DISTRIBUTED FILE SYSTEM LOAD BALANCING AND CLOUD SYNCHRONIZATION

The principle target is to outline a heap rebalancing calculation to reallocate record pieces with the end goal that the lumps can be dispersed to the framework as consistently as could reasonably be expected while diminishing the development cost however much as could reasonably be expected. In the first place process is to distribute the pieces of records as  consistently as conceivable among the hubs with the end goal that no hub deals with an inordinate number of lumps. Also, we intend to diminish network traffic (or development cost) created by rebalancing the heaps of hubs however much as could reasonably be expected to boost the network transfer speed accessible to typical applications. Also, as disappointment is the standard, hubs are recently added to support the general framework execution, bringing about the heterogeneity of hubs. Misusing able hubs to enhance the framework execution is in this way requested. In particular, in this review we propose offloading the heap rebalancing undertaking to capacity hubs by having the capacity hubs adjust their heaps suddenly. This takes out the reliance on focal hubs. The capacity hubs are organized as a network in light of dispersed hash tables(DHTs), e.g., finding a record piece can just allude to quick key query in DHTs, given that a one of a kind handle (or identifier) is doled out to each document lump. DHTs empower hubs to self-arrange and - repair while continually offering query usefulness in hub dynamism, streamlining the framework arrangement and management.