Title :
System-level clock jitter modeling for DDR systems
Author :
Yujeong Shim ; Dan Oh ; Chuan Thim Khor ; Dhavale, Bipin ; Chandra, Swarup ; Chow, Derek ; Weichi Ding ; Chand, Kundan ; Aflaki, Aman ; Sarmiento, Mayra
Author_Institution :
Altera Corp., San Jose, CA, USA
Abstract :
As DDR speed continues to increase, uncorrelated timing jitter becomes a significant portion of channel timing budget. The dominant component of uncorrelated timing jitter comes from power supply noise induced jitter (PSIJ). DDR systems rely on tracking of this jitter between data and strobe signals. Due to inherent 90 degree offset between data and strobe signals, a significant amount of high-frequency jitter is not tracked and depending on the frequency content. In this paper, we analyze the impact of PSIJ for DDR4 systems running at 3.2Gb/s. We first present the jitter modeling methodology of PSIJ including jitter tracking mechanism. Then, we demonstrate the proposed modeling approach by applying to the design of the key DDR timing circuit blocks.
Keywords :
integrated circuit modelling; integrated circuit noise; jitter; power supply circuits; timing circuits; DDR speed; DDR systems; DDR timing circuit blocks; DDR4 systems; PSIJ; bit rate 3.2 Gbit/s; channel timing budget; data signal; dominant component; high-frequency jitter; jitter modeling methodology; jitter tracking mechanism; power supply noise induced jitter; strobe signal; system-level clock jitter modeling; uncorrelated timing jitter; Clocks; Jitter; Noise; Phase locked loops; Power supplies; Regulators; Sensitivity;
Conference_Titel :
Electronic Components and Technology Conference (ECTC), 2013 IEEE 63rd
Conference_Location :
Las Vegas, NV
Print_ISBN :
978-1-4799-0233-0
DOI :
10.1109/ECTC.2013.6575749
