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Ana Veroneze Solórzano and Yafan Huang Awarded 2025 ACM-IEEE CS George Michael Memorial HPC Fellowships

October 1, 2025
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The prestigious ACM-IEEE CS George Michael Memorial HPC Fellowships have recently announced their recipients for 2025, highlighting the remarkable contributions of two exceptional PhD candidates in the field of high-performance computing (HPC). Ana Veroneze Solórzano of Northeastern University and Yafan Huang from The University of Iowa have been awarded this honor, with Aristotle Martin of Duke University receiving an honorable mention. This accolade is not merely a recognition of their academic achievements but is also a testament to their innovative research that seeks to expand the frontiers of computational science.

High-performance computing has experienced unprecedented growth and complexity as demands from scientific and industrial sectors escalate, necessitating advances in both performance and efficiency. Solórzano’s work stands out particularly in the realm of societal impact within HPC. She has focused her research on the introduction of privacy-preserving and incentive-driven mechanisms, pushing the boundaries of how computing can operate in an increasingly data-sensitive world. One of her notable achievements involves the implementation of an incentive-based power-control strategy on the Fugaku supercomputer, recognized as one of the fastest supercomputers globally.

The design and execution of the Fugaku Points incentive program represent a significant advancement in resource management in the realm of HPC. By offering users various controls to adjust power settings, the initiative aims to enhance overall system efficiency while contributing to sustainability efforts within the high-performance computing landscape. Solórzano’s exploration of these novel user engagement strategies signifies a shifting paradigm where user behavior can influence the energy efficiency of such powerful systems.

Furthermore, Solórzano has made substantial strides in the field of differential privacy, an area gaining increasing relevance as the digital landscape grapples with privacy concerns. Her pioneering work led to the design and development of the first tool that applies differential privacy techniques to HPC system traces. This innovative tool facilitates the protection of personally identifiable information while allowing data to be shared among researchers and institutions, thereby addressing a critical need in the evolving realm of data security.

Shifting our focus to Yafan Huang, his research primarily engages with the issues of robust data compression and fault tolerance within HPC systems. These two areas are crucial as supercomputers scale up, where the risks of soft errors, or transient hardware faults, become more pronounced. As the size and complexity of supercomputers increase, Huang’s work addresses the underlying reliability challenges posed by these errors, making significant strides in maintaining computational integrity in the face of potential disruptions.

Huang has introduced innovative methodologies aimed at soft error detection, going beyond conventional approaches that often fail to adequately address complex fault patterns prevalent in high-performance computing environments. By integrating compiler-level code transformations with program analysis, his research promotes high detection effectiveness, offering a forward-thinking solution to a pervasive issue. The pursuit of enhanced reliability through advanced software techniques not only bolsters the performance of HPC systems but also ensures the integrity required for large-scale scientific research and data analysis.

In the realm of data compression, Huang’s contributions are nothing short of transformative. He developed cuSZp, an ultra-fast lossy compression framework that significantly advances the capabilities of traditional data reduction techniques used in scientific computing. Unlike standard compression methods that often compromise on speed, compression ratios, or data quality, cuSZp manages to excel in all three areas. The framework embodies key algorithmic innovations alongside system optimizations, making it highly desirable for applications that demand real-time in-situ data processing and optimized memory usage.

Aristotle Martin’s honorable mention highlights additional work within the HPC community focused on multiscale modeling frameworks that leverage exascale systems for complex simulations. His research addresses large-scale adhesive transport scenarios involving circulating tumor cells, showcasing the versatile applications of high-performance computing in advancing medical and biological research. This emerging field emphasizes the need for innovative computational methodologies that can handle the increasing complexity of biological processes at scale, underscoring the broader implications of HPC technology beyond traditional scientific inquiry.

The ACM-IEEE CS George Michael Memorial HPC Fellowship serves to honor and encourage exceptional young talent in the field of high-performance computing, recognizing the importance of fostering the next generation of researchers who will drive the discipline forward. The fellowship, endowed in memory of George Michael, acknowledges not just individual achievements but also the collaborative spirit and commitment to advancing HPC research and its applications.

Each fellowship recipient is awarded a $5,000 honorarium and travel expenses to attend the renowned SC conference, where they formally receive their accolades. This recognition not only serves as a milestone in their academic careers but also offers extensive networking opportunities within a community dedicated to furthering knowledge and innovation in high-performance computing.

As high-performance computing continues to evolve, the contributions of scholars like Solórzano and Huang are paving the way for a future where HPC systems are not only more efficient but also more ethically and socially responsible. The intersection of technology, privacy, and performance underscores the potential of HPC to address pressing global challenges, from climate change to advanced medical research.

In summary, the 2025 ACM-IEEE CS George Michael Memorial HPC Fellowships serve as a beacon of inspiration, showcasing how creative thinking and innovative research can lead to transformative solutions in high-performance computing. The ongoing advancements in the field indicate a thriving landscape where future researchers will continue to push the limits of what is possible within this expansive domain, fostering a scientific community that values excellence, integrity, and systemic change.

Subject of Research: High-performance computing applications, networking, storage, and large-scale data analytics.
Article Title: 2025 ACM-IEEE CS George Michael Memorial HPC Fellowships Announced
News Publication Date: October 2023
Web References: ACM-IEEE CS George Michael Memorial HPC Fellowship, SC Conference
References: Not applicable.
Image Credits: Association for Computing Machinery

Keywords

Applied sciences, Computer science, High-performance computing, Data compression, Fault tolerance, Privacy preservation, Supercomputing, Computational reliability, Algorithmic innovation, Scientific discovery, Exascale systems, Innovative research.

Tags: ACM-IEEE CS George Michael Memorial FellowshipAna Veroneze Solórzano researchcomputational science advancementsFugaku supercomputer achievementshigh-performance computing awards 2025incentive-driven power control strategiesPhD candidates in computingprivacy-preserving computing mechanismsrecognition in computational researchresource management in high-performance computingsocietal impact of HPC researchYafan Huang HPC innovations
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