Location History:
- Santa Clara, CA (US) (2011)
- Sunnyvale, CA (US) (2018)
- San Jose, CA (US) (2007 - 2019)
Company Filing History:
Years Active: 2007-2019
Title: **Innovative Mind: The Contributions of Alexia Massalin**
Introduction
Alexia Massalin, a prominent inventor based in San Jose, CA, has made significant strides in the field of processor technology. With an impressive portfolio of 24 patents, Massalin is recognized for pushing the boundaries of what is possible in computing performance and efficiency.
Latest Patents
Massalin's latest inventions include two groundbreaking patents:
1. **Processor and Method for Executing Wide Operand Multiply Matrix Operations** - This innovation focuses on a programmable processor that enhances performance by using expanded operand widths. It allows for operands larger than the standard data path width, leveraging general-purpose registers to access extensive data sets in memory efficiently.
2. **System and Methods for Expandably Wide Processor Instructions** - This patent introduces the concept of executing instructions with operands wider than the data path, improving the efficiency of calculations in processors. It addresses the limitations of register files and operational sequences by utilizing wide cache memory, thereby optimizing processor design and functionality.
Career Highlights
Alexia Massalin is a key contributor at Microunity Systems Engineering, Inc., where his innovative work continues to shape the future of processing technology. His dedication to advancing processor capabilities has established him as a thought leader in the industry.
Collaborations
Throughout his career, Massalin has collaborated with notable engineers such as Craig C. Hansen and John Peter Moussouris. Together, they have contributed to various advancements in processor design, showcasing the power of teamwork in innovation.
Conclusion
With a solid foundation built on a diverse range of patents, Alexia Massalin exemplifies the spirit of innovation in technology. His work at Microunity Systems Engineering continues to challenge conventional limits, and his contributions will likely influence the future landscape of computing for years to come.