Title :
Architecture of a low-power FPGA based on self-adaptive voltage control
Author :
Ishihara, Shota ; Xia, Zhengfan ; Hariyama, Masanori ; Kameyama, Michitaka
Author_Institution :
Grad. Sch. of Inf. Sci., Tohoku Univ., Sendai, Japan
Abstract :
This paper presents a low-power FPGA with multiple supply voltages. In the proposed FPGA, the supply voltage of each logic block is self-adaptive to the workload, data path and temperature to minimize the power consumption without system performance degradation. In the self-adaptive voltage control scheme, features of the asynchronous architecture are exploited. The data arrival of the asynchronous architecture can be easily detected by detecting the change of the data´s phase. By exploiting this feature, the critical path can be detected in real time. Logic blocks on the non-critical path are autonomously switched to a lower supply voltage to reduce the power consumption.
Keywords :
CMOS logic circuits; SPICE; adaptive control; asynchronous circuits; field programmable gate arrays; logic design; low-power electronics; voltage control; CMOS; HSPICE; asynchronous architecture data arrival; critical path; data path; logic block; low-power FPGA; multiple supply voltages; noncritical path; power consumption; self-adaptive voltage control; Clocks; Dynamic voltage scaling; Energy consumption; Field programmable gate arrays; Frequency; Logic; Phase detection; Switches; System performance; Voltage control; Asynchronous architecture; Dynamic voltage and frequency scaling; Multiple voltages; Reconfigurable VLSI;
Conference_Titel :
SoC Design Conference (ISOCC), 2009 International
Conference_Location :
Busan
Print_ISBN :
978-1-4244-5034-3
Electronic_ISBN :
978-1-4244-5035-0
DOI :
10.1109/SOCDC.2009.5423801
