Michael Peres reflects on his 39 years at RIT

COSMOS-Web was the largest General Observer program selected by the James Webb Space Telescope for Cycle 1. The team, led by RIT Associate Professor Jeyhan Kartaltepe, has publicly released its full data set, including a catalog and an interactive viewer. The release gives the largest look at the deep universe ever, providing data for scientists to make future discoveries. Already, scientists have found a treasure trove of early galaxies. COSMOS-Web provides the largest view deep into the universe ever, and now an easily searchable catalog with all of the data is available to the public. COSMOS-Web was the largest General Observer program selected for Cycle 1 of the James Webb Space Telescope (JWST). The survey mapped 0.54 square degrees of the sky (about the area of three full moons) with the Near Infrared Camera (NIRCam) and a 0.2 square degree area with the Mid Infrared Instrument (MIRI). While previous surveys have aimed to help astronomers map and understand what exists in the vast universe, the advanced instruments of JWST have allowed COSMOS-Web to study galaxy evolution through a long range of history. “The sensitivity of JWST lets us see much fainter and more distant galaxies than ever before, so we’re able to find galaxies in the very early universe and study their properties in detail,” said Jeyhan Kartaltepe, associate professor at Rochester Institute of Technology and lead researcher of COSMOS-Web. “The quality of the data still blows us away. It is so much better than expected.” COSMOS2025, the catalog containing the photometry, morphology, redshifts, and physical parameters of galaxies from COSMOS-Web, delivers a combination of sensitivity, spatial resolution, and field-of-view  to observe nearly 800,000 galaxies. Using JWST imaging, ground-based telescope data, and previous COSMOS data, the catalog makes an unprecedented amount of information freely available, opening many unexplored scientific avenues. ​The full COSMOS-Web color image is shown with a zoom in to the region surrounding a gravitationally lensed galaxy known as the COSMOS-Web ring (Mercier et al. 2024).Credit: Kartaltepe/Casey/Franco/COSMOS-Web ‌     “This was an ambitious undertaking that required the development of innovative technologies to simultaneously measure the photometry and morphology of nearly 800,000 galaxies across 37 images,” said Marko Shuntov, postdoctoral researcher at Cosmic DAWN Center. “Building the catalog required tremendous teamwork, and it was all worth it because ultimately it has delivered some of the highest quality redshifts and physical parameters of galaxies that will enable groundbreaking science.” The raw data retrieved during COSMOS-Web was so vast that it was difficult and incredibly time-consuming for scientists to work through it. The public availability of the catalog takes that work out of the equation for the community. The COSMOS-Web team worked to reduce the data, eliminating artifacts, subtracting backgrounds, and improving the astrometry in order to provide accurate photometric and morphological analyses. The breakthroughs already discovered through JWST’s observations have shown how essential NIRCam data is for understanding galaxies in the early universe. Ensuring that the data are science-ready is an achievement that makes COSMOS-Web the standard calibration for future, large surveys. “We combined more than 10,000 images of the sky together to form the largest contiguous image available from JWST,” explained Maximilien Franco, postdoctoral researcher at Université Paris-Saclay. “To do this, we needed to ensure that all the images were properly aligned with existing data, and also to correct for any observational biases. It was incredible to reveal galaxies that were previously invisible, and very gratifying to finally see them appear on our computers.” Likewise, MIRI plays a critical role in determining the mass of early galaxies and investigating star formation over cosmic time. It has already been instrumental in confirming some of the most distant galaxies discovered by JWST. Using longer wavelengths that are less affected by dust extinction, MIRI has the ability to detect and characterize galaxies at higher redshifts, or at earlier times in the universe. “With MIRI, we’re now accessing an unprecedented level of detail in this wavelength range, providing new insights into the processes driving galaxy evolution and the growth of black holes,” said Santosh Harish, postdoctoral research associate at RIT. “The leap in sensitivity and spatial resolution is extraordinary, and MIRI observations from COSMOS-Web are a fine example of what this instrument is capable of.” Along with the data itself and three initial papers on the catalog, near infrared imaging, and mid infrared imaging, the data release also includes an interactive viewer where users can directly search images for specific objects or click on objects to see their properties. In addition, two new COSMOS-Web studies—one examining the structural evolution of brightest group galaxies over the past 11 billion years and another applying artificial intelligence to estimate key galaxy properties from photometry—highlight the wide scientific potential of the catalog. “Thanks to JWST and the COSMOS-Web survey, we can now trace how galaxies shut down star formation, undergo morphological transformation, and how these processes are shaped by their environment across cosmic time, even predicting galaxy properties using AI-driven methods,” said Ghassem Gozaliasl, astrophysicist and researcher at Aalto University. When the JWST launched in 2021, the COSMOS-Web team of nearly 50 researchers around the world had the longest observing time during the telescope’s first year. The team set out with three primary goals: to map and