А что происходит на противоположном фронте?
Вы, вероятно, слышали, что 2026 год называют годом Linux на десктопе (в каких-то узких кругах - годом гейминга на Linux). Всё потому, что экосистема Linux постепенно становится более дружелюбной для обычных десктоп-юзеров (в том числе привыкших к Windows), и не только!
▫️ всё чаще появляются Linux дистрибутивы визуально похожиена Windows (или даже лучше), и множество видео с советами какой дистрибутив попробовать новичкам.
▫️ обновления ядра и любых пакетов в экосистеме Linux всегда привносят оптимизацию и удобство и поддержку свежего железа (привет винде с её обратной тенденцией). Например грядущая версия 7.0, опять с множеством приятных мелочей.
▫️ после 10 лет с последего релиза версии 5 окружение KDE Plasma получила мажорный апдейт версии 6 и активно развивается (уже доросла до 6.5). GNOME тоже не спит и готовит версию 50.
▫️ в Wine добавили патч позволяющий устанавливать продукты Adobe на Linux. Для кого-то это был последний рубеж?😏
▫️ Proton активно развивается, да так, что через эту прослойку игры работают даже быстрей чем нативно на винде.
▫️ с каждым релизом Wine и Proton поддерживается всё больше игр, что можно отслеживать на ProtonDB, и даже случаются бусты производительности.
▫️ Я сам на днях на виндобук поставил ChacyOS после чего игры, которые тянули гдето в 5-10 FPS, стали играбельными! Подтверждено личным опытом! Кстати, есть несколько дистрибутивов заточенные именно под игры.
▫️ Valve выпускают новую пачку железок которые (предположительно) порвут рынок гейминга (как и в прошлый раз) и (определнно точно) работают на Linux. Именно Valve вливает ресурсы в Linux в целом и в Proton в частности.
▫️ Госсектор разных стран давно уже мигрирует на opensource, так как нет доверия системе которая может одномоментно неконтролируемо массово рухнуть или быть удаленно заблокированной (в том числе по политическим причинам).
И ниже небольшой опрос - какая у вас операционка основная?
Ни к чему не призываю, ничего не советую! Просто подмечаю тенденцию и хочется узнать мнения из первых рук 😉
Знаю, что Linux тоже не идеален, знаю что каждой задаче - свой инструмент. Но это не тема поста, так что можно без холиваров)
#offtop#linux
🪐 In 2021, scientists using the LIGO and Virgo detectors observed gravitational waves from a collision between two massive black holes named GW200129, located over 5 billion light-years away. What made this discovery unusual was the strong "precession" of the black holes’ orbits—a wobble much like a spinning top—which had never been clearly seen before, opening a new way to study how spinning black holes merge and ripple through the fabric of space. ✨
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🪐 In 2016, scientists using the Laser Interferometer Gravitational-Wave Observatory (LIGO) made history by detecting gravitational waves from the collision of two black holes over a billion light-years away. Gravitational waves are actual ripples in the fabric of space itself, created when massive objects like black holes or neutron stars crash together, letting astronomers "hear" cosmic events that were invisible before. ✨
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🪐 In 2023, astronomers announced the very first detection of gravitational waves coming from the collision of two supermassive black holes—giant black holes millions of times heavier than the Sun—located in distant galaxies. These faint ripples in space-time were picked up using pulsar timing arrays, which rely on ultra-precise measurements of radio pulses from rapidly spinning neutron stars, revealing a whole new side of the universe where invisible titans shape the cosmos with their dances and crashes. ✨
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🪐 In 2023, scientists using the Laser Interferometer Space Antenna (LISA) Pathfinder technology prepared for future space-based detection of gravitational waves—tiny ripples in space made by massive events like black hole collisions. Unlike Earth-based detectors, LISA will measure these waves from space, opening a new window to observe cataclysmic events in galaxies millions of light-years away and revealing secrets hidden by cosmic dust and distance. ✨
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🪐 In 2019, gravitational wave detectors LIGO and Virgo picked up GW190814—a signal from the merger of a black hole about 23 times the mass of the Sun and a mysterious compact object weighing just 2.6 solar masses. This lighter object is too heavy for known neutron stars but lighter than any confirmed black hole, creating a real cosmic mystery and challenging scientists to rethink what kinds of objects can exist in the universe. ✨
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🪐 In 2020, astronomers made a pioneering discovery by detecting gravitational waves from the merger of a black hole and a neutron star in a distant galaxy. Gravitational waves are ripples in space caused by massive objects accelerating or colliding, and finding this "mixed" merger—between a dense neutron star and a black hole—helped confirm that such pairs really exist and can dramatically reshape the universe. ✨
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🪐 In July 2023, the NANOGrav collaboration announced the detection of a subtle, continuous "hum" of gravitational waves rippling through the Milky Way, likely created by pairs of supermassive black holes orbiting each other in distant galaxies. Gravitational waves are tiny ripples in space itself, first predicted by Einstein, and their detection with pulsar timing arrays—using rapidly spinning stars that act as cosmic clocks—opens a new era for exploring invisible giants and the history of galaxy mergers across the universe. ✨
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🪐 In 2023, scientists using pulsars—ultra-dense, spinning stars that emit radio pulses like cosmic clocks—detected a faint background hum of gravitational waves rippling through our galaxy. These gravitational waves, created by supermassive black holes merging in distant galaxies, gently stretch and squeeze the fabric of space, opening an entirely new window into the universe’s most titanic collisions. ✨
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🪐 In 2015, the twin LIGO detectors in the United States made a groundbreaking discovery by directly detecting gravitational waves—tiny ripples in the fabric of space itself—caused by two black holes merging about 1.3 billion light-years away. This event, called GW150914, proved that space can literally shake, confirming a century-old prediction by Einstein and opening a whole new way to "listen" to the universe beyond just observing light or radio waves. ✨
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🪐 In 2023, astronomers using gravitational wave observatories detected GW230307, a signal from the merger of two neutron stars in a distant galaxy. Neutron stars are the incredibly dense cores left behind after supernova explosions, and their collision sent ripples—gravitational waves—through space itself, allowing scientists to study the properties of matter squeezed far beyond anything found on Earth. ✨
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🪐 Some gamma-ray bursts last less than two seconds and are thought to result from the collision of two neutron stars—ultra-dense remnants of massive stars that pack more mass than the Sun into a space the size of a city. In 2017, the galaxy NGC 4993, about 130 million light-years away, was the site of such a collision, allowing astronomers to observe both gamma rays and gravitational waves from the same cosmic event—a rare glimpse into the most violent mergers in the universe. ✨
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🪐 In 2020, astronomers detected gravitational waves from the merger of two black holes with highly unequal masses—one about nine times heavier than the other—in a distant galaxy. This unusual event, named GW190814, created a final object weighing about 142 times the mass of our Sun, providing the first strong evidence for so-called "intermediate-mass" black holes that fill the mysterious gap between stellar and supermassive black holes. ✨
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