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NoneAre Marcus Jordan And Nicole Murphy Dating? Viral Night Out Photos Spark Rumors Of New RomanceDownstream Processing Market Witnesses Rapid Growth Fueled by Biopharmaceutical Demand and Technological Advancements | Report by S&S InsiderPublished 4:27 pm Tuesday, November 26, 2024 By Data Skrive There are several strong matchups on Wednesday in college basketball play, including the Cornell Big Red playing the Syracuse Orange — that’s one of the 10 games our computer model recommends in terms of picks against the spread. Watch men’s college basketball, other live sports and more on Fubo. What is Fubo? Fubo is a streaming service that gives you access to your favorite live sports and shows on demand. Use our link to sign up for a free trial. Bet on this or any men’s college basketball matchup at BetMGM. Not all offers available in all states, please visit BetMGM for the latest promotions for your area. Must be 21+ to gamble, please wager responsibly. If you or someone you know has a gambling problem, contact 1-800-GAMBLER .
Nearly five years to the day after a gunman entered Marjory Stoneman Douglas High School in Parkland, Florida and killed 17 people, a gunman o... An Indian Trail High School and Academy student is likely to face charges after he was found to be in possession of a gun at the school on Monday. According to Kenosha Police Department Lt. Josh Hecker, the student resource officer at Indian Trail began investigating a tip about a student with a weapon around 10:20 a.m. Monday. KUSD Superintendent Jeff Weiss and KPD Chief Patrick Patton issued a statement to Indian Trail families which says the district became concerned after being informed about a photo of a gun being circulated on social media. "Upon learning of the social media post, Kenosha Unified staff implemented a threat assessment. It included identifying the individual involved, securing the student's location, and collaborating with the Kenosha Police Department to ensure safety," they stated. The student, a 16-year-old boy, did not use the gun to threaten teachers or students while at school. "Two officers conducted initial searches that did not uncover the weapon. However, a subsequent search revealed it during the student’s detention," the joint statement indicated. Kenosha police are reviewing the incident to evaluate whether procedures used by each of the officers involved were performed in accordance with training standards. "We are also working with Kenosha Unified to avoid future incidents like this from happening again," they stated. Hecker said charges of terroristic threats and possession of a firearm on school grounds, among other misdemeanor charges, are being referred to the Kenosha County District Attorney's Office. In separate trials earlier this year, Jennifer and James Crumbley became the first parents in U.S. history to be convicted of involuntary manslaughter for a mass shooting committed by their child. On April 9, they were each sentenced to 10–15 years in prison , the maximum penalty for the crime. Prosecutors argued the Crumbleys ignored urgent warning signs that their son Ethan was having violent thoughts, and that the parents provided access to the gun he used to kill four classmates and injure seven other people at his school in November 2021. According to The Marshall Project , legal observers have said that the facts of the case are unusual , yet many still wonder if it now sets a precedent for a "slippery slope," where more parents could be criminally charged for what their children do. "I don't have a lot of confidence in the exercise of prosecutorial discretion to pick and choose only cases like this," Northern Illinois University law professor Evan Bernick told Al Jazeera. "Once you've got a hammer — and this is definitely a hammer — everything can look like a nail." Some worry that while the Crumbleys are white, an expansion of criminal charges against parents for the actions of their children would disproportionately affect Black parents or poor parents. That's the concern in Tennessee, where some lawmakers recently introduced a bill that would fine parents up to $1,000 if a child commits more than one criminal offense . At least one other recent school shooting case has also led to the novel application of criminal charges against adults. In Newport News, Virginia, prosecutors charged a former assistant principal with felony child neglect. The charges came after a grand jury report concluded that school administrators ignored four warnings from students and staff that a 6-year-old boy had a gun at school. The boy shot his teacher the same day. Like in the Crumbley case, the charge against a school administrator is believed to be the first of its kind , and prosecutors said Thursday that there could be more charges to come . Deja Taylor, the mother of the child, was sentenced to two years for child neglect in December . The state sentence was in addition to a separate 21 months for federal crimes related to her purchase of the gun used. The Newport News elementary school shooting was a test case for the legal question of how young is too young for a child to face criminal charges. Prosecutors have since said they will not charge the boy , but legally nothing stopped them from doing so. Last month, Virginia Gov. Glen Youngkin vetoed a bill that would have restricted prosecutors from charging children younger than 11, saying in part that it undermined public safety. A group of former and current prosecutors chimed in on Youngkin's decision, arguing in a USA Today opinion article that, "A child who can barely read needs treatment, not incarceration, and there are countless ways to address accountability and also get that child the necessary support to thrive and grow without involving a courtroom or prosecution." In Maryland, the issues of charging parents for what children do, and how young is too young for criminal prosecution, have also been roiling. There, state lawmakers passed a bill that will let prosecutors charge children as young as 10 with certain crimes. The previous limit was age 13. The move comes as some crimes spike, especially carjackings , allegedly committed by young people. It also follows a pair of high-profile mass shootings involving young people last year. But the measure also comes against the backdrop of an overall decline in youth crime in the state over the past decade. Only a handful of children in Maryland each year are accused of the crimes in the new law, something that advocates on both sides of the legislation have pointed to, according to reporting by The Baltimore Banner's Brenda Wintrode. Opponents of the law said it was unnecessary to address something so uncommon . Critics also generally argue that involvement with the juvenile criminal justice system may create more crime rather than prevent it. Supporters of the law said that given the small number of incidents, the legislation won't cause a notable increase in the number of kids being pulled into the system. Kids aren't the only ones who could start being pulled into the system more often in Maryland. In an announcement highlighting the arrest of 20 young people accused of crimes earlier this month, Baltimore City State's Attorney Ivan Bates made a point to mention "parental accountability," warning: "From here on out, if you are found to be contributing to the delinquency of a minor child, my office will look to charge you and hold you accountable." This story was produced by The Marshall Project , a nonpartisan, nonprofit news organization that seeks to create and sustain a sense of national urgency about the U.S. criminal justice system, and reviewed and distributed by Stacker Media. Get the latest in local public safety news with this weekly email.