build understanding of the Reionization Era (in the universe’s first billion years); to trace and identify massive galaxy evolution in the first two billion years; and to study how dark matter is linked to visible matter within galaxies. ​The COSMOS-Web team is made up of nearly 50 researchers from around the world. The group gathered for a conference ahead of their full data release in Marseille, France, in May. Credit: COSMOS-Web ‌     After more than 150 visits and 250 hours of observations, the JWST data from COSMOS-Web has provided the information to obtain those goals. The survey has sent scientists into a new age of space observation and data analysis, and has opened the door to a future of understanding and discovery like never before. “We have data and catalogs that we’re very sure of, that we’ve tested and put a lot of work into,” said Kartaltepe. “I can’t overstate how much the field has changed. With data from JWST, we now have a new window on the universe.” COSMOS-Web is jointly led by Kartaltepe and Caitlin Casey, professor of physics at University of California, Santa Barbara, and is part of The Cosmic Evolution Survey (COSMOS). Beginning in 2007, COSMOS joined together more than 200 scientists across the globe to study the formation and evolution of galaxies using both space-based and ground-based telescopes. The remarkable longevity of the collaboration is a testament to the importance of open, accessible science. To learn more For more information on COSMOS-Web, go to the program’s website. The COSMOS-Web images, catalog, and interactive viewer are available through the team’s data release website.

The campus may seem quiet, but RIT Facilities Management Services is in high gear, racing to complete construction projects before students return in late August. The team is tasked with completing over 100 projects in a span of just 12 weeks, according to Michael Dellefave, director of Construction/Project Management. “It’s pretty amazing what the project managers and all the contractors are able to complete in a very short summer window,” said Dellefave. ‌ Peter Schuck/RIT Construction is continuing at the Music Performance Theater, pictured, and Tiger Stadium. Both facilities should be open to the public in January 2026. Among the major efforts is the renovation of the University Services Center, bringing Student Financial Services, the RIT Service Center, and the ID Card Office under one centralized roof. The redesigned space aims to provide a modern, accessible environment, complete with both front and back of house customer service experiences, a technology support lab, and collaborative work and leisure spaces. Furniture installation is scheduled for completion by mid-July, and all services will be operational for the upcoming fall semester. “The project's objective was to seamlessly integrate multiple essential functions,” said Marielle Santoriello, senior project manager. “The goal was to create an ambiance reminiscent of an Apple Store—clean, modern, inviting. Additionally, we aimed to encourage students, faculty, and staff to relax, eat, and work while they wait for support.” Here are some other projects happening this summer: Residence Halls: This summer marks the third full year of a multi-year plan to modernize RIT's residence halls. Helen Fish Hall and Carlton Gibson Hall are undergoing extensive renovations, including updates to hallways, restrooms, lounges, lighting, carpeting, and ceilings. Notably, air conditioning will also be installed. In addition, more than 400 rooms in Eugene Colby Hall and Gleason Hall are being fitted with new doors and smart lock systems. These upgrades are scheduled for completion by mid-August. ‌ Peter Schuck/RIT Carlton Gibson Hall, pictured, and Helen Fish Hall are undergoing extensive renovations this summer, including updates to hallways, restrooms, lounges, lighting, carpeting, and air conditioning. Music Performance Theater: The construction of the new music performance theater remains on schedule, with a scheduled completion date in January 2026. The theater will feature a 750-seat auditorium, two balconies, and a historic 100-year-old restored theater organ, poised to be one of the largest functioning theater organs in the region. Exterior work is expected to be completed by the end of this summer, with interior finishes underway. Tiger Stadium: A state-of-the-art facility designed to support RIT’s lacrosse and soccer programs, is also on track for a January 2026 completion. The stadium will include seating for 1,180 spectators, team locker rooms, a training room, media suite, concession area, and a hospitality room with a glass viewing wall. Tiger Stadium will be the host site for the 2028 NCAA Division III Women’s Lacrosse Championship. D Lot will continue to operate at a limited capacity until the beginning of the spring 2026 semester. Academics and research: Construction has commenced at 175 Jefferson Road, the former Radisson Hotel, to establish a dedicated space for a future Occupational Therapy program. The facility is slated for completion shortly after January 2026. ‌ Peter Schuck/RIT Construction has begun at 175 Jefferson Road, home to the future Occupational Therapy program. This project is slated for completion in early 2026 NTID: Classroom renovations are being finalized this summer, including the addition of Zoom rooms equipped with appropriate lighting for interpreters. Plans for a new Student Support Center and a redesigned north entry are in development, with groundbreaking anticipated early 2026. Park Point: Renovations are underway to expand the current RIT Certified space on the second floor. The space is slated to be complete by late fall. Despite the various construction projects, no major roadwork is expected on campus this summer, according to Dellefave.

