- Prosecutors used videos and photos to piece together ‘clear sequence’ of events before fatal injury of pro-Israel protester CNN
- CNN alters controversial homicide arrest headline after saying Jewish protester ‘fell and hit his head’ Fox News
- No evidence yet to support hate crime charge in death of pro-Israel protester, officials say Associated Press
- See photos from news conference on Loay Alnaji, court appearance VC Star
- California man pleads not guilty to manslaughter in death of Jewish protester Reuters
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Tag Archives: Sequence
Greta Gerwig Fought for ‘I’m Just Ken’ Dance Sequence in ‘Barbie’: ‘This Could Be Terrible, but Now I’m Committed’ – Variety
- Greta Gerwig Fought for ‘I’m Just Ken’ Dance Sequence in ‘Barbie’: ‘This Could Be Terrible, but Now I’m Committed’ Variety
- Greta Gerwig Says Her Next Project Is Already Giving Her Nightmares TMZ
- Greta Gerwig On “Incredible” Success Of ‘Barbie,’ Why She Will Never Act In Her Own Films & The “Nightmare” Of Scripting Her Next Project — London Film Festival Deadline
- Greta Gerwig Says She Hid in the Back of ‘Barbie’ Screenings During Its Opening Weekend, Teases New Project Hollywood Reporter
- Greta Gerwig teases work on new project: “It’s hard and I’m having recurring nightmares” Screen International
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‘M:I 7’ Scrapped De-Aging Sequence: Audiences Would Be ‘Distracted’ by Young Tom Cruise, Says Christopher McQuarrie – IndieWire
- ‘M:I 7’ Scrapped De-Aging Sequence: Audiences Would Be ‘Distracted’ by Young Tom Cruise, Says Christopher McQuarrie IndieWire
- Mission: Impossible: Dead Reckoning: The Ilsa twist may not be what it seems. Slate
- Box Office: Tom Cruise’s ‘Mission: Impossible – Dead Reckoning Part One’ Earns $23.8 Million in First Two Days Variety
- Mission: Impossible – Dead Reckoning Part One — watch in theaters or wait for streaming? Tom’s Guide
- There’s Only One Way to Watch ‘Mission: Impossible – Dead Reckoning Part One’ Yahoo Life
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Bully Ray Likens Omega-Ospreay Forbidden Door Sequence To Classic Hulk Hogan Moment – Wrestling Inc.
- Bully Ray Likens Omega-Ospreay Forbidden Door Sequence To Classic Hulk Hogan Moment Wrestling Inc.
- Kenny Omega, Will Ospreay Health Update After AEW X NJPW Forbidden Door 2023 WhatCulture
- Bully Ray Wonders Why Don Callis Was Allowed to Return to Ringside After Being Kicked Out by the Referee Wrestling News
- Backstage Details On Kenny Omega/Will Ospreay At Forbidden Door, Health Of Performers Wrestling Inc.
- EPIC! Will Ospreay & Kenny Omega’s entrances for Forbidden Door | 06/25/2023, Forbidden Door All Elite Wrestling
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Rare Boot Up Sequence for Nintendo Switch Prototype NX Uncovered
It looks like an internal logo for Nintendo Switch’s codename, “NX,” has been discovered and leaked online.
The NX logo was found through a prototype build of Mario Kart 8 Deluxe dated October 18, 2016, two days before Nintendo officially revealed the name of the Switch.
The logo itself features a circle with a blue dot that rolls counter-clockwise and features the letters “NX” right next to it. It also sports a similar light blue color as the Wii U’s logo did rather than the Switch’s red color.
The Nintendo Switches Codename was the NX and this was an early Logo / Boot Up animation used during development of the Console ( It was found in the Mario Kart 8 Deluxe Prototype ) This was never seen outside Nintendo pic.twitter.com/B1bS5zCKOu
— Paul Kelly (@PaulFelixKelly) November 20, 2022
While we can’t fully verify the legitimacy of the boot up sequence, and given that it’s Nintendo we will likely not get an official confirmation. But this is a rare glimpse of an early prototype from Nintendo.
Mario Kart 8 Deluxe was a Switch port of the Wii U’s Mario Kart 8 but with all of the latest DLC included. The game even got more DLC courses this year as well, in the form of the Booster Course Pass. It has become so successful that it has surpassed those of Mario Kart Wii, making it the best-selling game in the franchise, but it has also become the best-selling racing game in US history.
