mi2g to deliver Computing Colloquium at CERN
Anytime, Anywhere, Active Computing Security in the
London, UK - 13 March 2006, 12:00 GMT - mi2g is
honoured to be invited to deliver the Computing Colloquium at CERN -- European
Organisation for Nuclear Research -- in Geneva, Switzerland, on 22nd March.
The Colloquium is titled "Anytime, Anywhere, Active Computing Security
in the 21st Century." CERN is where the world wide web was invented
by Sir Tim Berners-Lee in 1989 and it remains a centre for global computing
innovation and excellence, most notably in Grid Computing.
In mid-February this year, a huge 100,000 interlinked computers (Grid Computing)
network being built to help research the origin of the universe passed the
third of four major tests. The major breakthrough was announced simultaneously
by CERN in Geneva and Mumbai, that their Global Grid service for the Large
Hadron Collider (LHC) computing has succeeded in their sustained Gigabyte-per-second
challenge. This Breakthrough has huge significance for Global Grid Computing
and will benefit not just the high energy physics research but also biomedicine,
nanotechnology and environmental sciences. The "Grid Computing"
project is accompanied by significant computing security and global risk management
On 15th February 2006 at the international Computing for High Energy and Nuclear
Physics 2006 conference (CHEP'06) in Mumbai, India, the Worldwide LHC Computing
Grid collaboration (WLCG) officially announced the successful completion of
the service challenge. During the week-long challenge, the LHC Computing worldwide
Grid infrastructure sustained transfer rates of a gigabyte per second (1GB/sec),
which the developers are claiming as a "world first" for a permanent,
international grid using scientific data. The maximum sustained data rates
achieved correspond to transferring a DVD worth of scientific data from CERN
every five seconds. The data transfers were made to analyse real-time storage,
distribution and analysis of the data while the grid is being built and refined.
The LHC particle accelerator will release a vast flood of data on a scale
unlike anything seen before, which is why the grid computing network is needed
with attendant dynamic security innovations. The LHC, which is being built
near Geneva, will be a circular structure 17 miles in circumference and will
eventually produce data at up to 1.8GB/sec.
At the colloquium, DK Matai, Executive Chairman, mi2g will take a holistic
view of global risk management within the context of "Grid Computing"
security, and describe how cyberspace is becoming a new dimension for organized
crime and asymmetric warfare, where extremists and criminals are moving. Understanding
this global trend is essential to preparing computing security for the future.
mi2g is a digital risk specialist for leading banking and financial
institutions which has built one of the world's largest digital attack databases,
tracking over 7,500 hacking groups and monitoring in real time Internet hacker
and malware attacks around the world. This gives mi2g a unique perspective
on the darker side of the Internet. DK will illustrate some of the worrying
trends we are observing in cyberspace, and comment on their relationship to
trends in the real world.
Beyond technical fixes to malware and digital attacks, DK will argue that
there is an urgent need for organisations and nations to construct Total Information
Awareness Systems and Knowledge Management Analysis Systems, to combat the
rising tide of cyber-crime and cyber-extremism. DK will make the case for
the creation of Regional Security Organisations, similar to the WHO's regional
programmes for human health, to neutralize emerging dangers. Finally, DK will
propose that "any dynamic computing matrix, however large, is our secure
computing environment or none is", and elaborate on what this proposition
means for active computing security in the 21st Century.
Colloquium Title: Anytime, Anywhere, Active Computing Security in the
Speaker: DK Matai, Executive Chairman, mi2g
When: Wednesday 22 March 2006, 14:00-15:00
Where: Building 31 3rd floor, CERN
DK Matai is an engineer turned
entrepreneur and philanthropist with a keen interest in the well being of
global society. He founded mi2g in 1995 in London, UK, while studying
for his PhD at Imperial College. The company focuses on digital banking, digital
risk management and bespoke security architecture for major financial institutions,
government agencies and multinationals in Europe America and Asia. mi2g
won the Queen's Award for Enterprise in the category of innovation in 2003.
DK Matai helped found ATCA, the Asymmetric Threats Contingency Alliance, in
2001, a philanthropic initiative to understand and address complex global
changes. DK Matai worked previously in the R&D labs of IBM, Inmos, ST
Microelectronics and Helvar Electrosonic on massive parallel processing and
CERN, the European Organization
for Nuclear Research, is the world's leading laboratory for particle physics.
It has its headquarters in Geneva. At present, its Member States are Austria,
Belgium, Bulgaria, the Czech Republic, Denmark, Finland, France, Germany,
Greece, Hungary, Italy, Netherlands, Norway, Poland, Portugal, Slovakia, Spain,
Sweden, Switzerland and the United Kingdom. India, Israel, Japan, the Russian
Federation, the United States of America, Turkey, the European Commission
and UNESCO have Observer status.
The computing facilities involved in the CERN Grid Computing service challenge
in mid February 2006 were: Academia Sinica Grid Center (ASGC) in Taipei; Brookhaven
National Laboratory (BNL) in Brookhaven, NY, USA; CCIN2P3, the Computing Center
of the National Institute of Nuclear Physics and Particle Physics (CCIN2P3)
in Lyon, France; the German Electron Synchrotron Laboratory (DESY) in Hamburg,
Germany; Fermi National Accelerator Laboratory (FNAL) in Batavia, Illinois,
USA; Forschungszentrum Karlsruhe (FZK) in Karlsruhe, Germany; the National
Center for Research and Development in Technology, Computer Science and Data
Transmission (INFN-CNAF) in Bologna, Italy; the Nordic DataGrid Facility (NDGF)
a distributed facility in Denmark, Finland, Norway and Sweden; Port d'Informació
Científica (PIC) in Barcelona, Spain; the National Center for Computing
and Networking Services and the National Institute for Nuclear Physics and
High Energy Physics (SARA-NIKHEF) both based in the Netherlands; the Rutherford
Appleton Laboratory (RAL) in Oxfordshire, UK; and the National Laboratory
for Particle and Nuclear Physics (TRIUMF) in Vancouver, Canada.
mi2g is at the leading edge of building secure on-line banking, broking
and trading architectures. The principal applications of our technology are:
2. Digital Risk Management; and
3. Bespoke Security Architecture.
mi2g pioneers enterprise-wide security practices and technology to
save time and cut cost. We enhance comparative advantage within financial
services and government agencies. Our real time intelligence is deployed worldwide
for contingency capability, executive decision making and strategic threat
The January 2006 SIPS report is now available and can be ordered from here.
mi2g Research Methodology: The Frequently Asked Questions (FAQ)
List is available from here in pdf. Please note terms
and conditions of use listed on www.mi2g.net.