From Nature: “[International] supercomputer, BOINC, needs more people power”

Nature Mag
Nature

22 February 2017
Ivy Shih

1
Xinhua / Alamy Stock Photo

A citizen science initiative that encourages public donations of idle computer processing power to run complex calculations is struggling to increase participation.

Berkeley Open Infrastructure for Network Computing (BOINC), a large grid that harnesses volunteered power for scientific computing, has been running for 15 years to support research projects in medicine, mathematics, climate change, linguistics and astrophysics.

boinclarge

boinc-wallpaper

But, despite strong demand by scientists for supercomputers or computer networks that can rapidly analyse high volumes of data, the volunteer run BOINC has struggled to maintain and grow its network of users donating their spare computer power. Of its 4 million-plus registered users, only 6% are active, a number that has been falling since 2014.

“I’m constantly looking for ways to expose sectors of the general population to BOINC and it’s a struggle,” says David Anderson, a co-founder and computer scientist at the University of California Berkeley.

How many people use BOINC?

Many more people have registered with BOINC than actually donate their computer power (active users).
Anderson says BOINC, which is [no longer] funded by the National Science Foundation, currently hosts 56 scientific projects that span an international network of more than 760,000 computers. [current: 24-hour average: 17.367 PetaFLOPS. Active: 267,932 volunteers, 680,893 computers.]The platform’s combined processing power simulates a supercomputer whose performance is among the world’s top 10.

Access to such supercomputers can be expensive and require lengthy waits, so BOINC offers research groups access to processing power at a fraction of the prohibitive cost.

“A typical BOINC project uses a petaflop of computing — which typically costs maybe USD $100,000 a year. If you were to go to buy the same amount of computing power on the Amazon cloud, it would cost around $40 million,” says Anderson.

Kevin Vinsen, a scientist at the International Centre for Radio Astronomy Research, Australia, leads a project that analyses photos of galaxies. BOINC’s helps analyse the SkyNet’s huge dataset, which is especially valuable given the project’s shoestring budget.

“In BOINC I can have 20,000 people working on it at the same time. Each one is doing a small portion of the galaxy,” he says.

Anderson wants to connect BOINC to major supercomputer facilities in the United States, to reduce the lengthy wait researchers have to process their data. He is working to add the network to the Texas Advanced Computing Center as an additional resource for researchers.

Access to such supercomputers can be expensive and require lengthy waits, so BOINC offers research groups access to processing power at a fraction of the prohibitive cost.

“A typical BOINC project uses a petaflop of computing — which typically costs maybe USD $100,000 a year. If you were to go to buy the same amount of computing power on the Amazon cloud, it would cost around $40 million,” says Anderson.

Kevin Vinsen, a scientist at the International Centre for Radio Astronomy Research, Australia, leads a project that analyses photos of galaxies. BOINC’s helps analyse the SkyNet’s huge dataset, which is especially valuable given the project’s shoestring budget.

“In BOINC I can have 20,000 people working on it at the same time. Each one is doing a small portion of the galaxy,” he says.

Anderson wants to connect BOINC to major supercomputer facilities in the United States, to reduce the lengthy wait researchers have to process their data. He is working to add the network to the Texas Advanced Computing Center as an additional resource for researchers.

boincstatsimage-new

See the full article here .

Please help promote STEM in your local schools.

STEM Icon

Stem Education Coalition

Nature is a weekly international journal publishing the finest peer-reviewed research in all fields of science and technology on the basis of its originality, importance, interdisciplinary interest, timeliness, accessibility, elegance and surprising conclusions. Nature also provides rapid, authoritative, insightful and arresting news and interpretation of topical and coming trends affecting science, scientists and the wider public.

Advertisements