It seems like Nintendo is in no rush to create Mario Kart 9 since Mario Kart 8 Deluxe is doing so incredibly well. However, a successor is reportedly in active development with some sort of “new twist” on the series formula.
The Switch is nearing its sixth birthday, so a successor to the device could be coming soon. So far, there aren’t any details or codenames, but Nintendo said that it is working on not repeating the same mistakes as it did with the transition from the Wii to Wii U.
George Yang is a freelance writer for IGN. He’s been writing about the industry since 2019 and has worked with other publications such as Insider, Kotaku, NPR, and Variety.
When not writing about video games, George is playing video games. What a surprise! You can follow him on Twitter @Yinyangfooey
Scientists Fed the Fibonacci Sequence Into a Quantum Computer and Something Strange Happened
“You can have the system behave as if there are two distinct directions of time.”
Future of Computing
Physicists shot a laser pulse sequence mimicking the Fibonacci sequence at a quantum computer and ended up creating a new phase of matter in the process, according to a study published in Nature earlier this year.
They suggest that the newfound phase of matter is particularly robust in preserving information, more so than the methods currently used.
It’s a potentially massive breakthrough that could allow quantum computers to be far more reliable, since with current technology, keeping qubits in their quantum states is a precarious task.
Qubit Quandary
In the realm of quantum computing, a one or zero is not stored as an ordinary bit, but a qubit. What distinguishes a qubit is that it can be a one or zero at the same time, potentially allowing quantum computers to blaze through far more advanced calculations that take classical computers orders of magnitude longer to complete.
Quantum computers still have a long way to go before reliably achieving that kind of speed or to be practical in everyday use. For one, the qubits require an extremely controlled environment in which a slight perturbation, like a minuscule change in temperature, could cause the qubits to lose their quantum states — and their information.
In the experiment, a regular qubit at each end of a line-up of ten atoms retained its quantum state for 1.5 seconds. But when they blasted those atoms with a pulse of laser light to the tune of the Fibonacci numbers — a sequence of numbers where each number is the sum of the two preceding ones — the qubits lasted a whopping 5.5 seconds.
And according to the physicists, the reason that occurs has to do with time itself.
“What we realized is that by using quasi-periodic sequences based on the Fibonacci pattern, you can have the system behave as if there are two distinct directions of time,” study lead author Philip Dumistrescu, a research fellow at the Flatiron Institute’s Center for Computational Quantum Physics, told Gizmodo in a recent interview.
Erasing Errors
But why the Fibonacci numbers? In essence, when you shoot laser pulses following the Fibonacci numbers, they act as a sort of quasicrystal, the physicists say, a structure of matter that adheres to a pattern, but is not periodic.
In other words, ordered, but not repeating.
“With this quasi-periodic sequence, there’s a complicated evolution that cancels out all the errors that live on the edge,” Dumistrescu elaborated in a press release. “Because of that, the edge stays quantum-mechanically coherent much, much longer than you’d expect.”
More on quantum computing: Scientists Suggest Our Brains Work Like Quantum Computers
Joaquin Phoenix had to leave set during Her orgasm sequence
If Joaquin Phoenix’s turn in 2013’s Her as a man smitten by his virtual assistant teaches anything, it’s this: the only thing more fearsome than a haunted Alexa is a horny one. According to Scarlett Johansson (who voiced Samantha, the AI who Phoenix’s character Theodore falls in love with), filming a simulated sex scene between the odd duo was “so gross” that Phoenix fled the set.
During a conversation with Dax Shepard and Monica Padman’s “Armchair Expert” podcast, Johansson recalls Phoenix struggling to keep it together after an initial take of the scene, which involves Samantha virtually orgasming while Theodore has intercourse with a sex surrogate. It’s an uncomfortable scene to watch—and apparently, even more uncomfortable to shoot.
“We tried to get through one take, and he was, like, losing it,” Johansson says of her co-star. “He left the studio. He needed a break.”
Phoenix’s discomfort proved more than worthwhile— in 2013, Her won the Academy Award for Best Original Screenplay and was nominated for Best Picture. Directed by Spike Jonze, the film ranks easily among Phoenix’s best performances, despite the apparently discomforting cost of filming.
Although the virtual tryst clearly marked a trying time for Phoenix, Johansson didn’t much care for hearing her own fake climax either (a bad sign for anyone dreaming of a ScarJo-led When Harry Met Sally reboot.)
