论文信息 - 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

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

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.

[1] H. Fujisawa,et al. 1.8-V 800-Mb/s/pin DDR2 and 2.5-V 400-Mb/s/pin DDR1 compatibly designed 1Gb SDRAM with dual clock input latch scheme and hybrid multi-oxide output buffer , 2004, 2004 Symposium on VLSI Circuits. Digest of Technical Papers (IEEE Cat. No.04CH37525).

[2] Jae-Kyung Wee,et al. A low jitter, fast recoverable, fully analog DLL using tracking ADC for high speed and low stand-by power DDR I/O interface , 2003, 2003 Symposium on VLSI Circuits. Digest of Technical Papers (IEEE Cat. No.03CH37408).

[3] J.G. Maneatis,et al. Low-jitter and process independent DLL and PLL based on self biased techniques , 1996, 1996 IEEE International Solid-State Circuits Conference. Digest of TEchnical Papers, ISSCC.

[4] Yong Ju Kim,et al. A 2.5Gb/s/pin 256Mb GDDR3 SDRAM with Series Pipelined CAS Latency Control and Dual-Loop Digital DLL , 2006, 2006 IEEE International Solid State Circuits Conference - Digest of Technical Papers.

[5] Soo-In Cho,et al. A 512-Mb DDR3 SDRAM prototype with CIO minimization and self-calibration techniques , 2006, VLSIC 2006.

[6] H. Fujisawa,et al. An 8.1-ns Column-Access 1.6-Gb/s/pin DDR3 SDRAM With an 8:4 Multiplexed Data-Transfer Scheme , 2007, IEEE Journal of Solid-State Circuits.