While kids are out having fun, RIT software engineers are hard at work building the tech that helps families identify events and activities in their area. A team of software engineering students is completing a senior project with KidsOutAndAbout.com, an event curation platform that helps families find local events. The students are developing an artificial intelligence (AI)-powered system that will help the Rochester-based small business scale its operations and reach new communities. The collaboration is part of the software engineering program’s Senior Project—a capstone course where small teams tackle real-world software problems submitted by companies and organizations. Throughout two semesters, students work with a project sponsor to carry the project from inception through an entire software development lifecycle. The result is a ready-to-use functional software tool for the sponsor. “It’s a great experience to work with a small business and at every meeting we can truly feel the impact that our eventual product will have,” said Chris Shepard, a software engineering student team member who is from Cheshire, Conn. “It gives us a lot of context for how many businesses operate, which is knowledge we wouldn’t have gotten inside the classroom.” ‌ The experiential work is part of the software engineering Senior Project capstone course, which allows students to work on real challenges, apply their skills end-to-end, and deliver something meaningful for a sponsor organization. Since KidsOutAndAbout.com launched in 2001, all its calendar events have been manually input—mostly by the sponsoring organizations themselves. The regional calendars are then reviewed and supplemented by the site’s data team of seven employees based in Rochester. This labor-intensive process has limited the company’s ability to expand beyond its current 52 markets in the U.S. and Canada. The student team is creating a two-part solution. First, a custom web scraper collects pages from businesses’ websites. Then, an AI large language model trained by the students will determine whether webpages contain event information. Verified pages are routed to the KidsOutAndAbout.com content team for review, dramatically reducing the time required to find and post appropriate events. The second part of the system uses the Google Places API to identify new businesses in untapped geographic regions. “The API allows us to search for categories and locations,” said Shepard. “So, when they want to expand to a new region, they don’t need to manually try and find new businesses—the entire process is automatic.” For example, the new system was able to identify 600 new organizations in Anchorage, Alaska that had not yet been added to the website. This process, which used to take about a week of human searching, was accomplished in approximately two minutes. “Thanks to this student-led innovation, we’ll finally be able to extend our reach everywhere—not just major markets,” said Debra Ross, publisher and founder of KidsOutAndAbout.com. “What’s especially exciting is that the solution they’re developing will increase person-to-person connection between the creators of community experiences and their audiences—at a time when so many fear that AI replaces rather than enhances human connection.” The RIT team includes software engineering seniors Shepard, JD Bartholomew, Alec Haag, Edward Teutle, Eva Stoddard, Joe Wesnofske, and Jahmir Hinds. The team said that some of the biggest learning lessons have been on time management and developing unique workarounds to manage costs. The team has now entered the summer semester of the project and look forward to working directly with company to implement the system. “Our big goal this summer is to get everything up and running in the AWS cloud, make the AI model as accurate as possible, and work directly with the content management team to work out any bugs found in the user interface,” said Bartholomew, who is from Weston, Mass. “It’ll be busy, but we are looking forward to it.”

