3 research outputs found
Group Mutual Exclusion in Linear Time and Space
We present two algorithms for the Group Mutual Exclusion (GME) Problem that
satisfy the properties of Mutual Exclusion, Starvation Freedom, Bounded Exit,
Concurrent Entry and First Come First Served. Both our algorithms use only
simple read and write instructions, have O(N) Shared Space complexity and O(N)
Remote Memory Reference (RMR) complexity in the Cache Coherency (CC) model. Our
first algorithm is developed by generalizing the well-known Lamport's Bakery
Algorithm for the classical mutual exclusion problem, while preserving its
simplicity and elegance. However, it uses unbounded shared registers. Our
second algorithm uses only bounded registers and is developed by generalizing
Taubenfeld's Black and White Bakery Algorithm to solve the classical mutual
exclusion problem using only bounded shared registers. We show that contrary to
common perception our algorithms are the first to achieve these properties with
these combination of complexities.Comment: A total of 21 pages including 5 figures and 3 appendices. The bounded
shared registers algorithm in the old version has a subtle error (that has no
easy fix) necessitating replacement. A correct, but fundamentally different,
bounded shared registers algorithm, which has the same properties claimed in
the old version is presented in this new version. Also, this version has an
additional autho
Group mutual exclusion in linear time and space
We present two algorithms for the Group Mutual Exclusion (GME) Problem that satisfy the properties of Mutual Exclusion, Starvation Freedom, Bounded Exit, Concurrent Entry and First Come First Served. Both our algorithms use only simple read and write instructions, have O (N) Shared Space complexity and O (N) Remote Memory Reference (RMR) complexity in the Cache Coherency (CC) model. Our �rst algorithm is developed by generalizing the well-known Lamport’s Bakery Algorithm for the classical mutual exclusion problem, while preserving its simplicity and elegance. However, it uses unbounded shared registers. Our second algorithm uses only bounded registers and is developed by generalizing Taubenfeld’s Black and White Bakery Algorithm to solve the classical mutual exclusion problem using only bounded shared registers. We show that contrary to common perception our algorithms are the �rst to achieve these properties with this combination of complexities.ECU Open Access Publishing Support Fun