X
[email protected]
- Jan 1, 1970
- 0
Space Sciences Laboratory at Berkeley was initiated in 1958
There seti program truns a 3 ghz into 3 tflops
http://www.ssl.berkeley.edu/
Space Science Research
Quantum, Quantum mechanics, Quantum leap, Quantum physics, Quantum
Theory,
Quantum dot,Quantum Telaportation
There seti program truns a 3 ghz into 3 tflops
Quantum Computation - On the atomic scale matter obeys the rules of
quantum mechanics, which are quite different from the classical rules
that determine the properties of conventional logic gates. So if
computers are to become smaller in the future, new, quantum technology
must replace or supplement what we have now. The point is, however,
that quantum technology can offer much more than cramming more and more
bits to silicon and multiplying the clock-speed of microprocessors. It
can support entirely new kind of computation with qualitatively new
algorithms based on quantum principles!
Quantum Communication - Information is physical and any processing of
information is always performed by physical means - an
innocent-sounding statement, but its consequences are anything but
trivial. In the last few years there has been an explosion of
theoretical and experimental innovations which, their discoverers
claim, are creating a fundamental new discipline: a distinctively
quantum theory of information.
Quantum Cryptography - While classical cryptography employs various
mathematical techniques to restrict eavesdroppers from learning the
contents of encrypted messages, in quantum mechanics the information is
protected by the laws of physics. In classical cryptography an absolute
security of information cannot be guaranteed. The Heisenberg
uncertainty principle and quantum entanglement can be exploited in a
system of secure communication, often referred to as "quantum
cryptography". Quantum cryptography provides means for two parties to
exchange a enciphering key over a private channel with complete
security of communication.
Quantum Error Correction - The method of active stabilisation is
extremely powerful in classical systems, and is at the heart of
mechanical devices from early steam engines to the latest microchip
processors. However, it is not obvious whether anything like active
stabilisation is possible for a quantum system, since feedback control
involves dissipation, and therefore is non-unitary. Hence this group
looks at whether and under what conditions active stabilistion of a
quantum bit may be possible.
http://www.qubit.org/
http://www.matrix--qunatium-mechanics.com/
This build the fastest computer system in the world
from your freinds @ http://www.berkeley.edu/
and www.caltech.edu/
http://groups.yahoo.com/group/Quantum_AI/
There seti program truns a 3 ghz into 3 tflops
http://www.ssl.berkeley.edu/
Space Science Research
Quantum, Quantum mechanics, Quantum leap, Quantum physics, Quantum
Theory,
Quantum dot,Quantum Telaportation
There seti program truns a 3 ghz into 3 tflops
Quantum Computation - On the atomic scale matter obeys the rules of
quantum mechanics, which are quite different from the classical rules
that determine the properties of conventional logic gates. So if
computers are to become smaller in the future, new, quantum technology
must replace or supplement what we have now. The point is, however,
that quantum technology can offer much more than cramming more and more
bits to silicon and multiplying the clock-speed of microprocessors. It
can support entirely new kind of computation with qualitatively new
algorithms based on quantum principles!
Quantum Communication - Information is physical and any processing of
information is always performed by physical means - an
innocent-sounding statement, but its consequences are anything but
trivial. In the last few years there has been an explosion of
theoretical and experimental innovations which, their discoverers
claim, are creating a fundamental new discipline: a distinctively
quantum theory of information.
Quantum Cryptography - While classical cryptography employs various
mathematical techniques to restrict eavesdroppers from learning the
contents of encrypted messages, in quantum mechanics the information is
protected by the laws of physics. In classical cryptography an absolute
security of information cannot be guaranteed. The Heisenberg
uncertainty principle and quantum entanglement can be exploited in a
system of secure communication, often referred to as "quantum
cryptography". Quantum cryptography provides means for two parties to
exchange a enciphering key over a private channel with complete
security of communication.
Quantum Error Correction - The method of active stabilisation is
extremely powerful in classical systems, and is at the heart of
mechanical devices from early steam engines to the latest microchip
processors. However, it is not obvious whether anything like active
stabilisation is possible for a quantum system, since feedback control
involves dissipation, and therefore is non-unitary. Hence this group
looks at whether and under what conditions active stabilistion of a
quantum bit may be possible.
http://www.qubit.org/
http://www.matrix--qunatium-mechanics.com/
This build the fastest computer system in the world
from your freinds @ http://www.berkeley.edu/
and www.caltech.edu/
http://groups.yahoo.com/group/Quantum_AI/