Robert Pearson helped make history when RIT began its microelectronic engineering program in the early 1980s. An RIT alumnus of the electrical engineering program and MicroE’s first faculty hire, Pearson reflected on some of that history—and his place in it—before retiring this summer after more than 40 years. Pearson started his RIT story with highlights that included following in the footsteps of his father, Milton ’64 (Imaging science), combining electrical engineering and imaging science and coming to campus in 1976 as a student-athlete. He took advantage of early co-op experiences at Fairchild Semiconductor International in Maine and later its R&D center in California. He eventually worked for the company after graduation, before bringing a combination of academics and industry skills to teaching. He saw great potential in the degree program, in the growing semiconductor industry, and RIT’s commitment to building what he would describe as a first-of-its-kind program, recognized by peer universities and industry for its skilled semiconductor graduates. How did you come to teach in the microelectronics engineering program? I started here in fall ’76 and played soccer. Before my first co-op I didn’t have a resume and went over to see sports information director, Roger Dykes. I made copies, sent it out, and got a co-op at Fairchild in Maine because Roger typed up my resume. When I came back, I had classes with Lynn Fuller in semiconductor physics and thick film integrated circuits. He said, ‘I’ve got some equipment here, do you want to try to make some transistors? Just come in and start working. But you’ve got to write it up as lab reports.’ A buddy and I made the first photo masks, capacitors, solar cells, and transistors in 1979. My master’s thesis was a formalized version of all those lab reports. It is basically what we teach in our sophomore course, Integrated Circuit Technology now. It has survived the test of time. I was working at Fairchild Semiconductors after graduation. When I visited RIT at Thanksgiving ’82, they had just started the microelectronics engineering program in September. Lynn Fuller, founder of the program, said, ‘I don’t have any faculty—it’s just me and 60 freshmen. Would you like to be a teacher?’ I asked, ‘When?’ He said, ‘January.’ So I went back to Maine, quit my job and moved back home with my wife. What are some significant milestones in the program you were involved with since it began? When I started teaching, we were in a couple of crowded rooms on the third floor of the engineering building. People were interested in the semiconductor field, and the country was very much interested in re-shoring—just like now. Lynn put together a proposal for a new building. I think the projected cost at the time was a measly $5 million. By 1985, we were ready to open the building, and who do we invite—Jack Kilby, inventor of the integrated circuit. And we gave him an honorary Ph.D. even before he was awarded the Nobel Prize. ‌ Carlos Ortiz/RIT Robert Pearson has taught numerous lab courses and trainings. Some of his early lab notes and processes from the cleanroom during the time he was a student became the basis for some of the program materials used today. What are some of the similarities and differences of the industry and students, then and now? The industry in the early days of our program was very much aware of what decisions they made and how it affected their bottom line. If they found they were getting good hires from RIT, and it was helping them, they did their best to encourage us. That kept us on track for teaching what they wanted. When the semiconductor industry was still emerging, it was exciting. It was one of the obvious roots to success. The students were eager, and they worked hard. They still do. Our alumni said their careers took off because of RIT. They traveled internationally, managed big departments and projects, started their own companies. It just amazes me what all our students have done. What personal and academic accomplishments are you most proud of? Motorola was set to build a fab in Virginia. I thought, I would love a teaching experience at a place that had a fab right next door. We did get industry support at RIT, but not in the way of having it right there. Ironically, I went to Virginia after 14 years teaching at RIT and developed a microelectronic engineering program at Virginia Commonwealth University. It’s interesting that people thought they could do what RIT did, like it was no big deal, and they could not. The uniqueness of this program is immense. I returned to teaching at RIT in 2003 and became program director in 2008. Outside of the college, I’ve been a steering committee member of two large conferences—the University Industry Government Microelectronic Symposium since 1985 and the Advanced Semiconductor Manufacturing Conference (founded by Lynn Fuller) since 1992. It was good advertising for our programs at RIT and what we are doing. It earned us the respect of other universities, and I’m very proud of that. I wrote the history of both of the conferences so that people would know how they began—again this is my interest in history. I should teach a history class! Academically, winning the IEEE Outstanding Teaching Award in 2023 was great and I’m proud that Ivan Puchades, a former student and now an RIT engineering faculty member, nominated me for that. I’ve also been involved in the funding and creation of three different RIT scholarship awards for our microelectronic engineering students, and I’d like to start some more. What will you be doing in retirement? Helping coach my grandkids’ soccer teams. I’ll be doing some gardening, woodworking, I like wood carving and getting back into kayaking. I haven’t done much but now will be able to get out more and do this. I’ll have more time to ride my bike—if my knee still works—those old soccer injuries. I live in Henrietta and will probably still be on campus, I can’t seem to stay away.

Tech influencer Jacklyn Dallas knows a thing or two about creativity and innovation. But when she got the chance in late April to visit the Imagine RIT: Creativity and Innovation Festival, she said she was “blown away.” More than 34,000 people visited campus on April 26 for Imagine RIT. They got to experience a record-setting number of exhibits that highlighted student, faculty, and staff work at the cutting edge of technology, the arts, and design. “It was genuinely one of the most energizing days of the year so far for me,” Dallas said. “The students were brilliant, curious, and so many of them had personal missions driving what they were building.” ‌ Jacklyn Dallas with RIT President David Munson at Imagine RIT. Dallas launched her YouTube Channel NothingButTech when she was 13. She’s expanded her social media presence to Instagram, X (formerly Twitter), and podcasts, with a total following in the hundreds of thousands. She’s racked up tens of millions of views for her interviews with luminaries such as Apple CEO Tim Cook, Alphabet CEO Sundar Pichai, and Rivian Automotive CEO RJ Scaringe, as well as in-depth behind-the-scenes tours and product reviews. Just 23 years old, she’s already given guest lectures at Harvard University, Massachusetts Institute of Technology, and New York University. She visited Imagine RIT as part of a partnership with the university. She shared glimpses of her day with her followers during her visit and recently published a more in-depth look at her experience.         View this post on Instagram                       A post shared by Jacklyn/NothingButTech (@nbtjacklyn) “I have the privilege of spending a lot of time in tech labs and at launch events led by incredibly smart engineers and founders—and I felt that same energy at RIT,” Dallas said. Would she come back? “In a heartbeat,” she said. Learn more about Dallas and her work at her website NothingButTech.

