravaged the east coast of the U.S. And while it is performing analysis for first responders, it also has to help its data center customers determine how to fuel their data centers in the midst of the disaster and get personnel out of harm's way.
"They have to respond within 90 minutes," Clyde says. "That's their SLA."
To do that, DigitalGlobe uses Big Workflow to break down silos of isolated resources and increase its maximum workflow capacity.
"Moab enables our responsiveness when disaster strikes," says Jason Bucholtz, principal architect at DigitalGlobe. "With Big Workflow, we have been able to gain insights about our changing planet more rapidly-all without adding new resources to our existing infrastructure."
Thor Olavsrud covers IT Security, Big Data, Open Source, Microsoft Tools and Servers for CIO.com. Follow Thor on Twitter @ThorOlavsrud. Follow everything from CIO.com on Twitter @CIOonline, Facebook, Google + and LinkedIn.
Read more about event-driven architecture in CIO's Event-driven architecture Drilldown.