Drdu

Issenin, Ilya; Brockmeyer, Erik; Miranda, M.; Dutt, Nikil

doi:10.1145/1230800.1230807

Cited by 42 publications

(1 citation statement)

References 32 publications

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“…For buffers, no tag comparisons are required and thus they are more energy-efficient than caches [75]. is is because a cache utilizes a tag array for finding data in the data array.…”

Section: Energy and Areamentioning

confidence: 99%

Customizable Computing

Chen

Cong

Gill

et al. 2015

Synthesis Lectures on Computer Architecture

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Synthesis Lectures on Computer Architecture publishes 50-to 100-page publications on topics pertaining to the science and art of designing, analyzing, selecting and interconnecting hardware components to create computers that meet functional, performance and cost goals. e scope will largely follow the purview of premier computer architecture conferences, such as ISCA, HPCA, MICRO, and ASPLOS. ABSTRACTSince the end of Dennard scaling in the early 2000s, improving the energy efficiency of computation has been the main concern of the research community and industry. e large energy efficiency gap between general-purpose processors and application-specific integrated circuits (ASICs) motivates the exploration of customizable architectures, where one can adapt the architecture to the workload. In this Synthesis lecture, we present an overview and introduction of the recent developments on energy-efficient customizable architectures, including customizable cores and accelerators, on-chip memory customization, and interconnect optimization. In addition to a discussion of the general techniques and classification of different approaches used in each area, we also highlight and illustrate some of the most successful design examples in each category and discuss their impact on performance and energy efficiency. We hope that this work captures the state-of-the-art research and development on customizable architectures and serves as a useful reference basis for further research, design, and implementation for large-scale deployment in future computing systems.

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“…For buffers, no tag comparisons are required and thus they are more energy-efficient than caches [75]. is is because a cache utilizes a tag array for finding data in the data array.…”

Section: Energy and Areamentioning

confidence: 99%