#rust#database#postgres#postgresql#rust#serverless
Neon is a serverless, open-source database that works like PostgreSQL but is designed for the cloud, making it easy to set up and manage without worrying about servers or manual scaling. It splits storage and computing, so you can quickly create, copy, or branch databases for testing or development, and it automatically adjusts resources to save costs and handle traffic spikes. This means you can start using Postgres in seconds, connect with your favorite tools, and focus on building your app instead of managing infrastructure, all while enjoying fast performance and flexible workflows[3][5][2].
https://github.com/neondatabase/neon
#FRB
Сегодня рынок заложил поднятие ставки от ФРС на 75 базисных пунктов завтра.
Фьючерсы заложили такой исход с вероятностью более 90% то есть текущие цены на активы учитывают такое событие, если будет поднятие на 50 базисов это будет сюрпризом, уже)
#FRB
Сегодня рынок заложил поднятие ставки от ФРС на 75 базисных пунктов завтра.
Фьючерсы заложили такой исход с вероятностью более 90% то есть текущие цены на активы учитывают такое событие, если будет поднятие на 50 базисов это будет сюрпризом, уже)
#FRB
Рыночное ожидание для наиболее вероятной траектории ставок ФРС до заседания 15 марта 2023 года показывает три повышения на 50 базисных пунктов, а затем пять повышений на 25 базисных пунктов. Вот как это выглядит 👇🏻
P.S.ожидаю, что слабые данные с рынка труда + первичные данные по ВВП охладят такой пыл - но все же повышение на 0.5 базисов в ближайших заседаниях скорей всего увидим.
🪐 One of the largest samples of fast radio bursts (FRBs) ever recorded comes from the Canadian Hydrogen Intensity Mapping Experiment (CHIME), which has detected thousands of these brief, mysterious flashes from all directions across the sky. Each FRB is a burst of radio energy that lasts just milliseconds, often releasing more power than our Sun emits in days, and their unpredictable appearances continue to challenge scientists searching for their true origins. ✨
#FRB⚡#CHIME⚡#astronomy⚡#nasa⚡#galaxy⚡#stars⚡#universe⚡#cosmos⚡#space
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🪐 In 2024, astronomers used the CHIME radio telescope to spot FRB 20240117A, a fast radio burst coming from a galaxy nearly 4 billion light-years away in the constellation Lynx. This single millisecond flash released more energy than the Sun does in several days, showing just how powerful these mysterious cosmic radio signals can be—even when they travel billions of light-years through silent, near-empty space. ✨
#frb⚡#galaxies⚡#radioastronomy⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 Some of the most puzzling signals in astronomy are fast radio bursts, or FRBs—powerful, millisecond-long flashes of radio waves from distant galaxies like NGC 3252. Scientists have traced some FRBs to their host galaxies, but their exact cause remains unknown; what’s remarkable is that in a single blink, an FRB can outshine all the radio energy from an entire galaxy. ✨
#FRB⚡#radiowaves⚡#galaxies⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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🪐 In 2024, observations with the CHIME radio telescope revealed that some fast radio bursts (FRBs) can travel through the sparse gas between galaxies—known as the intergalactic medium—without slowing down or scattering as much as expected. This suggests that the space between galaxies, like that between the Milky Way and the Triangulum Galaxy (M33), is even more empty and calm than scientists previously thought, allowing these intense millisecond bursts of radio energy to arrive at Earth almost untouched by cosmic matter. ✨
#FRB⚡#radioastronomy⚡#intergalactic⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
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