“Recruiters are being laid off in massive numbers at large corporations. It’s not just artificial intelligence. These companies have halted all hiring completely. It hasn’t been this bad since 2008.”

GENIUS cleared the path. Stablecoin volume is exploding 👇

Bitcoin maxis are not gonna like this. 💀 Cathie Wood says stablecoins stole Bitcoin’s payments use case on CNBC.. then increased her BitMine position for Ethereum exposure. Pomp still defending the "BTC as money" narrative. $ETH $BMNR $BTC

JUST IN: BlackRock clients sell $127.17 million worth of $BTC.

AI models are forecasting gold to drop to $2700 by year end. forecasts.org

1 Bitcoin: $190,000 Save this post and let’s talk again in November 2025. $BTC #Bitcoin

BREAKING: OpenAI is requesting US government support to help guarantee financing for the massive investments in AI chips and data centers it needs for expansion, per Bloomberg.

I got liquidated 1.14M$ lost Goodbye X

DUFFY WARNS USDOT MAY NEED TO CLOSE SOME AIRSPACE IF GOVERNMENT SHUTDOWN CONTINUES

China solves 'century-old problem' with new analog chip that is 1,000 times faster than high-end Nvidia GPUs | Owen Hughes, LiveScience Researchers from Peking University say their resistive random-access memory chip may be capable of speeds 1,000 faster than the Nvidia H100 and AMD Vega 20 GPUs. Scientists in China have developed a new chip, with a twist: it's analog, meaning it performs calculations on its own physical circuits rather than via the binary 1s and 0s of standard digital processors. What’s more, its creators say the new chip is capable of outperforming top-end graphics processing units (GPUs) from Nvidia and AMD by as much as 1,000 times. In a new study published Oct. 13 in the journal Nature Electronics, researchers from Peking University said their device tackled two key bottlenecks: the energy and data constraints digital chips face in emerging fields like artificial intelligence (AI) and 6G, and the "century-old problem" of poor precision and impracticality that has limited analog computing. When put to work on complex communications problems — including matrix inversion problems used in massive multiple-input multiple-output (MIMO) systems (a wireless technological system) — the chip matched the accuracy of standard digital processors while using about 100 times less energy. By making adjustments, the researchers said the device then trounced the performance of top-end GPUs like the Nvidia H100 and AMD Vega 20 by as much as 1,000 times. Both chips are major players in AI model training; Nvidia's H100, for instance, is the newer version of the A100 graphics cards, which OpenAI used to train ChatGPT. The new device is built from arrays of resistive random-access memory (RRAM) cells that store and process data by adjusting how easily electricity flows through each cell. Unlike digital processors that compute in binary 1s and 0s, the analog design processes information as continuous electrical currents across its network of RRAM cells. By processing data directly within its own hardware, the chip avoids the energy-intensive task of shuttling information between itself and an external memory source. "With the rise of applications using vast amounts of data, this creates a challenge for digital computers, particularly as traditional device scaling becomes increasingly challenging," the researchers said in the study. "Benchmarking shows that our analogue computing approach could offer a 1,000 times higher throughput and 100 times better energy efficiency than state-of-the-art digital processors for the same precision." Old tech, new tricks Analog computing isn't new — quite the opposite, in fact. The Antikythera mechanism, discovered off the coast of Greece in 1901, is estimated to have been built more than 2,000 years ago. It used interlocking gears to perform calculations. For most of modern computing history, however, analog technology has been written off as an impractical alternative to digital processors. This is because analog systems rely on continuous physical signals to process information — for example, a voltage or electric current. These are much more difficult to control precisely than the two stable states (1 and 0) that digital computers have to work with. Where analog systems excel is in speed and efficiency. Because they don't need to break calculations down into long strings of binary code — instead representing them as physical operations on the chip's circuitry — analog chips can handle large volumes of information simultaneously while using far less energy. This becomes particularly significant in data- and energy-intensive applications like AI, where digital processors face limitations in how much information they can process sequentially, as well as in future 6G communications — where networks will have to process huge volumes of overlapping wireless signals in real time. The researchers said that recent advances in memory hardware could make analog computing viable once again. The team configured the chip's RRAM cells into two circuits: one that provided a fast but approximate calculation, and a second that refined and fine-tuned the result over subsequent iterations until it landed on a more precise number. Configuring the chip in this way meant that the team was able to combine the speed of analog computation with the accuracy normally associated with digital processing. Crucially, the chip was manufactured using a commercial production process, meaning it could potentially be mass-produced. Future improvements to the chip's circuitry could boost its performance even more, the researchers said. Their next goal is to build larger, fully integrated chips capable of handling more complex problems at faster speeds. livescience.com/technology/c…

Does she get a second date?

U.S. Dollar Going For It 📈💵

And the circular funding headlines arrive *AMAZON INKS $38 BILLION DEAL WITH OPENAI TO SUPPLY NVIDIA CHIPS

Bank run -> Gold rush

JUST IN: Nancy Pelosi will reportedly not seek reelection in 2026

Hedge Funds just reduced their Bearish Oil Bets by the largest amount ever recorded 🚨🚨