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“You don’t want to hear your voice ever,” she says. “You definitely don’t want to hear what you sound like having an orgasm. You definitely don’t want to hear what you sound like having a fake orgasm — ew.”
“It’s so gross,” Johansson shudders. “It was so bizarre.” Gross and bizarre— now that’s romance!
Scientists Finally Sequence the Entire Human Genome
Kateryna Kon/Science Photo Libra/Getty Images
When the Human Genome Project was declared completed in 2003, it had mapped 92% of genes, with the rest remaining a mystery for nearly two decades due to technological limitations. Now, scientists have finished sequencing the other 8%, and the human genome has finally been fully sequenced.
Almost 100 scientists from the Telomere-to-Telomere (T2T) Consortium collaborated on the project to map the entire human genome. The additional 8% that was sequenced accounts for 400 million new letters added to the existing sequenced DNA — enough for an entire chromosome, as CNN reported.
The additional genes are very important for adaptation, according to Evan Eichler, one of the major contributors to the main paper on the research and a professor of genome sciences at the University of Washington in Seattle. They include immune response genes enabling humans to adapt to and survive infections, plagues, and viruses, as well as genes that enable human brains to grow larger than those of other primates.
“I’ve always come back to that point that, to understand genetic variation comprehensively, we need to have a reference that’s complete,” Eichler said in a press release. “95% of the puzzle being solved is good enough for some people. But I guess for me, getting that last 5% was so important because I believe so much of what we don’t understand about disease, or we don’t understand about evolution, is disproportionately represented in that 5% of the of the genome that we didn’t sequence first off.”
As detailed in the research, which was published in six papers in the journal Science on March 31, the team used two DNA sequencing methods: the “ultralong” Oxford Nanopore method, which sequences up to one million DNA letters with a 5% error rate, and the PacBio HiFi sequencing method, which reads 20,000 letters at a time but has a far smaller (0.01%) error rate. While the researchers used the former to span extended lengths of repeated DNA, they used the latter to discern how some lengths that looked like exact replications were actually subtly different.
The resulting fully sequenced genome is now a resource that other scientists can use to springboard their own research, though it only represents a single example. Further study by the T2T Consortium along with the Human Pangenome Reference Consortium will build out more genome examples, called haplotypes, from a diverse range of samples, according to the published research.
This is another big step in enabling humans to sequence their individual genomes, which could drop in accessibility and cost to become a routine medical test that could run you under $1,000, study author Adam Phillippy, a genomicist with the National Institutes of Health, told CNN. In the meantime, scientists will be able to use the completed genome to investigate whether genetic variations are linked to particular cancers.
Even with this accomplishment, more work — and deeper understanding — lies ahead.
“We finished a genome. There will be hundreds, probably thousands of genomes over the next few years,” Eichler said in a statement. “I think our view of how humans differ from each other is going to be transformed, and how more complex genetic variation is important not only for making us human, but also making us different.”
Scientists sequence the most complete human genome yet
A team of almost 100 scientists part of the Telomere-to-Telomere (T2T) Consortium has successfully sequenced the most complete human genome yet. If you’re thinking “Wait a minute — didn’t scientists produce the complete human genome sequence almost two decades ago?” Well, you wouldn’t be wrong. The Human Genome Project finished sequencing 92 percent of the human genome back in 2003, but the techniques available at the time left the remaining 8 percent out of reach until recent years. Thus, 200 million DNA bases remained a mystery for the longest time.
In a series of papers published in Science, the T2T Consortium has reported how it managed to fill in almost all of the missing spots except for five, leaving only 10 million and the Y chromosome only vaguely understood. After the papers went out, the consortium’s scientists have revealed on Twitter that they have figured out the correct assembly for the Y chromosome and that they will publish another paper with the latest results.
Research lead Evan Eichler from the University of Washington likened sequencing a DNA to solving a jigsaw puzzle. Scientists have to break the DNA into small parts and then use sequencing machines to piece them together. Older tools could only sequence small sections of DNA at once, so it’s like solving those unnecessarily tough puzzles with tens of thousands of repetitive, almost identical pieces. Newer tools can sequence longer segments of DNA, which makes finding the correct sequence much more achievable.
To make the process less complicated, the team used a cell line from a failed pregnancy called a mole, wherein the sperm enters an egg that doesn’t have its own set of chromosomes. That means the team only had to sequence one set of DNA instead of two. Then, they used a technique called Oxford Nanopore to complete assemblies of centromeres, which are dense knobs in the middle of chromosomes. Oxford Nanopore has a relatively high error rate, however, making it less than ideal for sequencing sections with repetitive DNA. For those regions, the team used another technique called PacBio HiFi, which can sequence shorter sections with 99.9 percent accuracy.
