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SINGAPORE, Nov. 13, 2024 /PRNewswire/ -- Mega Matrix Inc. ("MPU" or the "Company") (NYSE American: MPU), today announced that it released Spoiled by My CEO Husband on November 13, showcasing a heartfelt romance that bravely fights against societal prejudices in the world of the elite.
Bella, a waitress, maintains her unwavering spirit and pure heart despite the pressures of life. Her relationship with the stoic CEO William heats up rapidly after a chance encounter one night, but it soon leads to a series of misunderstandings and challenges. When Bella unexpectedly discovers she's pregnant, William's family feels relieved that his fertility issues are resolved, but Bella does not share in their joy. She stands firm in her self-respect and yearns to prove her worth through her own abilities at William's company. The emotional journey between Bella and William faces numerous trials.
The contrast between Belle's humble apartment and William's luxurious European-style villa not only highlights their vastly different social statuses but also adds dramatic tension to the storyline, deeply showcasing conflicts arising from class differences.
MPU operates the world's leading short drama streaming platform FlexTV, currently distributing short drama content to over 100 countries worldwide, covering multiple language versions such as English, Japanese, Korean, Portuguese, Spanish, French, and Arabic. It has won the favor of audiences around the world with its high-quality short dramas and excellent user experience. Spoiled by My CEO Husband was coming to FlexTV on November 13. It's not just a romantic love story, but also explores real-life issues of personal growth, love responsibilities, women's autonomy, and social opinions. To discover more exciting series, please visit https://www.flextv.cc/.
#Love #Family #Workplace #ShortDrama #FlexTV #MPU
About Mega Matrix: Mega Matrix Inc. (NYSEAMEX: MPU) is a holding company and operates FlexTV, a short-video streaming platform and producer of short dramas, through Yuder Pte, Ltd., an indirect majority-controlled subsidiary of Mega Matrix. Mega Matrix is a Cayman Island corporation headquartered in Singapore. For more information, please contact info@megamatrix.io or visit: http://www.megamatrix.io.
Forward-Looking Statements
This press release contains forward-looking statements within the meaning of the "safe harbor" provisions of the United States Private Securities Litigation Reform Act of 1995. All statements in this press release other than statements that are purely historical are forward looking statements. When used in this press release, the words "estimates," "projected," "expects," "anticipates," "forecasts," "plans," "intends," "believes," "seeks," "may," "will," "should," "future," "propose," and variations of these words or similar expressions (or the negative versions of such words or expressions) are intended to identify forward-looking statements. These forward-looking statements are not guarantees for future performance, conditions or results, and involve a number of known and unknown risks, uncertainties, assumptions and other important factors, many of which are outside the Company's control, that could cause actual results or outcomes to differ materially from those discussed in the forward-looking statements. Important factors, among others, are: the ability to manage growth; ability to identify and integrate future acquisitions; ability to grow and expand our FlexTV business; ability to obtain additional financing in the future to fund capital expenditures; fluctuations in general economic and business conditions; costs or other factors adversely affecting the Company's profitability; litigation involving patents, intellectual property, and other matters; potential changes in the legislative and regulatory environment; a pandemic or epidemic; the possibility that the Company may not succeed in developing its new lines of businesses due to, among other things, changes in the business environment, competition, changes in regulation, or other economic and policy factors; and the possibility that the Company's new lines of business may be adversely affected by other economic, business, and/or competitive factors. The forward-looking statements in this press release and the Company's future results of operations are subject to additional risks and uncertainties set forth under the heading "Risk Factors" in documents filed by the Company with the Securities and Exchange Commission ("SEC"), including the Company's latest annual report on Form 10-K, as amended, filed with the SEC on August 19, 2024, and are based on information available to the Company on the date hereof. In addition, such risks and uncertainties include the Company's inability to predict or control bankruptcy proceedings and the uncertainties surrounding the ability to generate cash proceeds through the sale or other monetization of the Company's assets. The Company undertakes no obligation to update or revise any forward-looking statements, whether as a result of new information, future events or otherwise, except as required by applicable law. Readers are cautioned not to place undue reliance on forward-looking statements, which speak only as of the date of this press release.
