TY - JOUR
T1 - Time-adaptive algorithms for synchronization
AU - Alur, Rajeev
AU - Attiya, Hagit
AU - Taubenfeld, Gadi
PY - 1997/4
Y1 - 1997/4
N2 - We consider concurrent systems in which there is an unknown upper bound on memory access time. Such a model is inherently different from the asynchronous model, where no such bound exists, and also from timing-based models, where such a bound exists and is known a priori. The appeal of our model lies in the fact that while it abstracts from implementation details, it is a better approximation of real concurrent systems than the asynchronous model. Furthermore, it is stronger than the asynchronous model, enabling us to design algorithms for problems that are unsolvable in the asynchronous model. Two basic synchronization problems, consensus and mutual exclusion, are investigated in a shared-memory environment that supports atomic read/write registers. We show that Θ(Δlog Δ/log log Δ) is an upper and lower bound on the time complexity of consensus, where Δ is the (unknown) upper bound on memory access time. For the mutual exclusion problem, we design an efficient algorithm that takes advantage of the fact that some upper bound on memory access time exists. The solutions for both problems are even more efficient in the absence of contention, in which case their time complexity is a constant.
AB - We consider concurrent systems in which there is an unknown upper bound on memory access time. Such a model is inherently different from the asynchronous model, where no such bound exists, and also from timing-based models, where such a bound exists and is known a priori. The appeal of our model lies in the fact that while it abstracts from implementation details, it is a better approximation of real concurrent systems than the asynchronous model. Furthermore, it is stronger than the asynchronous model, enabling us to design algorithms for problems that are unsolvable in the asynchronous model. Two basic synchronization problems, consensus and mutual exclusion, are investigated in a shared-memory environment that supports atomic read/write registers. We show that Θ(Δlog Δ/log log Δ) is an upper and lower bound on the time complexity of consensus, where Δ is the (unknown) upper bound on memory access time. For the mutual exclusion problem, we design an efficient algorithm that takes advantage of the fact that some upper bound on memory access time exists. The solutions for both problems are even more efficient in the absence of contention, in which case their time complexity is a constant.
KW - Consensus
KW - Distributed computing
KW - Mutual exclusion
KW - Timing-based algorithms
UR - http://www.scopus.com/inward/record.url?scp=0011587343&partnerID=8YFLogxK
U2 - 10.1137/S0097539794265244
DO - 10.1137/S0097539794265244
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AN - SCOPUS:0011587343
SN - 0097-5397
VL - 26
SP - 539
EP - 556
JO - SIAM Journal on Computing
JF - SIAM Journal on Computing
IS - 2
ER -