Paper Details
Reference:
Reza Mokhtari and Michael Stumm,
"BigKernel -- High performance CPU-GPU communication pipelining for big data-style applications",
In Proceedings 28th International Parallel and Distributed Processing Symposium (IPDPS'14), IEEE, May, 2014, pp. 819–828.
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Abstract:
GPUs offer an order of magnitude higher compute power and memory bandwidth than CPUs. GPUs therefore might appear to be well suited to accelerate computations that operate on voluminous data sets in independent ways, e.g., for transformations, filtering, aggregation, partitioning or other "Big Data" style processing. Yet experience indicates that it is difficult, and often error-prone, to write GPGPU programs which efficiently process data that does not fit in GPU memory, partly because of the intricacies of GPU hardware architecture and programming models, and partly because of the limited bandwidth available between GPUs and CPUs.
In this paper, we propose Big Kernel, a scheme that provides pseudo-virtual memory to GPU applications and is implemented using a 4-stage pipeline with automated prefetching to (i) optimize CPU-GPU communication and (ii) optimize GPU memory accesses. Big Kernel simplifies the programming model by allowing programmers to write kernels using arbitrarily large data structures that can be partitioned into segments where each segment is operated on independently, these kernels are transformed into Big Kernel using straight-forward compiler transformations. Our evaluation on six data-intensive benchmarks shows that Big Kernel achieves an average speedup of 1.7 over state-of-the-art double-buffering techniques and an average speedup of 3.0 over corresponding multi-threaded CPU implementations.
Keywords:
CPU-GPU communication pipelining , Big Data-style processing, GPGPU programs , GPU programming models , Stream processing
Reference Info:
DOI: 10.1109/IPDPS.2014.89
ISSN: 1530-2075
OCLC: 5624072427
BibTeX:
@inproceedings(Mokhtari-IPDPS14, author = {Reza Mokhtari and Michael Stumm}, title = {{BigKernel} -- {H}igh performance {CPU-GPU} communication pipelining for big data-style applications}, booktitle = {Proceedings 28th International Parallel and Distributed Processing Symposium (\textbf{IPDPS'14})}, publisher = {IEEE}, month = {May}, year = {2014}, pages = {819-828}, doi = {10.1109/IPDPS.2014.89}, issn = {1530-2075}, keywords = {CPU-GPU communication pipelining , Big Data-style processing, GPGPU programs , GPU programming models , Stream processing} )