Disclosure Channels
We announce material information about the Company and its services and for complying with our disclosure obligation under Regulation FD via the following social media channels:
The Company will also use its landing page on its corporate website (www.megamatrix.io) to host social media disclosures and/or links to/from such disclosures. The information we post through these social media channels may be deemed material. Accordingly, investors should monitor these social media channels in addition to following our website, press releases, SEC filings and public conference calls and webcasts. The social media channels that we intend to use as a means of disclosing the information described above may be updated from time to time as listed on our website.
SINGAPORE, Nov. 13, 2024 /PRNewswire/ -- Mega Matrix Inc. ("MPU" or the "Company") (NYSE American: MPU), today announced that it released Spoiled by My CEO Husband on November 13, showcasing a heartfelt romance that bravely fights against societal prejudices in the world of the elite.
Bella, a waitress, maintains her unwavering spirit and pure heart despite the pressures of life. Her relationship with the stoic CEO William heats up rapidly after a chance encounter one night, but it soon leads to a series of misunderstandings and challenges. When Bella unexpectedly discovers she's pregnant, William's family feels relieved that his fertility issues are resolved, but Bella does not share in their joy. She stands firm in her self-respect and yearns to prove her worth through her own abilities at William's company. The emotional journey between Bella and William faces numerous trials.
The contrast between Belle's humble apartment and William's luxurious European-style villa not only highlights their vastly different social statuses but also adds dramatic tension to the storyline, deeply showcasing conflicts arising from class differences.
MPU operates the world's leading short drama streaming platform FlexTV, currently distributing short drama content to over 100 countries worldwide, covering multiple language versions such as English, Japanese, Korean, Portuguese, Spanish, French, and Arabic. It has won the favor of audiences around the world with its high-quality short dramas and excellent user experience. Spoiled by My CEO Husband was coming to FlexTV on November 13. It's not just a romantic love story, but also explores real-life issues of personal growth, love responsibilities, women's autonomy, and social opinions. To discover more exciting series, please visit https://www.flextv.cc/.
#Love #Family #Workplace #ShortDrama #FlexTV #MPU
About Mega Matrix: Mega Matrix Inc. (NYSEAMEX: MPU) is a holding company and operates FlexTV, a short-video streaming platform and producer of short dramas, through Yuder Pte, Ltd., an indirect majority-controlled subsidiary of Mega Matrix. Mega Matrix is a Cayman Island corporation headquartered in Singapore. For more information, please contact info@megamatrix.io or visit: http://www.megamatrix.io.
Forward-Looking Statements
This press release contains forward-looking statements within the meaning of the "safe harbor" provisions of the United States Private Securities Litigation Reform Act of 1995. All statements in this press release other than statements that are purely historical are forward looking statements. When used in this press release, the words "estimates," "projected," "expects," "anticipates," "forecasts," "plans," "intends," "believes," "seeks," "may," "will," "should," "future," "propose," and variations of these words or similar expressions (or the negative versions of such words or expressions) are intended to identify forward-looking statements. These forward-looking statements are not guarantees for future performance, conditions or results, and involve a number of known and unknown risks, uncertainties, assumptions and other important factors, many of which are outside the Company's control, that could cause actual results or outcomes to differ materially from those discussed in the forward-looking statements. Important factors, among others, are: the ability to manage growth; ability to identify and integrate future acquisitions; ability to grow and expand our FlexTV business; ability to obtain additional financing in the future to fund capital expenditures; fluctuations in general economic and business conditions; costs or other factors adversely affecting the Company's profitability; litigation involving patents, intellectual property, and other matters; potential changes in the legislative and regulatory environment; a pandemic or epidemic; the possibility that the Company may not succeed in developing its new lines of businesses due to, among other things, changes in the business environment, competition, changes in regulation, or other economic and policy factors; and the possibility that the Company's new lines of business may be adversely affected by other economic, business, and/or competitive factors. The forward-looking statements in this press release and the Company's future results of operations are subject to additional risks and uncertainties set forth under the heading "Risk Factors" in documents filed by the Company with the Securities and Exchange Commission ("SEC"), including the Company's latest annual report on Form 10-K, as amended, filed with the SEC on August 19, 2024, and are based on information available to the Company on the date hereof. In addition, such risks and uncertainties include the Company's inability to predict or control bankruptcy proceedings and the uncertainties surrounding the ability to generate cash proceeds through the sale or other monetization of the Company's assets. The Company undertakes no obligation to update or revise any forward-looking statements, whether as a result of new information, future events or otherwise, except as required by applicable law. Readers are cautioned not to place undue reliance on forward-looking statements, which speak only as of the date of this press release.
