Issue no. 15, 2003
Published: Apr 11, 2003 |
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 Piracy threat looms over Windows 2003 |
| Hard work ahead for online rulers |
| Intel's paper-thin chips boost mobile memory |
| Fibre loop makes quantum memory |
| Nanotube web could mimic brain |
| Sandwich promises cheap storage |
| Virtual patching offers bandage to IT systems |
| Nano lasers grown like snowflakes |
| Glowing beads make tiny bar codes |
| Software to unzip identity of unknown composers |
| Flaw opens alien program to invaders |
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| Piracy threat looms over Windows 2003 |
Just two weeks before the scheduled release of Microsoft Windows Server
2003 an installation key has been leaked onto the internet threatening
widespread piracy of the new software. The key appears to be a Volume
License Key leaked by a Volume Licence Media user.
The Volume License Key is a number that users must enter to be able to
use the software. It is similar to the keycode used to activate retail
versions of Windows XP desktop, but unlike the Windows XP version, the
keycode is not tied to a particular computer and allows the software to
run on any system.
A Microsoft spokeswoman said every customer receives a unique keycode.
Microsoft keeps track of who receives each one, and is working on
tracking down the source of the leak. She noted that while the key will
allow users to run the software, they will not receive service packs or
other updates. |
| InternetWeek / VNUnet UK
Apr 09, 2003 |
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| Hard work ahead for online rulers |
The gloss may have fallen off dot.com companies on the stock market, but
among governments the web is more popular than ever. The annual survey
of e-government by consulting firm Accenture reveals the increasingly
sophisticated use many national authorities are making of the net.
The 22 governments monitored in the survey are all putting more services
online and fine-tuning existing ones to meet the needs of citizens. But
the report warns that governments must work harder to ensure that online
services are used and that those who need help, get it.
The report ranks the governments according to the extent and complexity
of their web use. Governments at the bottom of the list have set up
websites but list simply information rather than offer any services.
Those on the top rung allow citizens to go online and carry out complete
transactions and are using the experience of putting services online to
transform work methods in government departments. Canada is the only
country ranked as reaching this level of complexity, and, for the third
year running, it is seen as having the most sophisticated e-government. |
| BBC News
Apr 08, 2003 |
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| Intel's paper-thin chips boost mobile memory |
Intel has released a new package for stacking memory chips that will let
manufacturers put more memory into mobile phones without increasing the
size of the handsets.
The new package, called the Ultra-Thin Stacked Chip Scale Package, lets
manufacturers stack up to five memory chips on top of each other.
Currently, Intel sells memory packages that can stack up to four chips
on top of each other. Most mobile phone makers use packaging that holds
only one or two chips.
With the new package, mobile phone makers will be able to put 512
megabits of flash memory - along with other memory chips - into phones
this year, and one gigabit next year without increasing the surface area
needed on the board. |
| Silicon.com
Apr 10, 2003 |
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| Fibre loop makes quantum memory |
A relatively simple device that sends individual photons cycling through
a fibre-optic loop could provide the memory needed to make ultra
powerful computers that use the quantum states of light as bits.
Quantum computers are potentially powerful enough to solve problems that
are beyond the most powerful classical computers, including cracking the
strongest secret codes and quickly searching huge databases. Several
research teams have shown that it is possible to carry out logic
operations using the traits of individual photons as quantum bits that
represent the 1s and 0s of computing. Computers must also be able to
briefly store the outcomes of logic operations.
Scientists at Johns Hopkins University have come up with a method for
capturing photonic qubits for tiny fractions of a second, which enables
them to briefly store information about the state of a quantum particle.
The memory device consists of a storage loop and a switch that directs
photons into and out of the loop. |
| Technology Review / TRN
Apr 09, 2003 |
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| Nanotube web could mimic brain |
Researchers from NASA Ames Research Center have found a way to grow
minuscule webs of connected carbon nanotubes. Carbon nanotubes are
rolled-up sheets of carbon atoms that appear naturally in soot, and are
central to many nanotechnology projects.
Nanotube networks could herald a new type of electronics that have huge
numbers of random connections, a setup similar to a brain's synapses.
Such networks could also form sensors, parts for conventional
electronics, or templates for assembling materials molecule-by-molecule.
To provide a place for nanotubes to grow and connect, the researchers
collapsed microscopic spheres of polystyrene suffused with a catalyst.
The microspheres were 500 to 2,000 nanometres across and several to
several hundred nanometres apart. The researchers burned away the
polystyrene, leaving smaller spheres of the catalyst. The researchers
were able to control the number of nanotubes and connections that grew
on each sphere by varying the solution mix and microsphere size.
Nanotubes can be a small as one nanometre. |
| Technology Review / TRN
Apr 09, 2003 |
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| Sandwich promises cheap storage |
University of California at Los Angeles researchers have used a simple,
inexpensive manufacturing technique to fabricate tiny switches. The
simple manufacturing process is in contrast to today's silicon-based
electronics, which require expensive facilities such as cleanrooms.
