A Survey of Cache Bypassing Techniques

hgpu.org » paper » A Survey of Cache Bypassing Techniques

A Survey of Cache Bypassing Techniques

Sparsh Mittal

Oak Ridge National Laboratory (ORNL)

Journal of Low Power Electronics and Applications, 2016

DOI:10.3390/jlpea6020005

@Article{jlpea6020005,

AUTHOR={Mittal, Sparsh},

TITLE={A Survey of Cache Bypassing Techniques},

JOURNAL={Journal of Low Power Electronics and Applications},

VOLUME={6},

YEAR={2016},

NUMBER={2},

PAGES={5},

URL={http://www.mdpi.com/2079-9268/6/2/5},

ISSN={2079-9268},

ABSTRACT={With increasing core-count, the cache demand of modern processors has also increased. However, due to strict area/power budgets and presence of poor data-locality workloads, blindly scaling cache capacity is both infeasible and ineffective. Cache bypassing is a promising technique to increase effective cache capacity without incurring power/area costs of a larger sized cache. However, injudicious use of cache bypassing can lead to bandwidth congestion and increased miss-rate and hence, intelligent techniques are required to harness its full potential. This paper presents a survey of cache bypassing techniques for CPUs, GPUs and CPU-GPU heterogeneous systems, and for caches designed with SRAM, non-volatile memory (NVM) and die-stacked DRAM. By classifying the techniques based on key parameters, it underscores their differences and similarities. We hope that this paper will provide insights into cache bypassing techniques and associated tradeoffs and will be useful for computer architects, system designers and other researchers.},

DOI={10.3390/jlpea6020005}

}

Download (PDF)

View

Source

2087

views

With increasing core-count, the cache demand of modern processors has also increased. However, due to strict area/power budgets and presence of poor data-locality workloads, blindly scaling cache capacity is both infeasible and ineffective. Cache bypassing is a promising technique to increase effective cache capacity without incurring power/area costs of a larger sized cache. However, injudicious use of cache bypassing can lead to bandwidth congestion and increased miss-rate and hence, intelligent techniques are required to harness its full potential. This paper presents a survey of cache bypassing techniques for CPUs, GPUs and CPU-GPU heterogeneous systems, and for caches designed with SRAM, non-volatile memory (NVM) and die-stacked DRAM. By classifying the techniques based on key parameters, it underscores their differences and similarities. We hope that this paper will provide insights into cache bypassing techniques and associated tradeoffs and will be useful for computer architects, system designers and other researchers.

Tags: cache bypassing, cpu, CPU-GPU heterogeneous system, DRAM, GPU, Memory, non-volatile memory, survey

April 29, 2016 by sparsh0mittal

Rating: 1.5/5. From 2 votes.

Please wait...

gpu_tracker: Context manager and CLI that tracks the computational-resource-usage of a code block or shell command, particularly the GPU usage

gpu_tracker: Python package for tracking and profiling GPU utilization in both desktop and high-performance computing environments

* * *

high performance computing on graphics processing units: hgpu.org