Disclosure Channels
We announce material information about the Company and its services and for complying with our disclosure obligation under Regulation FD via the following social media channels:
X (f/k/a Twitter):
x.com/MegaMatrixMPU
Facebook:
facebook.com/megamatrixmpu
facebook.com/flextvus
LinkedIn:
linkedin.com/company/megamatrixmpu
TikTok:
tiktok.com/@flextv_english
YouTube:
youtube.com/@FlexTV_English
The Company will also use its landing page on its corporate website (www.megamatrix.io) to host social media disclosures and/or links to/from such disclosures. The information we post through these social media channels may be deemed material. Accordingly, investors should monitor these social media channels in addition to following our website, press releases, SEC filings and public conference calls and webcasts. The social media channels that we intend to use as a means of disclosing the information described above may be updated from time to time as listed on our website.
** The press release content is from PR Newswire. Bastille Post is not involved in its creation. **
Mega Matrix Announced that the Romantic Short Drama "Spoiled by My CEO Husband" was launched at FlexTV on November 13
In the first ever Q4Bio Challenge, research teams sought to demonstrate scalable quantum algorithms for healthcare, with Algorithmiq's work alongside Cleveland Clinic and IBM earning $2 million Q4Bio prize.
- Q4Bio aims to accelerate development of quantum algorithms for healthcare that can run on quantum computers expected within three to five years.
- Teams were required to run large‑scale demonstrations on real quantum hardware.
- Five out of the six finalists used IBM quantum hardware for their research.
- Quantum computing has potential as a practical tool for healthcare, with hybrid quantum‑classical approaches paving the way toward real-world applications.
YORKTOWN HEIGHTS, N.Y., April 17, 2026 /PRNewswire/ -- Quantum computing is at an inflection point. In recent years, quantum computers have shown the ability to run quantum programs at a scale beyond exact classical simulation. They're becoming useful tools for solving real-world problems, with provable quantum advantage close on the horizon. Community-led initiatives that provide funding and prizes for high-quality research can offer an early look at how quantum computing will impact fields like healthcare and the life sciences.
That's one reason the non-profit Wellcome Leap established the Quantum for Bio (Q4Bio) Supported Challenge Program. Q4Bio aims to identify, develop, and demonstrate quantum algorithms for human health applications that have the potential to run on near-term quantum computers expected to arrive in the next three to five years. The program launched in 2023 with twelve research teams from around the world receiving access to a combined $40 million in funding. By March 2026, that group had narrowed to six Phase III finalists. Now, the winners have been announced.
Wellcome Leap funds high-risk, high-reward global health research, with the aim of facilitating medical breakthroughs on time scales of 5-10 years rather than over the course of decades. That ambition is evident in the Q4Bio challenge requirements: To be eligible for a $2 million Phase III award, participating teams needed to demonstrate algorithms using more than 50 qubits and circuit depths on the order 1,000 to 10,000 gates—while also showing a clear path to scaling. More details here.
In practice, meeting those requirements meant working directly with today's most capable quantum hardware. That's why five of the six Phase III finalist teams used IBM (NYSE: IBM) quantum computers to generate their results, underscoring the role of "utility-scale" quantum computers with 100+ qubits in tackling demanding problems at the intersection of quantum information science and real-world use cases.
Below, we highlight the work carried out by Q4Bio's Phase III finalists on IBM quantum hardware. Their projects offer an exciting glimpse at how quantum computing is beginning to support meaningful research in healthcare and the life sciences.
