Adaptive Block Memory Management for Spatial and Temporal Locality in Flash Based Storage Systems: Advanced Study

Daula, S. M. Shamsheer and Khan, G. Amjad and Ramesh, Sri G. and Reddy, Sri M. Madhusudhan (2020) Adaptive Block Memory Management for Spatial and Temporal Locality in Flash Based Storage Systems: Advanced Study. In: Emerging Trends in Engineering Research and Technology Vol. 7. B P International, pp. 86-90. ISBN 978-93-90149-36-0

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Abstract

The shifting of cold clean pages and hot dirty pages along with the inner sets of the cold dirty and the
hot clean pages is emphasized in the adaptive predictive clean least recently used technique, but it
fails in exploring more on the spatial contents rather than sticking more in the temporal locality
maintenance. In that, the concepts of hot page, clean, cold and dirty page management is presented
with an efficient kind whose benefits are utilized in the global adaptive algorithm also in both spatial
locality and temporal locality management. The role of the three issues in erase, read, write and their
interlinks with page transaction from the data buffer cache to the flash translation layer, which is
shown in virtual presentation but proves its essence in more nearest way in address mapping, and
with the flash storage is implemented using a flash sim simulator version from the very first block
padding lru clean first lru or may it be the cold clean first technique. The clear point of growth in each
of the sequenced algorithms is simulated at suitable memory sizes showing the prior to latter
enhanced may it be in the cluster management or may it be the creation of necessary list like hot list
or cold list or key data list. The suggestive solutions have been proved with acceptable solutions and
also laid away some more improvable steps to still reduce the speed gaps in the symmetry of the two
major issues. The techniques are near to precise in lowering and minimizing the number of times of
addressing during the cache handling to efficiency with respect to reducing the erases.

Item Type: Book Section
Subjects: Eprints AP open Archive > Engineering
Depositing User: Unnamed user with email admin@eprints.apopenarchive.com
Date Deposited: 27 Nov 2023 04:38
Last Modified: 27 Nov 2023 04:38
URI: http://asian.go4sending.com/id/eprint/1720

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