Northwestern Medicine scientists have discovered that one of the body’s most fundamental biological processes — how red blood cells are made — works differently in humans than previously thought, according to a new study published in Nature Genetics.
I remember the time when there was BTC, ETH and LTC everywhere as only 3 coins u can buy on excange or local shops and places. LTC is used to be called - digital silver, while BTC was -digital gold. But in past couple years ppl only focus on BTC and ETH ( i guess bcs of ETF's) and LTC have been kinda left out. LTC was always my favourite coin, and wonder why people don't look at it as it is - top 3 oldest, reliable coins? - LTC have lowest fees than most of the coins + Fast block times - Also have halvings like BTC - Proof of stability through all these years - Circulating suply are almost 100% -Proof-of-Work mining - In almost all Merchant payments -Been there since 2011 - High liquidity - Listed on all exchanges I would add also- no venture capital controlling the network, like they do on BTC or ETH, even SOL. I know that LTC Litecoin remained focused on payments rather than becoming an application platform, but is that the only reason? submitted by /u/Ok_Statement1359 [link] [Kommentare]
I recorded a rosbag from a simulation run where the robot behaved weirdly. The bag is about 15 GB. I know I can replay it in RViz and inspect topics in Foxglove, but I’m wondering what people usually do after that (sorry new to this field). Do you just inspect the log, find the bug, fix the code, and move on? Or is there a standard practice for keeping these logs and reusing them later? submitted by /u/Practical_Sir8080 [link] [Kommentare]
Optical coherent Ising machines based on time-multiplexing have demonstrated significant progress in terms of connectivity and spin scalability. However, they are constrained by large physical footprints, high power consumption, poor thermal stability, and high cost. Here, we present a time-multiplexed Ising machine leveraging propagating wave packets in solid-state delay lines at microwave frequencies, enabling thermally stable, robust, low-power, tabletop, and affordable design. We use two serially connected 20.5 MHz, 707 μs bulk acoustic wave delay lines supporting 2,048 spins. Our design provides all-to-all connectivity with 15-bit coupling resolution and finds approximate MAX-CUT solutions in 341 ms, potentially scalable to sub-ms by using higher frequency delay lines. Additionally, we demonstrate solutions to number partitioning and Sudoku problems. Compared with state-of-the-art Coherent Ising machines, our machine exhibits four orders of magnitude higher thermal stability. Against the simulated bifurcation algorithm, our design achieves comparable results on the MAX-CUT problem, while outperforming it on the more complex number-partitioning and Sudoku problems.
We explain why agents need to capture decisions, how context graphs achieve this, and how agents can use these graphs.