Fujitsu and Idenken Collaborate on World's Fastest Bio-Database

July 9, 2004

Aims to Increase Search Speeds 1000-fold, Dramatically Lowering TCO, and Become De-Facto Industry Standard

The National Institute of Genetics, also known as Idenken, and Fujitsu Limited today announced their agreement to collaborate on development of a next-generation database system. Aiming to develop a research and business platform for the post-genome era of biotechnology, an industry that is expected to reach 25 trillion yen by 2010, Idenken and Fujitsu plan to develop the world's fastest database system and position it as the de-facto standard for the field.

The new system will be based on Fujitsu's Interstage Shunsaku Data Manager Enterprise Edition XML database engine. A previous prototype developed prior to this announcement has already achieved speeds 100-times faster than Idenken's existing database system.

The prototype of this system is to be installed at Idenken's Center for Information Biology and DNA Data Bank of Japan (CIB-DDBJ), and is scheduled to be publicly unveiled by the end of this year.

The CIB-DDBJ, together with the European Molecular Biology Laboratory and the U.S.'s National Institutes of Health, constitute the world's three major DNA databanks, with Japan's operated by the DNA Data Bank of Japan, which is constructing the world's largest repository of genomic and genetic data. The DDBJ stores on behalf of all Japan's government agencies the data from genome projects on numerous organisms, as well as publicly available data from the Patent Office, and is therefore positioned at the center of Japan's life sciences research.

Its database currently holds 35 million data including DNA pattern of 39.8 billion bases (equivalent to 200 years of newspapers), and continues to grow at an explosive rate - - doubling every year. With over 10,000 users accessing the database every day, a faster DNA database is the key for Idenken to capture and maintain the pole position in the fiercely competitive world of biotech R&D.

For its part in the project, Fujitsu is employing the cutting-edge platform technology of its advanced XML database engine, Interstage Shunsaku, the first of its type developed in the world. This path-breaking technology will be able to handle massive amounts of data and a huge volume of searches, all while delivering the world's fastest search performance, enabling instantaneous responses to users' varied search requests. Once it is completed, the system will not only allow more thorough research to be conducted than ever before, operating on the level of the body, organs, tissues, cells, and molecules, it will also open the way to personalized medicine based on the latest research, which may be the key to curing cancer, high blood pressure, diabetes, and other diseases, as well as shortening the development cycle for new drugs. It will bring us one step closer to healthcare for the ubiquitous computing era. Making this database's ultra-fast searches available to users worldwide should put Japan in a good position to establish an international de-facto standard for biotech data.

Fujitsu and DDBJ have taken Interstage Shunsaku, which was originally developed to offer ultra high-speed processing of conventional text searches, and enhance it to handle high-volume processing of complex data, and will apply it in the rapidly expanding and information-intensive field of biotechnology. Through their collaboration, they are pursuing research into next-generation bio database systems. Based on its accomplishments in this sector, Fujitsu plans to apply this technology to other business sectors, with plans to roll it out worldwide, while DDBJ plans to position itself as an international leader in bioinformatics.

The original press release can be found here.

Explore further: Fujitsu develops world's first technology for retrieving 3D CAD models with partially similar shapes

Related Stories

Recommended for you

Physicists design $100 handheld muon detector

November 20, 2017

At any given moment, the Earth's atmosphere is showered with high-energy cosmic rays that have been blasted from supernovae and other astrophysical phenomena far beyond the Solar System. When cosmic rays collide with the ...

The strange case of the scuba-diving fly

November 20, 2017

More than a century ago, American writer Mark Twain observed a curious phenomenon at Mono Lake, just to the east of Yosemite National Park: enormous numbers of small flies would crawl underwater to forage and lay eggs, but ...

Recurring martian streaks: flowing sand, not water?

November 20, 2017

Dark features on Mars previously considered evidence for subsurface flowing of water are interpreted by new research as granular flows, where grains of sand and dust slip downhill to make dark streaks, rather than the ground ...


Please sign in to add a comment. Registration is free, and takes less than a minute. Read more

Click here to reset your password.
Sign in to get notified via email when new comments are made.