Eichler said the previously unknown genes include ones for immune response that help us survive plagues and viruses, genes that help predict a person’s response to drugs and genes responsible for making human brains larger than other primates’. “Having this complete information will allow us to better understand how we form as an individual organism and how we vary not just between other humans but other species,” Eichler said.
The consortium’s work cost a few million dollars to achieve, but sequencing is getting cheaper and cheaper with new technologies. Adam Phillippy, another lead author for the studies, said the hope is for individual genome sequencing to cost as little as $1,000 within the next decade. That could make DNA sequencing a part of routine medical tests, which might help doctors create tailor-made treatments for individuals.
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Scientists sequence the complete human genome for the first time
“Having this complete information will allow us to better understand how we form as an individual organism and how we vary not just between other humans but other species,” Evan Eichler, a Howard Hughes Medical Institute investigator at the University of Washington and the research leader, said Thursday.
The new research introduces 400 million letters to the previously sequenced DNA — an entire chromosome’s worth. The full genome will allow scientists to analyze how DNA differs between people and whether these genetic variations play a role in disease.
Until now, it was unclear what these unknown genes coded.
“It turns out that these genes are incredibly important for adaptation,” Eichner said. “They contain immune response genes that help us to adapt and survive infections and plagues and viruses. They contain genes that are … very important in terms of predicting drug response.”
Eichner also said that some of the recently uncovered genes are even responsible for making human brains larger than those of other primates, providing insight into what makes humans unique.
This remaining 8% of the human genome had stumped scientists for years because of its complexities. For one thing, it contained DNA regions with several repetitions, which made it challenging to string the DNA together in the correct order using previous sequencing methods.
The researchers relied on two DNA sequencing technologies that emerged over the past decade to bring this project to fruition: the Oxford Nanopore DNA sequencing method, which can sequence up to 1 million DNA letters at once but with some mistakes, and the PacBio HiFi DNA sequencing method, which can read 20,000 letters with 99.9% accuracy.
Sequencing DNA is like solving a jigsaw puzzle, Eichner said. Scientists must first break the DNA into smaller parts and then use sequencing machines to piece it together in the correct order. Previous sequencing tools could sequence only small sections of DNA at once.
With a 10,000-piece puzzle, it’s hard to correctly arrange small puzzle pieces when they look alike, much like it is to sequence small sections of repetitive DNA. But with a 500-piece puzzle, it’s much easier to arrange larger pieces — or, in this case, longer segments of DNA.
A second challenge was finding cells that contained only one genome.
Standard human cells contain two sets of DNA, a maternal copy and a paternal copy, but this team used DNA from a group of cells called a complete hydatidiform mole, which contains a duplicate of the paternal set of DNA. A complete hydatidiform mole is a rare complication of a pregnancy caused by the abnormal growth of cells that originate from the placenta. This approach simplifies the genome so that scientists need sequence only one set rather than two sets of DNA.
Because the research team used a duplicate set of DNA, the scientists were unable to sequence the Y chromosome originally. According to lead study author Adam Phillippy, the team has managed to sequence the Y chromosome using a different set of cells.
A complete set of 24 sequenced chromosomes is available on the University of Santa Cruz genome browser.
Decoding this gapless sequence has a high price. Phillippy, who is also head of the gene informatics section at the National Human Genome Research Institute, said that altogether, the project cost a few million dollars or more. But that’s a fraction of the almost $450 million that it cost the Human Genome Project to achieve its final sequence in 2003. And with new technology, sequencing is only getting cheaper.
For now, it’s still too costly and time-consuming for everyone to sequence their own genome. But research is underway that uses this genome to identify whether certain genetic differences are linked with specific cancers. Knowing the genetic variations could also allow doctors to better tailor treatments, said Michael Schatz, another researcher on the team and a professor of computer science and biology at Johns Hopkins University.
Phillippy said he hopes that within the next 10 years, sequencing individuals’ genomes can become a routine medical test that costs less than $1,000. His team continues to work toward that goal.
Charles Rotimi, scientific director of the National Human Genome Research Institute, said in a statement that this scientific achievement is “moving us closer to individualized medicine for all humanity.” Rotimi was not involved in the research.