BEIJING , Dec. 26, 2024 /PRNewswire/ -- WiMi Hologram Cloud Inc. WIMI ("WiMi" or the "Company"), a leading global Hologram Augmented Reality ("AR") Technology provider, today announced the development of a Quantum Technology-Based Random Access Memory Architecture, known as QRAM. This architecture successfully implements fundamental logical operations such as AND, OR, NOT, and NOR gates in quantum logic gates by combining key basic operations in quantum computing, such as the CNOT gate, V gate, and V+ gate. Quantum Random Access Memory (QRAM) is a memory architecture specifically designed for quantum computing environments, with the core goal of enabling efficient reading and writing of information while maintaining the state of the quantum system. The design of QRAM is not only intended to leverage the parallel processing capabilities of quantum computing but also to utilize quantum properties such as superposition and entanglement to significantly enhance computational efficiency. In WiMi's QRAM architecture, the quantum CNOT gate, V gate, and V+ gate serve as the fundamental operation units. Each quantum operation is equivalent to certain logical operations in classical computing, but simultaneously leverages the properties of quantum states to achieve efficient computation. CNOT Gate (Controlled-NOT Gate): The CNOT gate is a crucial operation in quantum computing, used to control the relationship between two quantum bits (qubits). In classical computing, this is similar to the function of an XOR gate, but in the quantum environment, it allows qubits to exist in a superposition of states, enabling the simultaneous processing of multiple states. V Gate and V+ Gate: The V gate and V+ gate are quantum gates used to implement more complex logic. The operations of these two gates are similar to the AND and OR gates in classical computing. However, their advantage lies in the ability to process multiple potential outcomes in the quantum system simultaneously, without the need to evaluate each possibility separately. By combining these fundamental quantum gates, basic operations in quantum logic such as AND, OR, NOT, and NOR can be successfully implemented. This provides the necessary support for designing complex quantum circuits, while being more flexible and efficient compared to classical logic gates. One of the major advantages of the QRAM architecture is its full utilization of the properties of quantum superposition and quantum entanglement. In classical computing, memory read and write operations are linear and must be performed sequentially. However, in quantum computing, because qubits can exist in multiple states (superposition), parallel read and write operations can be performed simultaneously. This ability significantly enhances computational efficiency, especially when handling large-scale datasets or complex computational tasks. Additionally, quantum entanglement enables the correlation between multiple qubits without the need for direct communication, further improving the speed of data transfer and computation. Memory operations with entangled qubits are much faster and more efficient than traditional memory operations, opening up new possibilities for parallel computing. In WiMi's QRAM architecture, the entire design logic includes several key steps and technical nodes, such as quantum state-based random access, the introduction of quantum error correction mechanisms, and seamless integration with quantum computers. The core feature of QRAM is its ability to perform random access within a quantum system. Traditional computer RAM achieves reading and writing to memory units through address buses, data buses, and other components, whereas QRAM accomplishes this process through the states of quantum bits (qubits). By utilizing quantum superposition, multiple addresses can be accessed simultaneously in a single operation. This means that in a QRAM system, data can be accessed in parallel across multiple addresses, greatly improving the efficiency of data operations. To achieve this, WiMi has designed a system based on CNOT gates, V gates, and V+ gates. These quantum gates allow flexible control over memory access processes while maintaining the quantum state of the system and ensuring the efficient transmission of qubits in an entangled state. Through this system, QRAM not only enables high-speed data reading and writing, but also ensures the reliability and accuracy of information processing. Furthermore, error correction is crucial in any quantum computing system. Due to the fragile nature of qubit states, even small external disturbances can cause computational errors. Therefore, WiMi's QRAM architecture incorporates a quantum error correction mechanism to ensure that the qubit states are accurately preserved and transmitted during data reading and writing. This includes an error correction method based on quantum entanglement, where redundant entangled qubits are introduced to detect and correct potential errors. This method not only effectively reduces the impact of external noise on the system but also ensures the stability of data during multiple read operations. WiMi's QRAM design is intended to seamlessly integrate with quantum computers. Since quantum computing operations depend on the superposition and entanglement states of qubits, the QRAM system demonstrates high compatibility when interfacing with a quantum processing unit (QPU). The design ensures smooth transmission of qubits between memory and processor during