Of course, the “waiting room” was only one aspect of Quantum Leap’s time travel logistics that needed thinking through. “We personally felt the waiting room was a little difficult to wrap our minds around, so we’re actually moving on from it.” “There’s a scientific quantum principle called the law of superposition where two entities can hold the same time and space at the same time,” Wynbrandt explains, although this is a storytelling solution as much as a scientific one. Unlike the original series, this Quantum Leap will be far more than the story of a man and his hologram.īen, played by Raymond Lee, will be backed up by a stellar cast including Caitlin Bassett, Ernie Hudson, Mason Alexander Park, and Nanrisa Lee.Īlthough rarely seen, Sam’s Quantum Leap Project included a “waiting room” where the historical figures Beckett body-swapped with would wait while he inhabited their bodies, but this won’t make an appearance. “What is he after? What is really going on?” “You have the leaps of the week, but you have an ongoing narrative that is the mystery of why did Ben leap?” Wynbrandt adds. While in the original series, the audience rarely saw more of the present beyond Sam Beckett and his holographic sidekick, Al, the new series will broaden that canvas. This will all sound familiar to fans of the original show, but the new Quantum Leap is also unafraid to experiment with the formula. That idea of empathy will be accompanied by fun fish-out-of-water stories, some of them wish fulfillment, some more thrilling and dangerous. “The idea of walking in someone else’s shoes and how powerful that idea is, it’s still relevant, if not more relevant today,” says Bryan Wynbrandt, Lilien’s co-writer and executive producer on the show. It will also aim to preserve the heart of the original series. The new show will respect the continuity and lore of the original series but will also aim to be a good jumping-on point for new audiences. “When we sat down to tackle this project, it felt like we wanted to honor and respect what came before and build on it,” Lilien says. It’s a strong, high-concept idea, but rather than taking that premise and starting from scratch, the new series will be set 30 years after the original, with new characters. His adventures saw him play the roles of Lee Harvey Oswald, Elvis Presley, and on one memorable occasion, a chimp in the space program. Sam Beckett after his time travel experiment leaves him jumping randomly through different times and different bodies. The original Quantum Leap told the adventures of Dr. “I think the ‘Oh boy!’ was so specific to Sam Beckett, and I think we’re trying to carve out a new path for our character, Ben.” “I think obviously the idea of him looking into a mirror and seeing another person’s reflection will be core to the show, and we’ll have those moments,” concedes writer and executive producer Steven Lilien. The new Quantum Leap series will not begin each episode with the show’s star, Raymond Lee, looking into a mirror and saying, “Oh boy!” This specially trained AI model can help scientists (and students) generate quantum-related calculations and simulations.We’ll deal with the most controversial change first. Microsoft also announced Azure Quantum Elements, its platform for accelerating scientific discovery by combining high-performance computing, AI, and quantum, and Copilot for Azure Quantum. From there, Microsoft proposes to build a smaller multi-qubit system and demonstrate a complete quantum system. These qubits will be small (less than 10 microns on a side) and fast enough to perform one qubit operation in less than a microsecond.Īfter that, the team plans to entangle these qubits and operate them through braiding. The next step now is to build hardware-protected qubits. To reach the next step or the resilient level, it will take a quantum computer to perform those one million reliable quantum operations per second and a failure rate of one per trillion operations, Svore said. The company claims to be at the foundational implementation level. Microsoft made an early bet on this technology. Majorana qubits are relatively stable (especially compared to traditional techniques), but they are also challenging to develop. In 2022, Microsoft announced a breakthrough when its team first highlighted its ability to create Majorana-based qubits.
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