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Ming Li receives 2024 IEEE Computer Society W. Wallace McDowell Award

This is an excerpt of an article originally published on Waterloo News.

University Professor Ming Li is the 2024 recipient of theIEEE Computer Society W. Wallace McDowell Award, a prestigious honour conferred for his pioneering and enduring contributions to modern information theory and bioinformatics.

Named after W. Wallace McDowell, director of engineering at IBM during the development of the landmark IBM 701 computer, the award has been conferred annually since 1966 by the IEEE Computer Society for outstanding theoretical, design, educational, practical, or other innovative contributions.

Congratulations to Ming on receiving the 2024 Wallace McDowell Award, said Raouf Boutaba, Professor and Director of the Cheriton School of Computer Science. This recognition is richly deserved. Ming has not only been a pioneer in Kolmogorov complexity and in doing so has laid the foundation for a modern information theory, but he is also an innovator in computational biology by applying machine learning to develop personalized immunotherapies to treat cancer and infectious diseases.

University Professor Li completed his PhD at Cornell University in 1985, followed by a postdoctoral fellowship at Harvard. In 1989 he joined the University of Waterloo as an Associate Professor in what was then the Department of Computer Science, and was promoted to Full Professor in 1994. He was named the Canada Research Chair in Bioinformatics, a prestigious position he has held continuously since 2002. In 2009 he was named a University Professor, a title conferred to University of Waterloo faculty to recognize exceptional scholarly achievement and international pre-eminence.

Read the full article on the School of Computer Science website.

A message from the Faculty of Mathematics.

It is always a difficult balance to strike, said Mark Giesbrecht, dean of the Faculty of Mathematics, between reflecting what we believe, and defining actional things we can go forward with and actually apply in our everyday life.

Giesbrecht was welcoming participants to the January 31 launch of theEquity and Inclusive Communities Principles, a new set of eleven principles developed over the last two years for the Faculty of Mathematics by a committee of eighteen faculty, staff, and students, including members from theOffice of Indigenous Relationsand the Centre for Teaching ExcellencesIndigenous Knowledges and Anti-Racist Pedagogies Unit. This work was alsosupported byWaterloosEquity, Diversity, Inclusion & Anti-Racismoffice.

The principles were particularly designed to be accessible to people regardless of where they were on their journey, explains Jeremy Steffler, the Faculty of Mathematics Equity Officer and leader of the project.

One of the great understandings gained through this process was an appreciation of the sense of connection and the degree of reciprocity the Faculty of Mathematics has with many communities, Steffler says. While the Principles are intended to guide our efforts toward greater equity and inclusion, the Faculty is part of a university and other external communities, and many diverse communities exist within the Faculty. Choosing to acknowledge communities right in the name helps frame our intentions to be thinking in a more holistic way.

Read the full article on the Faculty of Mathematics website.

What is happening?We will be testing the Universitys campus-wide emergency communication system.

When is this happening?Wednesday, February 7 at 1:30 p.m.

What is the impact?Emergency communication channels being tested include:

Messaging:The message displayed will readTEST of the UW Emergency Notification System. During an actual emergency or threat you would receive instructions. No action is required.More information regarding the emergency would be available atalert.uwaterloo.ca.

Approximately 15 minutes after the test activation message is sent, a deactivation message will display,The test of the UW Emergency Notification System is complete.

In the event of a real emergency during this test, please contact Police Services at 519-888-4911, or ext. 22222.

Be sure to install the WatSAFE app on your device and WatSAFE Desktop Notification tool on your desktop/laptop to receive this test message, and more importantly, to stay informed of campus emergency situations. Visit theWatSAFE websitefor more details.

Questions or concerns?Please contact the IST Service Desk via theIST Help Portal.

A message from the Secretariat.

The University of Waterloo Senate is comprised of faculty, undergraduate and graduate students, alumni, governors, and administrative staff who are both elected and ex-officio members. This governing body of the institution is the highest authority on academic matters and meets regularly to discuss topics such as academic programs, educational policies, appointments, and other academic priorities.

At the January 29, 2024 meeting, the following items were approved:

Additionally, Senate received updates for information:

Visit the Senate website to find the meeting agenda and related materials for all recent Senate meetings, as well as dates for upcoming meetings. The Secretariat will make Zoom links available to those wishing to attend meetings virtually.

