Towards High Performance and Energy Efficient Storage Systems using Hybrid Heterogeneous Computing Devices

Parallel circle frameworks are equipped for satisfying quickly expanding requests for both substantial stockpiling limit and high I/O execution. Be that as it may, it is trying to fundamentally increment circle I/O transfer speed for information escalated workloads because of the unwavering quality and moment handling of information solicitations under element workload conditions and the ideal tradeoff between framework adaptability and information dependability in information serious frameworks. To build the figuring execution and diminish power utilization, we proposed a novel half and half construction modeling that comprises of heterogeneous registering gadgets that comprises of Graphics Processing Unit (GPU) and Digital Signal Processor (DSP), Hard Disk Drive (HDD) exhibit and Solid State Disk (SSD). The most as often as could reasonably be expected utilized information will be put away as a part of the Solid state circles making the hard plates drive in a rest mode, however much as would be prudent to decrease the vitality utilization. We directed broad analyses to quantitatively assess the execution of the proposed construction modeling. Exploratory results demonstrate that coordinating GPU and DSP with the HDD and the SSD altogether lessen the force utilization over utilizing the GPU just without scarifying the execution.