data access, thereby significantly improving computational efficiency. By utilizing the V gate, V+ gate, and CNOT gate, WiMi's QRAM system can quickly execute quantum logic operations and, when handling complex computational tasks, can read and write data at near-real-time speeds. This makes QRAM a key component in large-scale quantum computing applications. The successful development of QRAM technology has had a revolutionary impact across multiple fields. As a critical component of quantum computers, QRAM will significantly enhance the overall performance of quantum computing systems. Its efficient parallel data access capabilities make it especially well-suited for handling large-scale computational tasks such as molecular simulations, climate modeling, and complex optimization problems. By significantly reducing computation time, QRAM will play an indispensable role in the future of high-performance quantum computing. Another important application of QRAM is in quantum communication and quantum encryption. By leveraging quantum entanglement, QRAM can enable high-speed data transmission while ensuring data security. The non-locality of quantum entanglement guarantees that data cannot be intercepted during transmission, providing a solid foundation for future quantum encryption technologies. With the development of quantum computing, the field of quantum machine learning has also gradually emerged. QRAM's efficient data access capabilities make it highly suitable for handling large-scale datasets, enabling model training to be completed in a shorter time. This will significantly advance the development of quantum artificial intelligence, allowing complex machine learning tasks to be solved quickly on quantum computers. As quantum technology continues to evolve, QRAM, as a core technology, will provide crucial support for the future of quantum computing. WiMi is committed to continuing the development of QRAM technology, continually optimizing its performance, reducing implementation costs, and expanding its applications across various industries. The successful development of QRAM technology marks an important step in the advancement of quantum computing. As quantum computers progress and quantum technologies mature, QRAM will become an indispensable core component of quantum computing systems. With the ongoing optimization and promotion of this technology, QRAM is expected to bring disruptive innovations across multiple fields and lay a solid foundation for the arrival of the quantum era. About WiMi Hologram Cloud WiMi Hologram Cloud, Inc. WIMI is a holographic cloud comprehensive technical solution provider that focuses on professional areas including holographic AR automotive HUD software, 3D holographic pulse LiDAR, head-mounted light field holographic equipment, holographic semiconductor, holographic cloud software, holographic car navigation and others. Its services and holographic AR technologies include holographic AR automotive application, 3D holographic pulse LiDAR technology, holographic vision semiconductor technology, holographic software development, holographic AR advertising technology, holographic AR entertainment technology, holographic ARSDK payment, interactive holographic communication and other holographic AR technologies. Safe Harbor Statements This press release contains "forward-looking statements" within the Private Securities Litigation Reform Act of 1995. These forward-looking statements can be identified by terminology such as "will," "expects," "anticipates," "future," "intends," "plans," "believes," "estimates," and similar statements. Statements that are not historical facts, including statements about the Company's beliefs and expectations, are forward-looking statements. Among other things, the business outlook and quotations from management in this press release and the Company's strategic and operational plans contain forward−looking statements. The Company may also make written or oral forward−looking statements in its periodic reports to the US Securities and Exchange Commission ("SEC") on Forms 20−F and 6−K, in its annual report to shareholders, in press releases, and other written materials, and in oral statements made by its officers, directors or employees to third parties. Forward-looking statements involve inherent risks and uncertainties. Several factors could cause actual results to differ materially from those contained in any forward−looking statement, including but not limited to the following: the Company's goals and strategies; the Company's future business development, financial condition, and results of operations; the expected growth of the AR holographic industry; and the Company's expectations regarding demand for and market acceptance of its products and services. Further information regarding these and other risks is included in the Company's annual report on Form 20-F and the current report on Form 6-K and other documents filed with the SEC. All information provided in this press release is as of the date of this press release. The Company does not undertake any obligation to update any forward-looking statement except as required under applicable laws. View original content: https://www.prnewswire.com/news-releases/wimi-develops-a-quantum-technology-based-random-access-memory-architecture-302339317.html SOURCE WiMi Hologram Cloud Inc. © 2024 Benzinga.com. Benzinga does not provide investment advice. All rights reserved.
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