Real-Time Instruction-Cycle-Based Dynamic Voltage Scaling (iDVS) Power Management for Low-Power Digital Signal Processor (DSP) with 53% Energy Savings

Title:	Real-Time Instruction-Cycle-Based Dynamic Voltage Scaling (iDVS) Power Management for Low-Power Digital Signal Processor (DSP) with 53% Energy Savings
Authors:	Peng, Shen-Yu Lee, Yu-Huei Wu, Chun-Hsien Huang, Tzu-Chi Chen, Ke-Horng Lin, Ying-Hsi Lee, Chao-Cheng Huang, Chen-Chih Yeh, Ching-Yuan Chen, Yu-Wen Liang, Chao-Chiun Ho, Chang-An Yu, Tun-Hao 交大名義發表 National Chiao Tung University
Keywords:	Fast transient;dynamic voltage scaling buck converter;SoC;low power design
Issue Date:	2012
Abstract:	this paper presents an instruction-cycle-based dynamic voltage scaling (iDVS) power management strategy for a low-power processor design. The iDVS technique is fully compatible with conventional DVS scheduler algorithms. Furthermore, an additional iDVS design flow embedded in the standard cell lib flow is proposed to implement the iDVS-based DSP. In addition, the fast-response bidirectional asynchronous wave-pipeline (BAWP) digital low-dropout (LDO) regulator is also presented to improve the iDVS performance. The iDVS-based DSP chip implemented in an HH-NEC 0.18 mu m standard CMOS process demonstrates 53% energy savings over that without the iDVS technique.
URI:	http://hdl.handle.net/11536/134774
ISBN:	978-1-4673-2771-8
Journal:	2012 IEEE Asian Solid State Circuits Conference (A-SSCC)
Begin Page:	377
End Page:	380
Appears in Collections:	Conferences Paper