If you have any questions, please contact the Secretariat at senate@uwaterloo.ca.

The 5thannual "Mirrorless Monday" campaign is happening in washrooms across the University campus today.MirrorlessMonday is a movement to encourage body acceptance through various messages on mirrors and a campaign thatseeks to remind everyone that their self-worth is not tied to a reflection in a mirror.

During the one-day campaign,select washroom mirrorsacross campus will be partly coveredwith supportive messages and resources including Campus Wellness, Counselling Services, MATES, Good2Talk, and NEDIC. The messages will be placed on the mirrors at the beginning of the day and removed by 10:00 a.m. the following day.The Mirrorless Monday messages will be shared on the@uwaterloolife Instagram account.

It's election season for the Waterloo Undergraduate Student Association (WUSA), as candidates vie for Board of Director and executive positions.Candidate Booth Dayswill betaking place today in the SLC Marketplace and will run on February 7 and 8 in the SLC Marketplace from 10:00 a.m. to 7:00 p.m. The election will be held from February 12 to 14.

Read more:

Monday, February 5, 2024 | Daily Bulletin - The Iron Warrior

From artificial intelligence revolutionising healthcare to blockchain transforming finance, the computer science field stands as the heartbeat of innovation one that holds a lot of power.

In the 21st century, computer science is indisputably one of the main disciplines inspiring new technologies and innovations for a better world.

Hence for mid-career professionals, diving into the world of algorithms and code is not merely a career path, but a gateway to shaping the future.

Recognising the growing interest in reskilling, the School of Computer Science at Technological University Dublin (TU Dublin) has designed a distinct pathway programme designed for graduates from non-computing disciplines. Its the ideal programme to obtain the essential computing concepts required for entry into the MSc in Computing programme.

Source: Technological University Dublin

The masters qualifier conversion programme is as innovative as its flexible. With no assumptions about prior computing knowledge, this full-time course lays a solid foundation in the core concepts of computer science, focusing on both theory and practice. It comprises five essential modules: Object-Oriented Software Development; Information Systems; Architecture, Operating Systems, and Networks; Web and User Interface Design; as well as Systems Analysis and Testing.

Each module integrates lecture sessions and hands-on lab sessions, where students actively apply theoretical concepts in practical tasks. Lecturers and tutor demonstrators are readily available during these sessions to offer guidance and support, ensuring a well-rounded learning experience.

You will learn to programme using Python, how to design and build software and websites, how to access and build databases, and all about the architecture of computers and their operating software, explains course chair Jonathan McCarthy.

Breadth aside, perhaps the best part about this pathway is its 100% online delivery. Weekly live online lectures and lab sessions provide ample opportunities for interaction with lecturers. With a continuous assessment strategy, students can complete all coursework online, eliminating the need to attend campus and offering the flexibility needed to balance professional and academic commitments.

With a solid foundation, those who complete the programme will be able to add a Continuing Professional Development Diploma in Fundamentals of Computing to their CV. However, those who do well, especially in the Object-Oriented Software Development module, and achieve an overall average mark of 60%, can progress directly to TU Dublins MSc in Computer Science (Data Science) or MSc in Computer Science (Advanced Software Development).

The aim of these MSc programmes is to develop deep practical and technical knowledge in a specialist area with exposure to leading-edge topics, while also developing the professional, research and technical abilities of students, shares Andrea Curley, programme chair of the MSc Computer Science.

Source: Technological University Dublin

The Data Science programme was designed to equip students with both technical prowess, including data management, mining, and machine learning, and the essential soft skills in communication, research, and problem-solving. Graduates not only navigate the complexities of vast datasets but also derive meaningful insights, making them invaluable assets in any organisational landscape.

On the other hand, specialising in Advanced Software Development entails gaining a better understanding of the evolving global digital economy. The programme digs deep into advanced technical modules covering programming, design, databases, architecture, and web development.

Beyond technical expertise, much like the Data Science specialisation, this curriculum places a strong emphasis on honing key professional and technical communication skills. This ensures that graduates can contribute as proficient software developers but thrive as industry professionals.

Both MSc programmes are delivered in full-time mode and part-time mode, says Curley. Full-time mode takes three semesters or approximately 16 months, while part-time mode is much more flexible due to its modular approach. Students are allowed to choose the pace at which they move in these programmes.

