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
J. Solid-State Circuits(2014)
摘要
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.
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关键词
dq buses,cowos,micro-bump,timing compensation,silicon interposer chip,chip on wafer on substrate,bit rate 1.1 gbit/s,power efficiency,2.5d-ic,low-swing io,size 40 nm,timing,pll,dram chips,system-on-chip,silicon,voltage 0.3 v,soc,sii,si,dll,data sampling alignment training approach,silicon-interposer,compensation,elemental semiconductors,pll/dll-less edram phy,timing compensation mechanism,cowos application,timing robustness,edram,signal trace length,cmos memory circuits,embedded dram,tsmc cmos,phy,system on chip,phase locked loops,bandwidth,topology
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