Title :
COOL interconnect low power interconnection technology for scalable 3D LSI design
Author :
Chacin, Marco ; Uchida, Hiroyuki ; Hagimoto, Michiya ; Miyazaki, Takashi ; Ohkawa, Takeshi ; Ikeno, Rimon ; Matsumoto, Yukoh ; Imura, Fumito ; Suzuki, Motohiro ; Kikuchi, Katsuya ; Nakagawa, Hiroshi ; Aoyagi, Masahiro
Author_Institution :
TOPS Syst. Corp., Tsukuba, Japan
Abstract :
3D multi-chip stacking is a promising technology poised to help combat the “memory wall” and the “power wall” in future multi-core processors. However, as technology scales and the chip sizes increase due to the number of transistors, interconnects have become a major performance bottleneck and a major source of power consumption for microprocessors. In this article, we introduce a TSV-based ultra-wide inter-chip connection technology that enables systems to have lower power consumption, higher scalability in its functionality and performance just by increasing the number/type of chips, allows to be manufactured with much more flexibility, and has a better cost/performance than conventional 2D SoC based designs.
Keywords :
large scale integration; microprocessor chips; multiprocessing systems; three-dimensional integrated circuits; 3D multichip stacking; COOL interconnect low power interconnection technology; TSV-based ultrawide interchip connection technology; chip sizes; microprocessors; multicore processors; scalable 3D LSI design; Clocks; Computer architecture; Driver circuits; Integrated circuit interconnections; Large scale integration; Microprocessors; Three dimensional displays; 3D staked LSI; distributed processing; heterogeneous multi core; inter chip connection;
Conference_Titel :
Cool Chips XIV, 2011 IEEE
Conference_Location :
Yokohama
Print_ISBN :
978-1-61284-883-9
Electronic_ISBN :
978-1-61284-882-2
DOI :
10.1109/COOLCHIPS.2011.5890921
