A larger stacked layer number scalable TSV-based 3D-SRAM for high-performance universal-memory-capacity 3D-IC platforms
VLSI Circuits(2011)
摘要
This work demonstrates the first fabricated TSV-based die-to-die bonding stacked-layer-number-scalable 3D-SRAM macro. This 3D-SRAM uses a semi-master-slave (SMS) structure and a self-timed differential-TSV signal transfer (STDT) scheme to 1) provide a constant-load logic-SRAM interface across various layer configurations; 2) suppress TSV-induced power and speed overheads; 3) tolerate die-to-die variation, and 4) enable pre-bonding KGD sorting, to improve the speed and yield of universal-memory-capacity platforms. Superior scalability of increasing stacked layer number with small speed overheads is demonstrated in the fabricated 3D-SRAM macro with layer-scalable test-modes. This macro has two SRAM layers that are stacked by a via-last process with die-to-die bonding.
更多查看译文
关键词
sram chips,three-dimensional integrated circuits,tsv-based die-to-die bonding stacked-layer-number-scalable 3d sram macro,tsv-induced power,constant-load logic-sram interface,die-to-die variation,high performance universal-memory-capacity 3d ic platform,layer-scalable test-mode,pre-bonding kgd sorting,self-timed differential-tsv signal transfer,semi-master-slave structure,speed overhead,stacked layer number scalable tsv,universal-memory-capacity platform,via-last process,scalability,very large scale integration,sorting
AI 理解论文
溯源树
样例
生成溯源树,研究论文发展脉络
Chat Paper
正在生成论文摘要