Biology at scale on IBM quantum computers
The results from these multidisciplinary, multi‑organizational teams span drug discovery, genomics, biomarkers, and fundamental biochemistry. In each area, researchers found a healthcare problem they could execute at significant scale on quantum computers today, with real potential to scale even further in the future.
Agorithmiq, Cleveland Clinic, and IBM
The winning project—led by quantum startup Algorithmiq in collaboration with Cleveland Clinic and IBM—used quantum computing to simulate key processes in photodynamic therapy (PDT), a cancer treatment based on light-activated drugs.
Algorithmiq developed an end-to-end hybrid quantum–classical framework in which novel methods for active space selection, state preparation, measurement, and post-processing enabled large-scale molecular electronic structure simulations on IBM's quantum hardware. By executing circuits for ground- and excited-state experiments on up to 100 qubits, the teams demonstrated a scalable path toward quantum advantage in drug discovery and development.
Sabrina Maniscalco, CEO and co-founder of Algorithmiq, said the results highlight how Algorithmiq's approach to tightly integrated quantum-classical algorithms could play a key role in unlocking real-world quantum advantage.
"This work provides one of the clearest indications to date that quantum computing can begin to impact real, chemically relevant problems, rather than simplified benchmarks," she said. "IBM's quantum systems enabled execution of circuits at scales approaching 100 qubits and supported the continuous, end-to-end validation loop required to identify real bottlenecks and ensure robustness of the approach."
Dr. Vijay Krishna, associate staff in biomedical engineering at Cleveland Clinic, added that "Q4Bio showed that when teams with complementary expertise work toward a common goal, they can make meaningful progress on problems that no single discipline can solve alone."
The Quantum Pangenomics project
Meanwhile, the University of Oxford and Sanger Institute's Quantum Pangenomics project focused on converting genome problems to quadratic unconstrained binary optimization (QUBO) formulations. Recent research has highlighted the potential of quantum optimization methods based on QUBO to help solve challenging real-world problems and deliver near-term quantum advantage.
As part of their efforts, the team used an IBM Quantum Heron r2 to encode the Hepatitis-D genome. In their workflow, classical systems handle problem formulation, iteration, and analysis, and quantum hardware is invoked for the most computationally challenging subproblems.
"Encoding a whole genome onto a quantum computer is a world first and represents at least one order of magnitude improvement over any other efforts to represent DNA on quantum machines," said James McCafferty, Chief Information Officer at the Wellcome Sanger Institute. "And full credit goes to IBM in helping us achieve this."
"This is not a toy demonstration, it involves biologically significant sequences, represented on quantum hardware using data partitioning techniques and tailored depth-reduction we developed specifically for genomic data," said Sergii Strelchuk, associate professor of Computer Science at Oxford University. "The fact that the encoded information can be retrieved through our index-reported verification method sends a clear signal: quantum data encoding for genomics is no longer aspirational, it is ready to scale."
Infleqtion
Infleqtion, a Chicago-based quantum startup, used an IBM Quantum Heron r2 as part of the project they led with the University of Chicago and MIT on quantum-enhanced biomarker discovery from multimodal cancer data, using hybrid quantum-classical optimization algorithms. Their work involved GPUs and QPUs working together, an exciting emerging avenue for hybrid workflows.
Fred Chong, Professor at University of Chicago and Chief Scientist for Quantum Software at Infleqtion, says Heron QPUs were the only available hardware that could meet the Wellcome Leap criteria of demonstrating quantum algorithms with greater than 50 quantum bits and a program length of greater than 1,000 quantum gates. Access to that hardware allowed his team to demonstrate a convincing proof-of-concept that a hybrid quantum-classical approach could improve a purely classical approach to identifying biomarkers.
"Our work has already identified novel cancer biomarkers for clinical evaluation, and future quantum machines will allow us to discover even more promising biomarkers that we hope will improve treatment outcomes," Chong said.
