Leslie Lamport - Wikipedia Leslie B Lamport (born February 7, 1941) is an American computer scientist and mathematician Lamport is best known for his seminal work in distributed systems, and as the initial developer of the document preparation system LaTeX and the author of its first manual [2]
Leslie Lamports Home Page I have retired from Microsoft Microsoft has graciously agreed to maintain my website However, my Microsoft email address no longer works If I know you, I may have forgotten to tell you my new email address
The Writings of Leslie Lamport Leslie Lamport Last modified 15 May 2025 This document is a sort of scientific autobiography It not only lists the papers I have written, but also describes them and explains how I came to write some of them I have included almost all my technical papers and electronic versions of many of them for downloading
Leslie Lamport | Turing Award, Biography, Facts | Britannica Leslie Lamport, American computer scientist who received the 2013 Turing Award for his work explaining and formulating the behavior of distributed computing systems (i e , systems made up of multiple autonomous computers that communicate by exchanging messages with one another)
Lamports logical clock - GeeksforGeeks Lamport's Logical Clock was created by Leslie Lamport It is a procedure to determine the order of events occurring It provides a basis for the more advanced Vector Clock Algorithm Due to the absence of a Global Clock in a Distributed Operating System Lamport Logical Clock is needed Algorithm:
Leslie Barry Lamport - A. M. Turing Award Laureate His paper on "Time, Clocks, and the Ordering of Events in a Distributed System" has become the most cited of Lamport’s works, and in computer science parlance logical clocks are often nicknamed Lamport timestamps
Leslie Lamport - CHM Over a career spanning five decades, Lamport has made multiple groundbreaking contributions to the theory and practice of distributed and concurrent computing systems, insights that have dramatically improved the performance and reliability of such systems