All routes guarantee professional success, partially due to the fact that TU Dublin prides itself on strong industry engagement. Internships, industry projects, and industry accreditation are seamlessly integrated into programmes. In fact, the British Computer Society, in an exemplary commendation, recognises its commitment to bridging the gap between academia and industry.

Those who choose to broaden their intellectual horizons on campus will be pleased to know they will always be surrounded with opportunities. Nestled in the heart of the Silicon Valley of Europe, the Dublin campus stands amidst the highest concentration of ICT activity. In fact, TU Dublin plays a pivotal role in this thriving ecosystem, fostering partnerships with major industry players, including the top eight ICT multinationals with European headquarters in Dublin.

To learn more about the School of Computer Science at TU Dublin, where the future of technology is not just learned but shaped, click here.

Follow Technological University Dublin on Facebook, Instagram, X, LinkedIn, YouTube, and TikTok

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Technological University Dublin: From computer science basics to brilliance - Study International News

The world's first commercial fault-tolerant quantum computer with "logical qubits" may be running before the year's end.

Logical qubits physical quantum bits, or qubits, connected through quantum entanglement reduce errors in quantum computers by storing the same data in different places. This diversifies the points of failure when running calculations.

The new machine, which has 256 physical and 10 logical qubits, will launch in late 2024, representatives from QuEra, the startup that is building it, said in a statement.

The announcement follows a new study, published Dec. 6, 2023 in the journal Nature, in which researchers from Harvard, QuEra and several other institutions demonstrated a functioning quantum computer that contained 48 logical qubits the largest number of logical qubits tested to date.

Related: Scientists just built a massive 1,000-qubit quantum chip, but why are they more excited about one 10 times smaller?

"It is the first machine with quantum error correction," study co-author Harry Zhou, a physicist at QuEra and Harvard University, told Live Science in an email.

While this computer doesn't have enough power to be useful on its own, it provides a platform on which software programmers can start testing code for future quantum computers, Zhou said.

While conventional computers store information in bits with a value of either 0 or 1, quantum computers use qubits which are a superposition between 0 and 1, thanks to the laws of quantum mechanics.

Qubits can also be stitched together using quantum entanglement to exist in multiple states simultaneously. This enables them to perform many calculations much faster than classical computers assuming you can build a quantum computer with enough of them. But qubits can easily be disturbed, making them notoriously error-prone. Roughly 1 in 1,000 fail, versus 1 in 1 billion billion bits in conventional computers.

Quantum computers could outpace the best supercomputers if they incorporate millions of qubits, but the largest quantum computer built so far only has around 1,000 qubits, and qubits' high failure rate limits potential scale-up. Error correction could counteract qubits' tendency to fail, and building logical qubits is one way of doing it.

The new error-correction system relies on data redundancy, where the same piece of data is stored in multiple places, Zhou said. Logical qubits perform the same calculations across several physical qubits vastly reducing error rates if one or more physical qubits fail, because the data is available elsewhere so calculations can continue.

To make the logical qubit, researchers applied error-correcting computer code to regular qubits. They then set up logical gates, or circuits, between the qubits to entangle them. The quantum computer then calculates the 'syndrome' a measure of whether it's likely an error has occurred or not. Using this information, the quantum computer corrects the errors and proceeds to the next step.

The new qubits represent a significant advance over past efforts. In 2023, the Google Quantum AI Lab demonstrated a 2.9% error rate using three logical qubits; Quera's error rate is 0.5% with 48 logical qubits. The world leader is the University of Oxford, which has achieved error rates of less than 0.01% but only between two-qubit gates.

Last year, IBM also demonstrated error-correction technology in its 127-qubit Heron chip which reduced error rates fivefold compared with its other chips. But its first commercial fault-tolerant machine isn't expected until 2029.

QuEra plans to launch several quantum computers in the coming years, starting with a 30-logical-qubit, 3,000 physical qubit machine coming out in 2025. Its monster, a machine with more than 10,000 physical qubits and 100 logical qubits, is scheduled for 2026. "At 100 logical qubits, the [2026] machine can perform correct calculations that exceed the capability of todays supercomputers," Zhou said.

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World's 1st fault-tolerant quantum computer launching this year ahead of a 10000-qubit machine in 2026 - Livescience.com