Design and Analysis of 3D-MAPS (3D Massively Parallel Processor with Stacked Memory)

Design and Analysis of 3D-MAPS (3D Massively Parallel Processor with Stacked Memory)

This paper describes the architecture, design, analysis, and simulation and measurement results of the 3D-MAPS (3D massively parallel processor with stacked memory) chip built with a 1.5 V, 130 nm process technology and a two-tier 3D stacking technology using 1.2 \microm-diameter, 6 \micro m-height...

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Veröffentlicht in:IEEE transactions on computers 2015-01, Vol.64 (1), p.112-125
Hauptverfasser: Dae Hyun Kim, Athikulwongse, Krit, Healy, Michael B., Hossain, Mohammad M., Moongon Jung, Khorosh, Ilya, Kumar, Gokul, Young-Joon Lee, Lewis, Dean L., Tzu-Wei Lin, Chang Liu, Panth, Shreepad, Pathak, Mohit, Minzhen Ren, Guanhao Shen, Taigon Song, Dong Hyuk Woo, Xin Zhao, Joungho Kim, Ho Choi, Loh, Gabriel H., Lee, Hsien-Hsin S., Sung Kyu Lim
Format: Artikel
Sprache:eng
Schlagworte:
3D integrated circuits
3D Multiprocessor-memory stacked systems
Architecture (computers)
Bandwidth
Bonding
Computer simulation
Computer-aided design
Delay
Design engineering
Massively parallel processors
Multicore processing
RTL implementation and simulation
Stacking
Three dimensional
Three-dimensional displays
Through-silicon vias
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Beschreibung
Zusammenfassung:This paper describes the architecture, design, analysis, and simulation and measurement results of the 3D-MAPS (3D massively parallel processor with stacked memory) chip built with a 1.5 V, 130 nm process technology and a two-tier 3D stacking technology using 1.2 \microm-diameter, 6 \micro m-height through-silicon vias (TSVs) and 3.4\nbsp\microm-diameter face-to-face bond pads. 3D-MAPS consists of a core tier containing 64 cores and a memory tier containing 64 memory blocks. Each core communicates with its dedicated 4KB SRAM block using face-to-face bond pads, which provide negligible data transfer delay between the core and the memory tiers. The maximum operating frequency is 277 MHz and the maximum memory bandwidth is 70.9 GB/s at 277 MHz. The peak measured memory bandwidth usage is 63.8 GB/s and the peak measured power is approximately 4 W based on eight parallel benchmarks.
ISSN:0018-9340
1557-9956
DOI:10.1109/TC.2013.192