Title :
RTL delay macro-modeling with Vt and Vdd variability
Author :
Koyagi, Tatsuya ; Majzoub, Sohaib ; Fukui, Masahiro ; Saleh, Resve
Author_Institution :
Dept. of VLSI Syst. Design, Ritsumeikan Univ., Siga, Japan
Abstract :
Recent low-power design utilizes a variety of approaches for Vdd and Vt control to reduce dynamic and leakage power. It is important to be able to explore various low-power design options at a high-level early in the design process. Furthermore, process variation is becoming large and greatly affects the power and delay results. In particular, the delay analysis becomes very complicated and time-consuming with existing tools. This paper proposes a new efficient RTL delay macro-model to address these recent problems. The goal is to provide transistor-level accuracy at the RTL level with Vt and Vdd variability. It also includes the ability to handle PVT variations. The validation of the model is demonstrated by comparison with a circuit simulator and a timing verification tool. The experiments show this macro-model predicts the delay for variable Vdd and Vt with an accuracy of ±5% against HSPICE™ and ±10% against PrimeTime™ for a number of ITC´99 benchmark circuits.
Keywords :
circuit simulation; delay circuits; low-power electronics; transistor circuits; PVT variations; RTL delay macromodeling; Vdd variability; Vt variability; circuit simulator; delay analysis; dynamic power reduction; leakage power reduction; low-power design; timing verification tool; transistor-level accuracy; Benchmark testing; Delay; Equations; Integrated circuit modeling; Logic gates; Mathematical model; Threshold voltage;
Conference_Titel :
Design and Test Workshop (IDT), 2011 IEEE 6th International
Conference_Location :
Beirut
Print_ISBN :
978-1-4673-0468-9
Electronic_ISBN :
2162-0601
DOI :
10.1109/IDT.2011.6123114
