Title :
3D logarithmic interconnect: Stacking multiple L1 memory dies over multi-core clusters
Author :
Azarkhish, Erfan ; Loi, Igor ; Benini, Luca
Author_Institution :
DEI, Univ. of Bologna, Bologna, Italy
Abstract :
In this paper we propose two synthesizable 3D network architectures: C-LIN and D-LIN, which allow modular stacking of multiple L1 memory dies over a multi-core cluster with a limited number of processing elements (PEs). Two Through Silicon Via (TSV) technologies are used: the state of the art Micro-bumps and the promising and dense Cu-Cu Direct Bonding, with consideration of the ESD protection circuits. Our results demonstrate that, in processor-to-L1-memory context, C-LIN and D-LIN perform significantly better than traditional network on chips and simple time-division multiplexing buses, and they achieve comparable speed vs. their 2D counterparts, while enabling modularity: from 256KB to 2MB L1 memory configurations with a single mask set.
Keywords :
electrostatic discharge; integrated circuit bonding; integrated circuit interconnections; memory architecture; multiprocessing systems; three-dimensional integrated circuits; 3D logarithmic interconnect; C-LIN; Cu; D-LIN; ESD protection circuit; L1 memory dies; PE; TSV technology; direct bonding; memory configuration; microbump; modular stacking; multicore cluster; processing element; processor-to-L1-memory context; single mask set; synthesizable 3D network architecture; through silicon via technology; Bonding; Context; Decoding; Integrated circuit interconnections; Silicon; Stacking; System-on-chip;
Conference_Titel :
Networks on Chip (NoCS), 2013 Seventh IEEE/ACM International Symposium on
Conference_Location :
Tempe, AZ
Print_ISBN :
978-1-4673-6491-1
Electronic_ISBN :
978-1-4673-6492-8
DOI :
10.1109/NoCS.2013.6558394
