Abstract:
Caching was suggested as a solution for reducing
bandwidth utilization and minimizing query latency in mobile
environments. Over the years, different caching approaches have
been proposed, some relying on the server to broadcast reports
periodically informing of the updated data while others allowed the
clients to request for the data whenever needed. Until recently a
hybrid cache consistency scheme Scalable Asynchronous Cache
Consistency Scheme SACCS was proposed, which combined the two
different approaches benefits’ and is proved to be more efficient and
scalable. Nevertheless, caching has its limitations too, due to the
limited cache size and the limited bandwidth, which makes the
implementation of cache replacement strategy an important aspect for
improving the cache consistency algorithms. In this thesis, we
proposed a new cache replacement strategy, the Least Unified Value
strategy (LUV) to replace the Least Recently Used (LRU) that
SACCS was based on. This paper studies the advantages and the
drawbacks of the new proposed strategy, comparing it with different
categories of cache replacement strategies.
Citation:
Zeitunlian, A., & Haraty, R. A. (2010). An Efficient Cache Replacement Strategy for the Hybrid Cache Consistency Approach. World Academy of Science, Engineering and Technology, International Journal of Computer, Electrical, Automation, Control and Information Engineering, 4(3), 412-417