Stanford, Michigan State University, and other collaborators
A team comprising researchers from many scientific institutions used VQE and an IBM Quantum Heron r2 processor to study ATP and GTP hydrolysis in proteins. These are fundamental biochemical reactions that power most cellular processes.
By demonstrating quantum algorithms for modeling metaphosphate hydrolysis and rigorously analyzing their resource costs, the team showed how near‑term quantum computers could act as accelerators in computational workflows for biology. They also explored potential workflows for fault-tolerant quantum computers.
"Although classical methods for biochemistry have a decades long headstart, quantum methods are really starting to become competitive," said Ryan LaRose, a researcher on the team and professor at Michigan State University. "For our project, IBM hardware provided the number of qubits, gate fidelity, and sampling rate needed to make our experiments viable."
University of Nottingham, Phasecraft, and QuEra
Another finalist team, led by Jonathan D. Hirst at the University of Nottingham, explored quantum-enhanced strategies for covalent inhibitor design in collaboration with Phasecraft and QuEra. Covalent inhibitors are a cornerstone of modern therapeutics—particularly in oncology and antiviral treatments—owing to their ability to form strong, durable bonds with target proteins.
The team applied quantum algorithms to generate high-fidelity molecular data, which they then used to augment classical Density Functional Theory (DFT) calculations—computer simulations estimating molecular behavior by modeling electron density. This enabled more accurate simulations of covalent binding processes.
The researchers deployed this hybrid quantum–classical workflow within a drug discovery program focused on the disorder Myotonic dystrophy type 1 (DM1), highlighting the potential of quantum-enhanced methods to tackle complex, currently untreatable diseases.
As part of their study, the team utilized IBM Quantum hardware, including an IBM Quantum Nighthawk processor with 120 qubits—part of a broader effort to evaluate the capabilities of near-term quantum systems for chemically relevant modeling.
Quantum-centric supercomputing for biology and human health
Viewed as a whole, these results underscore just how quickly quantum computing is maturing as a tool for biological research. According to Ashley Montanaro, Co-founder of Phasecraft and Professor of Quantum Computation at University of Bristol, the rapid advancement of IBM quantum hardware and software played a crucial role in enabling the rapid experimental cycles required for their work.
"When the Wellcome Leap Q4Bio challenge began three years ago, it was far from obvious that any of this would work. The fact that we now have encouraging results on a real drug discovery target is a significant milestone," he said. "The pace of progress in quantum hardware and software throughout this project has been notable as we continuously incorporated new capabilities and explored cutting-edge advancements month by month."
The impressive results from Q4Bio's Phase III finalists reflect progress toward IBM's vision of quantum‑centric supercomputing (QCSC). Hybrid quantum–classical workflows integrate HPC, GPUs, and QPUs. Access to utility‑scale quantum processors and cloud‑based platforms enable global teams to collaborate, iterate quickly, and move toward scalable, end‑to‑end biological workflows.
Together, these results point to a broader transition: quantum computing in biology as elsewhere is shifting from a speculative experiment to a phase of measurable, application‑driven progress, with growing potential to become part of the life‑sciences computational stack.
"It's encouraging to see so many research teams implementing QCSC workflows, where classical and quantum resources work together to achieve what neither can alone," said Jay Gambetta, director of IBM Research.
About IBM
IBM is a leading provider of global hybrid cloud and AI, and consulting expertise. We help clients in more than 175 countries capitalize on insights from their data, streamline business processes, reduce costs and gain the competitive edge in their industries. Thousands of governments and corporate entities in critical infrastructure areas such as financial services, telecommunications and healthcare rely on IBM's hybrid cloud platform and Red Hat OpenShift to effect their digital transformations quickly, efficiently and securely. IBM's breakthrough innovations in AI, quantum computing, industry-specific cloud solutions and consulting deliver open and flexible options to our clients. All of this is backed by IBM's long-standing commitment to trust, transparency, responsibility, inclusivity and service.
Visit www.ibm.com for more information.
Media contacts:
Brittany Forgione
IBM
Brittany.Forgione@ibm.com
Chris Nay
IBM
cnay@us.ibm.com
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How IBM Quantum is Enabling Healthcare and Biology Research
