Lifeboat Foundation

One month into living under Russian occupation in northern Ukraine, Marina cycled cautiously through her village. She was five doors from her elderly parents’ blue garden gate when three soldiers ordered her to stop. Grabbing her hair, they dragged Marina into a neighbour’s empty house.

“They forced me to strip naked,” the 47-year-old said, picking at the skin around her fingernails. “I asked them not to touch me, but they said: ‘Your Ukrainian soldiers are killing us’.”

Continue reading “Gang-rape and genital electrocution: How Russia’s war crimes in Ukraine could go un-prosecuted” »

Billionaire investor Li Ka-Shing is funding a new technology that can potentially rival artificial intelligence (AI) by using brain cells blended with computers in a technology it calls DishBrain.

Peter Thiel, Mark Cuban and Warren Buffet funded early-stage startups and made millions. You don’t need to be a well-connected billionaire to do the same. Click here to invest in promising startups today.

This science fiction-sounding tech comes from Australian biotech firm Cortical Labs. The company recently raised $10 million in a round led by Horizons Ventures, the investment vehicle of the 94-year-old Ka-Shing, the richest person in Hong Kong. Additional investors included Blackbird Ventures, an Australian venture capital (VC) fund; In-Q-Tel, the investment arm of the Central Intelligence Agency; U.S. firm LifeX Ventures; and others.

The brightest gamma-ray explosion ever caught on record, which was so bright it blinded scientific instruments, just got weirder.

GRB 221,009, first spotted in October 2022, outshone other cosmic explosions on record by “not just a little bit, but a hundred times,” George Washington University graduate student Brendan O’Connor said in a press release.

The explosion earned the nickname BOAT for “Brightest of All Time.”

Caregivers of individuals with cancer likely have concerns about employment rights, finances, and support. This video will provide some options to support cancer caregivers.

Today Loremasters we explore some of hyper technology of the Necrons – the World Engine, Celestial Orrery & the Dolmen Gates.

Masters of Material Technology

The Necrons are the masters of Material technology, and their technological feats may seem magical to lesser races. Their technological masters, Crypteks, can manipulate matter at a fundamental level and wield such arcane concepts as phase-gates, subatomic infusion, and temporal looping. Several Necron super-weapons such as the World Engine and Celestial Orrery have galaxy-devastating capabilities. However it is Living Metal, or Necrodermis, which equips nearly all Necron technology. These billion-strong swarns of nano–Scarabs crawl under the skin of Necrons at a cellular level, allowing for self-repair and regeneration. Also, on particularly rare occasions, a super heavy Necron device called a Necron Pylon is seen. It is feared for its extreme power and ability to appear anywhere on the battlefield.

Camacho et al. show that emotion concepts are represented throughout the brain, giving insight to how the brain perceives real-world emotions. These patterns are present before children enter school and become more standardized across adolescence.

Scientists just made the invisible visible.

Stem cell differentiation paths found to permit U-turns, provided mitochondrial signaling loop is engaged.

The explicit modeling of the input modality is typically required for deep learning inference. For instance, by encoding picture patches into vectors, Vision Transformers (ViTs) directly model the 2D spatial organization of images. Similarly, calculating spectral characteristics (like MFCCs) to transmit into a network is frequently involved in audio inference. A user must first decode a file into a modality-specific representation (such as an RGB tensor or MFCCs) before making an inference on a file that is saved on a disc (such as a JPEG image file or an MP3 audio file), as shown in Figure 1a. There are two real downsides to decoding inputs into a modality-specific representation.

It first involves manually creating an input representation and a model stem for each input modality. Recent projects like PerceiverIO and UnifiedIO have demonstrated the versatility of Transformer backbones. These techniques still need modality-specific input preprocessing, though. For instance, before sending picture files into the network, PerceiverIO decodes them into tensors. Other input modalities are transformed into various forms by PerceiverIO. They postulate that executing inference directly on file bytes makes it feasible to eliminate all modality-specific input preprocessing. The exposure of the material being analyzed is the second disadvantage of decoding inputs into a modality-specific representation.

Think of a smart home gadget that uses RGB photos to conduct inference. The user’s privacy may be jeopardized if an enemy gains access to this model input. They contend that deduction can instead be carried out on inputs that protect privacy. They make notice that numerous input modalities share the ability to be saved as file bytes to solve these shortcomings. As a result, they feed file bytes into their model at inference time (Figure 1b) without doing any decoding. Given their capability to handle a range of modalities and variable-length inputs, they adopt a modified Transformer architecture for their model.