A 1 Tbit/s Bandwidth 1024 b PLL/DLL-Less eDRAM PHY Using 0.3 V 0.105 mW/Gbps Low-Swing IO for CoWoS Application

A 1 Tbit/s Bandwidth 1024 b PLL/DLL-Less eDRAM PHY Using 0.3 V 0.105 mW/Gbps Low-Swing IO for CoWoS Application

A 1 Tbit/s bandwidth PHY is demonstrated through CoWoS™ platform. Two chips: SOC and embedded DRAM (eDRAM), have been fabricated in TSMC 40 nm CMOS technology and stacked on a silicon interposer chip. 1024 DQ buses operating at 1.1 Gbit/s with VDDQ = 0.3 V are proven between SOC chip and eDRAM chip...

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Veröffentlicht in:IEEE journal of solid-state circuits 2014-04, Vol.49 (4), p.1063-1074
Hauptverfasser: Mu-Shan Lin, Chien-Chun Tsai, Chih-Hsien Chang, Wen-Hung Huang, Ying-Yu Hsu, Shu-Chun Yang, Chin-Ming Fu, Mao-Hsuan Chou, Tien-Chien Huang, Ching-Fang Chen, Tze-Chiang Huang, Adham, Saman, Min-Jer Wang, Shen, William Wu, Mehta, Ashok
Format: Artikel
Sprache:eng
Schlagworte:
2.5D-IC
Bandwidth
Chip on wafer on substrate
Clocks
CoWoS
DLL
eDRAM
low-swing IO
micro-bump
Phase locked loops
PHY
PLL
Receivers
SII
silicon-interposer
System-on-chip
Timing
timing compensation
Topology
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Beschreibung
Zusammenfassung:A 1 Tbit/s bandwidth PHY is demonstrated through CoWoS™ platform. Two chips: SOC and embedded DRAM (eDRAM), have been fabricated in TSMC 40 nm CMOS technology and stacked on a silicon interposer chip. 1024 DQ buses operating at 1.1 Gbit/s with VDDQ = 0.3 V are proven between SOC chip and eDRAM chip in experimental results with 1 mm signal trace length on the silicon interposer. A novel timing compensation mechanism is presented to achieve a low-power and small area eDRAM PHY that excludes PLL/DLL but retains good timing margin. Another data sampling alignment training approach is employed to enhance timing robustness. A compact low-swing IO also achieves power efficiency of 0.105 mW/Gbps.
ISSN:0018-9200
1558-173X
DOI:10.1109/JSSC.2013.2297399