Explore the groundbreaking concept of "posits" as a potential replacement for IEEE Standard 754 floats in this Stanford University seminar. Delve into the advantages of posits over traditional floating-point arithmetic, including simpler hardware implementation, larger dynamic range, higher accuracy, and better closure under arithmetic operations. Learn how posits eliminate common issues like overflow, underflow, and Not-a-Number (NaN) values. Discover the potential for posits to improve GPU accelerator performance and efficiency. Examine comprehensive benchmarks comparing posits to other number formats and their applications in both low-precision and high-precision computing. Gain insights from Dr. John L. Gustafson, a renowned applied physicist and mathematician, as he presents this innovative approach to computer arithmetic that could revolutionize computational accuracy and efficiency across various fields.
Stanford Seminar - Beyond Floating Point - Next Generation Computer Arithmetic
Stanford University via YouTube
Overview
Syllabus
Stanford Seminar: Beyond Floating Point: Next Generation Computer Arithmetic
Taught by
Stanford Online