Company Filing History:
Years Active: 1987
Title: The Innovative Mind of William J. Miceli
Introduction
William J. Miceli, an inventive mind based in La Jolla, California, has made significant contributions to the field of digital computing through his patent. With a unique approach to mathematical operations, Miceli's work showcases the intersection of digital and analog technologies, highlighting the importance of innovation in modern science and engineering.
Latest Patents
Miceli holds a patent for his invention titled "Optical Floating-Point Matrix-Vector Multiplier." This groundbreaking patent details a digital multiplication algorithm that is enhanced by a hybrid combination of both floating and fixed-point arithmetic. The invention employs an acousto-optical time-integrating architecture that utilizes a binary representation of this hybrid arithmetic combination. Notably, Miceli's design incorporates an array of full adders in conjunction with a photodetector array, which effectively avoids generating mixed binary outputs typically associated with the digital multiplication by analog convolution algorithm. This innovation eliminates the necessity for analog-to-digital converters, simplifying the conversion process to achieve pure binary outcomes.
Career Highlights
Miceli's professional journey reflects a dedication to advancing technology. He is currently affiliated with the United States of America, as represented by the Secretary of the Navy, where his work continues to influence the capabilities of modern computational systems. His focused efforts in innovation have positioned him as an important contributor to both military and civilian technological advances.
Collaborations
Throughout his career, William J. Miceli has collaborated with talented individuals, including Richard P. Bocker. These partnerships not only enhance the creative process but also strengthen the overall impact of their respective innovations, combining their expertise to push the boundaries of technology.
Conclusion
William J. Miceli's inventive work, particularly with the optical floating-point matrix-vector multiplier, exemplifies the spirit of innovation that drives progress in technology. His contributions, coupled with valuable collaborations, showcase the potential of merging different computational methods, paving the way for new advancements in the realm of engineering and beyond.