Space Efficient Wait-Free Buffer Sharing in Multiprocessor Real-Time Systems Based on Timing Information
Paper i proceeding, 2000
A space efficient wait-free algorithm for implementing a shared buffer for real-time multiprocessor systems is presented in this paper. The commonly used method to implement shared buffers in real-time systems is based on mutual exclusion. Mutual exclusion is penalised by blocking that typically leads to difficulties in guaranteeing deadlines in real-time systems. Researchers have introduced non-blocking algorithms and data structures that address the above problems. Many of the non-blocking algorithms that appeared in the literature have very high space demands though, some even unbounded, which makes them not suitable for real-time systems. In this paper we look at a simple, elegant and easy to implement algorithm that implements a shared buffer but uses unbounded time-stamps and we show how to bound the time-stamps by using the timing information that is available in many real-time systems. Our analysis and calculations show that the algorithm resulting from our approach is space efficient. The protocol presented here can support an arbitrary number of concurrent read and write operations.
Concurrent
wait-free
shared register
real-time
time-stamp