Title :
A 1.5-V 3.2 Gb/s/pin Graphic DDR4 SDRAM With Dual-Clock System, Four-Phase Input Strobing, and Low-Jitter Fully Analog DLL
Author :
Lee, Ki-Won ; Cho, Joo-Hwan ; Choi, Byoung-Jin ; Lee, Geun-Il ; Jung, Ho-Don ; Lee, Woo-Young ; Park, Ki-Chon ; Joo, Yong-Suk ; Cha, Jae-Hoon ; Choi, Young-Jung ; Moran, Patrick B. ; Ahn, Jin-Hong
Author_Institution :
Hynix Semicond. Inc., Kyoungki-do
Abstract :
Three circuit techniques for a 1.5 V, 512 Mb graphic DDR4 (GDDR4) SDRAM using a 90-nm DRAM process have been developed. First, a dual-clock system increases clocking accuracy and expands internal timing margins for harmonious core operation regardless of external clock frequency. Second, a four-phase data input strobe scheme helps to increase the input data valid window. Third, a fully analog delay-locked loop which provides a stable I/O clock and has 31.67 ps peak-to-peak jitter characteristics is designed. On the basis of these circuit techniques, the data rate is 3.2 Gbps/pin, which corresponds to 12.8 Gbps in times32 GDDR4-based I/O. Also, a multidivided architecture consisting of four independent 128 Mb core arrays is designed to reduce power line and output noise.
Keywords :
DRAM chips; clocks; delay lock loops; timing jitter; analog DLL; bit rate 12.8 Gbit/s; circuit techniques; clocking accuracy; dual-clock system; external clock frequency; four-phase data input strobe scheme; graphic DDR4 SDRAM; harmonious core operation; internal timing margins; low-jitter fully analog delay-locked loop; multidivided architecture; peak-to-peak jitter characteristics; size 90 nm; stable I-O clock; storage capacity 128 Mbit; storage capacity 512 Mbit; time 31.67 ps; voltage 1.5 V; Circuits; Clocks; Delay; Frequency; Graphics; Jitter; Noise reduction; Random access memory; SDRAM; Timing; Analog delay-locked loop (DLL); SDRAM; dual-clock system; four-phase input strobing; graphic DDR4 (GDDR4);
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2007.906191
