-
+22 +1
Quantum computing could break the internet.
We don’t know when. We don’t know who will get there first. But Q-day will happen — and it will change the world as we know it.
-
+20 +1
Quantum data conversion offers a path to scale up quantum technology architectures
Researchers at the Kastler Brossel Laboratory in Paris have succeeded in building the first converter between the two different types of quantum-bit encodings—an equivalent to converters for classical information, but targeted to different types of quantum data. This high-quality rewriting of information shows the way towards bridging the gap between the many different platforms competing in the race for quantum computing and may enable the interconnectivity of future networks.
-
+15 +1
Quantum breakthrough could revolutionise computing
Researchers have transferred 'quantum' information between computer chips at record speeds and accuracy.
-
+18 +1
New analog quantum computers to solve previously unsolvable problems
Physicists have invented a new type of analog quantum computer that can tackle hard physics problems that the most powerful digital supercomputers cannot solve.
-
+24 +1
What are companies doing with D-Wave’s quantum hardware?
While many companies are now offering access to general-purpose quantum computers, they're not currently being used to solve any real-world problems, as they're held back by issues with qubit count and quality. Most of their users are either running research projects or simply gaining experience with programming on the systems in the expectation that a future computer will be useful.
-
+13 +1
LEONARDO is inaugurated: Europe welcomes a new world-leading supercomputer
Today, the European High Performance Computing Joint Undertaking (EuroHPC JU) and CINECA officially inaugurated LEONARDO, the newest EuroHPC pre-exascale supercomputer ranked as the 4th fastest in the world, at the Bologna Technopole in Italy.
-
+24 +1
IBM accelerates quantum computing with 433-qubit processor, eyes even more power
With conventional computing silicon, computing performance is often a function of clock speed and thread processing capabilities. For quantum computing, to date, the qubit has been the defining metric and it’s a number that keeps getting bigger. A year ago, IBM announced that it had developed a127-qubit processor codenamed Eagle. Today at the IBM Quantum 2022 Summit, Big Blue announced a four- fold increase with its new Osprey Quantum processor, which can deliver 433 qubits.
-
+16 +1
Top 10 Future Technologies That Will Change Our World - PFM
Technology changes every day and advances rapidly every year. There is no denying it. – future – The Singularity is coming. Looking at history and how innovative we have become in this century, you see how limitless our possibilities are.
-
+17 +1
150,000 Qubits Printed On a Chip
Quantum computers can theoretically solve problems no classical computer ever could, but only if they possess many components known as qubits.
-
+20 +1
Record-setting quantum entanglement connects two atoms across 20 miles
Researchers in Germany have demonstrated quantum entanglement of two atoms separated by 33 km (20.5 miles) of fiber optics. This is a record distance for this kind of communication and marks a breakthrough towards a fast and secure quantum internet.
-
+18 +1
Molecular computer uses 10,000 times less energy than a normal one
A computer that uses molecules to solve problems uses 10,000 times less energy than a conventional computer. If made larger, these biocomputers could efficiently solve complex logistics problems that normally require a lot of time and energy.
-
+17 +1
Chicago expands and activates quantum network, taking steps toward a secure quantum internet
Quantum security trials with Toshiba have begun on 124-mile quantum network—one of the nation’s longest—which will soon be open to industry and academics for testing.
-
+15 +1
'Time crystals' work around laws of physics to offer new era of quantum computing
The connecting of two "time crystals" in a superfluid of helium-3 barely one-ten-thousandth of a degree above absolute zero could be a huge step toward a new kind of quantum computer. Time crystals are bizarre structures of atoms, the existence of which was only predicted as recently as 2012, with experimental proof following a few years later. In a normal crystal, such as diamond or salt, the atoms are arranged in a regularly repeating spatial pattern — a lattice or similar framework. And like most materials, when the atoms are in their ground state — their lowest possible energy level — they stop jiggling.
-
+20 +1
Quantum computer succeeds where a classical algorithm fails
People have performed many mathematical proofs to show that a quantum computer will vastly outperform traditional computers on a number of algorithms. But the quantum computers we have now are error-prone and don't have enough qubits to allow for error correction. The only demonstrations we've had involve quantum computing hardware evolving out of a random configuration and traditional computers failing to simulate their normal behavior. Useful calculations are an exercise for the future.
-
+17 +1
The world’s fastest supercomputer just broke the exascale barrier
The Frontier supercomputer at Oak Ridge National Laboratory in Tennessee clocked in at more than 1.1 quintillion calculations per second.
-
+24 +1
World First Room Temperature Quantum Computer Installed in Australia
The world's first on-premises, room-temperature quantum computer has just been installed in Pawsey's Supercomputing Research Centre, in Australia. Developed by Australian start-up Quantum Brilliance, the quantum accelerator doesn't require any exotic cooling methods to maintain quantum coherence, and has even been developed for installation in a typical rack system. The new quantum accelerator will thus be taken for a spin in tandem with Pawsey's new, state-of-the-art Setonix, its HPE Cray Ex supercomputer.
-
+11 +1
AMD-Powered Frontier Supercomputer Breaks the Exascale Barrier, Now Fastest in the World
The AMD-powered Frontier supercomputer is now the first officially recognized exascale supercomputer in the world, topping 1.102 ExaFlop/s during a sustained Linpack run. That ranks first on the newly-released Top500 list of the world's fastest supercomputers as the number of AMD-powered systems on the list has expanded significantly this year.
-
+25 +1
Fastest-ever logic gates could make computers a million times faster
Logic gates are the fundamental building blocks of computers, and researchers at the University of Rochester have now developed the fastest ones ever created. By zapping graphene and gold with laser pulses, the new logic gates are a million times faster than those in existing computers,…
-
+15 +1
Ancient Namibian stone could hold key to future quantum computers
A special form of light made using an ancient Namibian gemstone could be the key to new light-based quantum computers, which could solve long-held scientific mysteries, according to new research led by the University of St Andrews.
-
+22 +1
New quantum gravity sensor could someday peel away the surfaces of other worlds
A new quantum gravity sensor may help scientists find features like groundwater under the surface of a planet or moon thanks to subtle marks those features leave in the planet's gravitational field.
Submit a link
Start a discussion