[情報] 量子加密進入產品化階段
Quantum encryption enters product phase
R. Colin Johnson
EE Times
(04/28/2005 2:01 H EDT)
PORTLAND, Ore. — Network security systems that rely on the laws of quantum
mechanics to create hack-proof networks are arriving in the form of
practical products that are easily integrated into optical networks.
At the Infosecurity Europe 2005 trade show in London, id Quantique SA
(Geneva) announced a turnkey quantum encryption system enabling hack-proof
secure bridges between two Fast Ethernet (IEEE 802.3u) networks up to 100
kilometers apart. The move followed a March announcement by MagiQ
Technologies Inc. (New York), which rolled a rework of its Quantum Private
Network (QPN) 5505 system. The QPN 7505 incorporates Cavium Networks' Nitrox
data encryption processors.
The id Quantique product is "the first quantum cryptography system designed
for network engineers and not for physicists," said CEO Gregoire Ribordy.
For its part, MagiQ wanted to introduce quantum encryption systems that
would be easy for network designers to implement while improving the
cost/performance ratio of the systems.
"During trials and deployment of our QPN 5505, we received some excellent
feedback from our enterprise and classified installations that helped us
improve the speed, usability and integration ease of the product," CEO Bob
Gelfond of MagiQ said in a prepared statement.
The revamped system produces and distributes public keys in real-time. Use
of the Nitrox encryption processors makes it possible to implement a virtual
private network using standard IPsec protocols and an unhackable key
distribution system, according to the company.
MagiQ has also introduced a quantum encryption test bed so network engineers
can implement their own designs based on quantum crypto.
Whereas conventional crypto methods are only as good as the length of their
key, quantum encryption eliminates the possibility of eavesdropping. In the
conventional methods, a 56-bit key (or a 256-bit key in the case of the
Advanced Encryption Standard) scrambles data with a one-way function (such
as, "Multiply two large prime numbers"). Encryption is a simple operation
for a computer, but going backward (such as from a large number to finding
its prime factors) is very difficult for computers unless you have the key.
Secret keys for one-time functions let only the receiver decrypt the
scrambled bits, but in practice even the most secret key can be found by a
supercomputer using trial and error. In contrast, quantum cryptography is
secure no matter how fast a hacker's computer is because the technique
harnesses the laws of physics to guarantee security.
In quantum crypto, different quantum states (such as polarization) of
individual photons are used to represent ones and zeroes with a specified
probability distribution. A hacker who tapped into an encrypted photon would
alter that distribution, alerting the receiver that an observation of the
key had taken place. Quantum-key distribution (QKD) offers a level of
security that would not be possible for AES unless a new AES key, of the
same length as the data to be transmitted, were made for each transmission.
In late 2002, id Quantique demonstrated its version of QKD over standard
optical fibers installed between Geneva and Lausanne, Switzerland — a 70-km
distance (see www.eetimes.com/story/OEG20021111S0036). In 2003, MagiQ
announced commercial availability of its quantum key distribution and
encryption system, the Navajo Security Gateway, which offered unbreakable
encryption over existing fiber-optic lines (see
www.eetimes.com/showArticle.jhtml?articleID=18310030).
Also in 2003, the World Internet Secure Key SA and the International
Organization for the Security of Electronic Transactions pledged to create
the infrastructure necessary for worldwide distribution of unbreakable
quantum keys in cooperation with id Quantique (see
www.eetimes.com/story/OEG20031020S0025).
And in July 2004, MagiQ introduced the QPN 5505 in Glasgow, Scotland, at the
Seventh International Conference on Quantum Communication. The company also
announced the successful transmission of a single photon over a secure
channel 75 kilometers long, which the company claimed was a record at the
time.
MagiQ designed its QPN architecture as an embedded system running on either
the Windows or Linux operating systems. The embedded system generates and
stores quantum keys, which are sent over a separate fiber channel. The
embedded-key-generation system runs continuously, providing a real-time
level of security. Keys that encrypt information on a standard optical fiber
channel are refreshed every second.
For its part, id Quantique took the route of developing a turnkey system for
connecting Fast Ethernet networks. Called the Vectis Link Encryptor, the
complete network-transparent cryptographic solution lets network engineers
quickly bridge remote Ethernet networks with a hack-proof connection.
"This new cryptographic appliance combines ease of integration into existing
networks and uncompromised security. It will allow us to target the most
demanding security applications. Potential customers include financial
services, service providers, R&D companies, government agencies and others,"
said Ribordy.
Vectis provides point-to-point wire-speed link encryption that combines QKD
and AES encryption with new keys refreshed up to 100 times per second. The
Layer 2 network transparent encryption device securely bridges two Fast
Ethernet (IEEE 802.3u) networks with all the quantum functions completely
automated and monitored by a built-in surveillance unit that detects
eavesdropping attempts.
The overhead for encryption and decryption results in sub-millisecond
latency, according to Ribordy, making the system compatible with
time-critical communications such as voice-over-Internet Protocol. A
user-friendly touchpanel display interface reads out the tamper-detection
system's results and offers pushbutton access to the Simple Network
Management Protocol. The company already claims customers for its quantum
encryption systems in the United States, Canada, Europe, Asia, Latin America
and the Middle East. Id Quantique is a spin-off from the University of
Geneva and participates in both European quantum communications efforts —
RamboQ and Secoqc.
— Chappell Brown contributed to this report.
http://www.eetimes.com/news/latest/showArticle.jhtml?articleID=161601149
--
※ 發信站: 批踢踢實業坊(ptt.cc)
◆ From: 61.222.173.29
推
203.187.78.1 05/08, , 1F
203.187.78.1 05/08, 1F
→
203.187.78.1 05/08, , 2F
203.187.78.1 05/08, 2F
※ 編輯: reader 來自: 61.222.173.29 (05/08 17:04)
推
61.222.173.29 05/08, , 3F
61.222.173.29 05/08, 3F
推
61.222.173.29 05/08, , 4F
61.222.173.29 05/08, 4F
推
218.167.168.82 05/08, , 5F
218.167.168.82 05/08, 5F
推
220.132.132.105 05/14, , 6F
220.132.132.105 05/14, 6F
討論串 (同標題文章)
完整討論串 (本文為第 1 之 4 篇):
5
6
CSSE 近期熱門文章
PTT數位生活區 即時熱門文章