The devices leverage a recently discovered phenomenon. An ultrathin
metal layer embedded between two organic layers has two states - a
high-conductance state that lets electricity flow easily, and a
low-conductance state. The device can be switched from one state to the
other via a pulse of electricity. The states are stable, and can
represent the 1s and 0s of computer information.
The areas that undergo switching are about 10 nanometres in diameter.
The researchers are still determining how closely the switches can be
packed, but estimate that they will be able to store information in
areas as small as those in current storage devices. They hope the method
could yield cheap, practical storage media in two years. |
| Technology Review / TRN
Apr 09, 2003 |
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| Virtual patching offers bandage to IT systems |
A new 'virtual patching' tool will give administrators more time to
react to hacking attacks by protecting vulnerable systems until they can
be patched. In its latest version of Real Secure Protection (RSP)
system, a network security and monitoring system, Internet Security
Systems (ISS) has introduced Fusion 2.0 and Internet Scanner 7.0.
Internet Scanner 7.0 is designed to map networks and assess
vulnerabilities, identifying flaws in patching. If unpatched hardware is
discovered, Internet Scanner works out what suspicious traffic would
look like, blocking if it occurs but otherwise leaving the hardware
operational.
Fusion 2.0 contains a protocol analysis module (Pam), which identifies
signatures of hacking activity. This analyses network activity from
sensors on both the PC and server to look for suspicious activity such
as the sharp rise in network traffic caused by a worm attack.
Administrators can roll out threat sensors incrementally to monitor key
systems, and there is immediate reporting in either HTML or PDF format. |
| VNUnet UK
Apr 09, 2003 |
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| Nano lasers grown like snowflakes |
Researchers at the University of California, Berkeley, have created the
world's smallest lasers using the principles of snowflake growth. They
are evenly spaced branches on needles made of the semiconductor zinc
oxide. Rows of such 'nanowire lasers' could make light-based information
technology faster and more compact, according to the researchers.
Currently, the lasers that send information-laden light pulses down
fibre-optic networks are about 1,000 times bigger than the nanowires,
and are therefore too cumbersome to fit onto silicon chips. Lasers made
from individual nanowires have been made before, but they had to be
built individually. Making a whole bank would be a fiddly business.
The new nanowire array assembles itself by a phenomenon called dendritic
growth, in which small bumps that appear by chance on the sides of a
growing needle-shaped crystal blossom into full-blown side-branches.
These branches, each ten millionths of a millimetre across, are spaced a
roughly equal distance apart and are remarkably smooth, straight and
regular. Shining bright light onto them turns them into lasers. |
| Nature
Apr 04, 2003 |
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| Glowing beads make tiny bar codes |
Corning researchers have found a way to form tiny, barcoded beads that
are small enough to be embedded in ink and attached to DNA molecules.
The beads measure 100 by 20 by 20 microns, which is just at the edge of
invisible. A micron is one thousandth of a millimetre.
The researchers made the coded beads by fusing together glass mixed with
lanthanide metal oxide ions, drawing the mixture into a fibre, etching
the fibre with a laser, than breaking the beads along the cuts by
putting them in an ultrasonic water bath. The metal oxides glow at
certain wavelengths under ultraviolet light; stripes of oxide that glow
different colours can be used to make more than 100 billion unique
barcodes.
The microbeads could be embedded in inks to tag currency and other
documents. They can also be added to substances such as automobile paint
and explosives. The beads can also be used to tag different types of DNA
or other molecules in drug discovery experiments. |
| Technology Review / TRN
Apr 04, 2003 |
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| Software to unzip identity of unknown composers |
A standard PC file-compression program can tell the difference between
classical music, jazz and rock, all without playing a single note. This
new-found ability could help scholars identify the composers of music
that until now has remained anonymous. The technique exploits the
ability of 'zip' data-compression software which has already been
successfully used to detect the language a piece of text is written in.
Researchers of the Dutch National Research Institute in Amsterdam used
this compression technique on digital files of various pieces, including
some from Beethoven, Miles Davis and Jimi Hendrix.
They subtracted any data unrelated to the actual music to create a data
string representing only the rhythm and melody. Using Bzip2 software
they measured how similar each piece was to every other. The results
were plotted in a tree-shaped pattern, in which similar pieces cluster
together on the same branch. In a test with 12 each of jazz, classical
and rock pieces, ten of the jazz, nine of the rock and most of the
classical pieces ended up in three distinct branches of the tree. |
| New Scientist
Apr 09, 2003 |
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| Flaw opens alien program to invaders |
A security bug has been discovered in the screensaver software used by
millions of people to search for alien messages in radio telescope
signals. The bug could be used to invade computer systems worldwide.
A Dutch computer student at Delft University of Technology in the
Netherlands found that a sending a specially crafted update to the
SETI@home program installed on a user's computer forces it to run
unauthorised code. This could be exploited to gain control of the
machine.
SETI@home's coordinators, at the University of California Berkeley, have
now released a software patch that fixes the flaw. They also say an
attacker would have to use other tricks to impersonate the SETI@home
central server in order to make use of the bug. |
| New Scientist
Apr 07, 2003 |
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