Norm Jouppi scite author profile

The scalability of future massively parallel processing (MPP) systems is being severely challenged by high failure rates. Current hard disk drive (HDD) checkpointing results in overhead of 25% or more at the petascale. With a direct correlation between checkpoint frequencies and node counts, novel techniques that can take more frequent checkpoints with minimum overhead are critical to implement a reliable exascale system. In this work, we leverage the upcoming Phase-Change Random Access Memory (PCRAM) technology and propose a hybrid local/global checkpointing mechanism.After a thorough analysis of MPP systems failure rates and failure sources, we propose three variants of PCRAM-based hybrid checkpointing schemes, DIMM+HDD, DIMM+DIMM, and 3D+3D, which reduce the checkpoint overhead and offer a smooth transition from the conventional pure HDD checkpoint to the ideal 3D PCRAM mechanism. The proposed pure 3D PCRAM-based mechanism can ultimately take checkpoints with overhead less than 4% on a projected exascale system.

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NVSim: A Circuit-Level Performance, Energy, and Area Model for Emerging Non-volatile Memory

Dong

Jouppi

et al. 2013

146

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Photonic Architectures for High-Performance Data Centers

Beausoleil

McLaren

Jouppi

2013

IEEE J. Select. Topics Quantum Electron.

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Norm Jouppi

Dynamic Warp Formation and Scheduling for Efficient GPU Control Flow

Optimizing NUCA Organizations and Wiring Alternatives for Large Caches with CACTI 6.0

Leveraging 3D PCRAM technologies to reduce checkpoint overhead for future exascale systems

NVSim: A Circuit-Level Performance, Energy, and Area Model for Emerging Non-volatile Memory

Photonic Architectures for High-Performance Data Centers

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