When RIT students create video games, they don’t just mail it in. A team of students won the Grand Prize at GameFest 2025 for developing Pelican Post. The game is about a pelican mailman delivering mail to a small town of unique characters. Along the way, players help the town regain a lost sense of community. The narrative game, which is in the cozy genre that emphasizes low-stress and non-violence, is currently in development. GameFest, held at Rensselaer Polytechnic Institute in April, is an annual showcase of student talent in game development. The competition brings together college students from around New York state and the Northeast to exhibit their games. Thirty games were accepted at GameFest this year. Three of the four finalists for the Grand Prize were games from RIT. “The quality of the games this year across the board, not just from RIT, was seriously impressive,” said Benjamin Snyder, visiting lecturer in RIT’s School of Interactive Games and Media (IGM). “What stood out to me the most was how intentional our teams were about the full experience, including updated websites, social media presence, and promotional materials. You could tell they had considered how people would encounter their games and how to keep that connection going. That big-picture mindset is going to serve them really well moving forward.” In addition to the Grand Prize, Pelican Post also won Excellence in Narrative Design and was a finalist for Excellence in Visual Art. Four other RIT student games were highlighted at the 2025 competition, including:Good Luck Valley — won Excellence in Visual Art and finalist for Excellence in Narrative and the Grand Prize Grim’s Coffin — won Excellence in Game Design and Grand Prize finalist Vessyl — finalist for Excellence in Game Design and Technical Excellence Echoes in the Mist — Technical Excellence finalist Snyder said that what makes the biggest difference for RIT students at competitions is that they tend to take opportunities and really run with them. “They don’t just treat their games as something they needed to make for a class—they treat them like they’re already in the industry,” said Snyder. “That mindset shift, from ‘this is a class project’ to ‘this is something I believe in,’ is what really raises the bar and changes the perception from ‘a game made by students’ to ‘a game made by developers who happen to be students.’” How Pelican Post delivered Pelican Post started as a game jam submission for the 2024 New Year, New Skills Game Jam. The game development event had the theme of “making connections.” ‌ Pelican Post In Pelican Post, players take on the role of Pepper, a young pelican who recently moved to Port Pleasant for a job as the town’s mailman. Through the job, players interact with and get to know the townsfolk and help them out. The creators said that small acts of kindness is pretty much in the mailman’s job description. In 2024, the team continued working on Pelican Post through RIT’s MAGIC Maker Program. The extracurricular program provides students with the funding, studio space, and mentoring support to manage their own digital media projects and prepare them for publication and investment readiness. “While the game was already visually impressive prior to the program, the majority of actual development happened during the Maker program,” said Jeremy Kotz, a third-year game design and development major from North Potomac, Md. “We worked incredibly hard to transform the game from a visual and conceptual demo into a full game demo with a complete vertical slice—a segment of the game that is polished, contains all core gameplay features, and is reflective of the final product we aim to create.” Kotz said that the team’s success at GameFest can be largely attributed to its efforts during RIT’s MAGIC Maker program. “Pelican Post stood out because we have a clear vision for the world we are creating and the experience we want players to have,” said Kotz. “Players were fully immersed in the cozy atmosphere of the game and we received an incredible amount of positive feedback.” ‌ The Pelican Post team includes Connor Petrei (top row, left to right), Rylan, Vanacore, Drew Genel, Jeremy Kotz, Ricard Halvorson, Cheryl Chang (bottom row, left to right), Joana Leong, and Jason Weinberg. The Pelican Post team currently includes development lead and game designer Kotz; visual lead Drew Genel ’25 (new media design); narrative lead Connor Petrei, a fourth-year game design and development major; composer Joana Leong, a fourth-year game design and development major; developer Ricard Halvorson, a third-year design and development major; developer Jason Weinberg ’25 (game design and development); developer Gale Ellis ’24 (game design and development); animator Cheryl Chang, a fourth-year film and animation major; and marketer Rylan Vanacore ’25 (journalism).  In the fall, several members of the team are bringing the game to their IGM Production Studio course, where they will get to continue creating content for the game. In the future, they hope to work with MAGIC to publish the game on Steam.