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Joan Feigenbaum is a prominent computer scientist known for her work in the fields of computer science and information science, particularly in areas such as algorithms, security, and privacy. She has made significant contributions to the theory of computer science, including work on the development of effective algorithms and their applications in various domains. Feigenbaum has held academic positions at institutions such as Yale University and has been involved in research related to network security, cryptography, and the economics of information.

Johan Håstad is a prominent Swedish computer scientist known for his contributions to theoretical computer science, particularly in areas like computational complexity, cryptography, and algorithms. He has made significant advancements in understanding the limitations of algorithms and the complexity of various computational problems. Håstad is also known for his work on derandomization and the study of Boolean functions.

John Koza is a computer scientist and a prominent figure in the field of genetic programming, which is a type of evolutionary algorithm used to evolve computer programs. He is best known for his work in the development of genetic programming techniques and for co-authoring several influential books on the subject, including "Genetic Programming: On the Programming of Computers by Means of Natural Selection." Koza's research has focused on using principles of natural selection and genetics to automatically generate algorithms and solutions to complex problems.

John Reif is known primarily as a computer scientist, particularly in the fields of algorithms and computational theory. He has made significant contributions to areas such as parallel computation and complexity theory. His work often focuses on the theoretical foundations of computer science, including the study of algorithms, data structures, and computational models. If you're referring to a different John Reif in another context (such as literature, sports, etc.

John Watrous is a prominent Canadian computer scientist known for his contributions to the fields of quantum computing and complexity theory. He is a professor at the University of Waterloo in Canada and has made significant advancements in understanding the theoretical foundations of quantum information processing, including quantum algorithms and quantum complexity classes. One of his notable contributions is the development of the concept of quantum interactive proofs, which has implications for both quantum computing and classical computational complexity.

Juhani Karhumäki is a mathematician known for his contributions to the fields of automata theory, formal languages, and discrete mathematics. He has been involved in research related to the mathematical aspects of computer science, particularly in the study of computational models and structures.

Julia Chuzhoy is a prominent researcher in the field of computer science, particularly known for her work in algorithms and complexity theory. She has contributed significantly to areas like graph theory, optimization, and computational geometry. Chuzhoy has published numerous papers in respected academic journals and has been involved in various research projects and collaborations.

Juraj Hromkovič is a notable figure in the field of computer science, particularly recognized for his contributions to theoretical computer science, algorithm design, and computational complexity. He is also known for his work in the area of informatics education and has authored several important publications. Hromkovič has been involved in developing educational materials and curricula aimed at improving the teaching of computer science concepts, particularly in relation to algorithms and data structures.

Juris Hartmanis is a prominent computer scientist known for his contributions to the fields of theoretical computer science and computational complexity theory. He was born on September 5, 1928, in Riga, Latvia, and later emigrated to the United States. Hartmanis is perhaps best known for his work on the theory of computational complexity, which studies the resources required (like time and space) for algorithms to solve computational problems.

János Komlós is a Hungarian mathematician known for his contributions to various fields within mathematics, particularly in combinatorics, probability theory, and number theory. He has been involved in significant research that often intersects these areas and has also contributed to the development of algorithms and probabilistic methods in combinatorial mathematics. In addition to his research, Komlós has had a notable academic career as a professor, teaching and mentoring students in mathematics.

Katrina Ligett is a prominent researcher in the field of computer science, particularly known for her work in algorithms, privacy, and machine learning. She has made significant contributions to topics such as differential privacy, which is a framework for ensuring that the privacy of individuals in a dataset is maintained while still allowing for useful data analysis. Her work addresses the challenges of designing algorithms that can provide accurate results while protecting sensitive information.

Kavitha Telikepalli is an Indian entrepreneur, consultant, and advocate known for her work in various industries. She has made significant contributions as a motivational speaker and has been involved in initiatives aimed at empowering women and supporting technological advancements.

Kazuo Iwama is a prominent computer scientist known for his contributions in the fields of theoretical computer science, particularly in algorithms, complexity theory, and information technology. He has also made significant contributions to the study of quantum computing and combinatorial optimization. Iwama's research has often focused on the design and analysis of algorithms, including those related to graph theory, scheduling, and computational complexity.

As of my last update in October 2023, there is no widely known figure, concept, or term specifically referred to as "Ken Batcher." It's possible that "Ken Batcher" could refer to a lesser-known individual, a local figure, or perhaps something that emerged after my last update.

Ketan Mulmuley is a mathematician known for his contributions to areas such as theoretical computer science, particularly in computational complexity theory and machine learning. He is a professor at the University of Chicago, where his research often intersects with topics like algebraic geometry and its applications in computer science.

Kosaburo Hashiguchi (橋口幸郎) was a notable Japanese artist, renowned for his woodblock prints during the early 20th century. He was particularly active in the Shin-hanga (新版画) movement, which sought to revitalize traditional ukiyo-e woodblock printing by incorporating Western artistic techniques and subjects while still embracing Japanese aesthetics. Hashiguchi's works often depicted beautiful women, seasonal landscapes, and traditional Japanese themes, combining meticulous craftsmanship with a modern sensibility.

Kousha Etessami is not widely recognized as a significant figure in mainstream media, literature, science, or other common fields, and there may be limited publicly available information about them.

Lance Fortnow is a computer scientist known for his work in computational complexity theory, a branch of theoretical computer science that focuses on the resources required to solve computational problems. He has made significant contributions to understanding the limits of computation and has explored topics such as the P vs NP problem, which is one of the most important open questions in computer science. In addition to his research, Fortnow has been involved in educating and mentoring students and has held academic positions at various institutions.

Larry Stockmeyer is known for his contributions in the field of computer science, particularly in theoretical computer science and algorithms. He is well-regarded for his work on the complexity of algorithms, as well as in areas such as computational geometry and formal languages. One of his notable contributions is the "Stockmeyer complexity class," related to the problem of determining whether a given Boolean formula is satisfiable. However, he might not be as well-known in popular culture or mainstream discussions outside of academic contexts.

Lawrence J. Fogel is an American scientist and entrepreneur known for his work in the fields of artificial intelligence, machine learning, and genetic algorithms. He has contributed significantly to the development of computational models and applications that utilize evolutionary principles to solve complex problems. Fogel is the founder of the company Natural Selection, Inc., which focuses on applying these algorithms in various domains. Additionally, he has authored and edited several influential books and papers on genetic algorithms and their applications in AI.