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Category: computing – Page 453

Astronomers at The University of Texas at Austin’s McDonald Observatory have discovered an unusually massive black hole at the heart of one of the Milky Way ’s dwarf satellite galaxies, called Leo I. Almost as massive as the black hole in our own galaxy, the finding could redefine our understanding of how all galaxies — the building blocks of the universe — evolve. The work is published in a recent issue of The Astrophysical Journal.

The team decided to study Leo I because of its peculiarity. Unlike most dwarf galaxies orbiting the Milky Way, Leo I does not contain much dark matter. Researchers measured Leo I’s dark matter profile — that is, how the density of dark matter changes from the outer edges of the galaxy all the way into its center. They did this by measuring its gravitational pull on the stars: The faster the stars are moving, the more matter there is enclosed in their orbits. In particular, the team wanted to know whether dark matter density increases toward the galaxy’s center. They also wanted to know whether their profile measurement would match previous ones made using older telescope data combined with computer models.

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Quantum computer and many other quantum technologies rely on the generation of quantum-entangled pairs of electrons. However, the systems developed so far typically produce a noisy and random flow of entangled electrons, which hinders synchronized operations on the entangled particles. Now, researchers from Aalto University in Finland propose a way to produce a regular flow of spin-entangled electrons.

Their solution is based on a dynamically driven Cooper pair splitter. In a Cooper pair splitter, two near a superconductor are used to generate and separate a pair of entangled electrons known as a Cooper pair. When the Cooper pair splitter is driven with a static voltage, the result is a random and noisy process.

A by the Aalto team showed that driving the system dynamically with external gate voltages makes it possible to control the timing of the splitting process. As a result, exactly one pair of entangled electrons can be extracted during each splitting cycle, leading to a completely noiseless and regular flow of spin-entangled electrons.

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1988, the first self-replicating computer worm is unleashed on Earth.

The Homeless Hacker documentary is available: https://www.disrupt.plus/show/9e4baf05-3ffd-4a31-c3d4-08d9b18f9584

Disrup[tv]: https://www.youtube.com/playlist?list=PLKIaC1iW4R8oEU-5wpPvFZXx3_5ieRVGC
Soundtrack: https://www.youtube.com/playlist?list=PLKIaC1iW4R8pLdK0CLnrC40g5C6mODV3F
Discord: https://discord.gg/SnPUBBq.

Bumper by: https://www.youtube.com/c/suushedits.
Bumper song: https://www.youtube.com/watch?v=mgtm59rOxB0

Source: https://spaf.cerias.purdue.edu/tech-reps/823.pdf.

Continue reading “Earth’s Deadliest Internet Program” | >

Finland’s first quantum computer was commissioned at a research center near the capital Helsinki, where scientists will use it to study next-generation computing power.

The 5 quantum-bit computer was developed “to learn how to build a quantum computer, how to program one and how to operate one in the future,” Pekka Pursula, research manager at the VTT Technical Research Centre, said by phone on Tuesday. The machine was the joint work of VTT and quantum computing hardware company IQM Finland Oy.

“This 5-qubit computer has relatively low computational power, and it’s not enough to solve practical problems,” Pursula said. The researchers plan to build a 50-qubit machine by 2024 that could be used for applications such as modeling viruses and drugs, and designing materials that today’s technology is ill-equipped to handle.

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It seems Intel is set to retake the PC performance crown convincingly with its 12 generation Alder Lake processors, even in the affordable price segment.

A leaked sample of the Core i3-1200 version of the processor has been benchmarked by Chinese hardware site XFASTEST and it crushes the competition in the price segment.

When compared to AMD Zen 2-based Ryzen 3 3300X and 3,100 DIY CPUs, the Intel Core i3-1200 processor paired with the ASRock Z690 Steel Legend WiFi 6E DDR4 motherboard outperformed the AMD processors in most benchmarks as can be seen below:

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The lower-end Snapdragon 7c+ Gen 3 offers a more modest 60% jump in multi-core CPU performance, and 30% in single-core workloads. The GPU gets a meaningful 70% boost as well.

Qualcomm says the 8cx Gen 3 is manufactured on the 5nm process node, which suggests that it uses Arm’s Cortex-X1 cores or a modified Kryo 680 design — not the newer Arm Cortex-X2. In that respect, it seems similar to the Snapdragon 888, its previous flagship mobile SoCs. Still, the decision to move away from 7nm should mean better performance per watt. But just how powerful is this new high-end chip?

In terms of CPU performance, last year’s Snapdragon 8cx Gen 2 went toe-to-toe with ultrabook-class chips such as the low-power, 15W variant of the Intel i5 processor. That was a fairly decent showing from Qualcomm, especially considering that the Snapdragon chip consumed half as much power at 7W.

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