Energy-efficient communication protocol for wireless microsensor networks WR Heinzelman, A Chandrakasan, H Balakrishnan Proceedings of the 33rd annual Hawaii international conference on system …, 2000 | 22316 | 2000 |
An application-specific protocol architecture for wireless microsensor networks WB Heinzelman, AP Chandrakasan, H Balakrishnan IEEE Transactions on wireless communications 1 (4), 660-670, 2002 | 15381 | 2002 |
Digital integrated circuits JM Rabaey, A Chandrakasan, B Nikolic Prentice hall, 2002 | 9977 | 2002 |
Low-power CMOS digital design AP Chandrakasan, S Sheng, RW Brodersen IEICE Transactions on Electronics 75 (4), 371-382, 1992 | 5795 | 1992 |
Physical layer driven protocol and algorithm design for energy-efficient wireless sensor networks E Shih, SH Cho, N Ickes, R Min, A Sinha, A Wang, A Chandrakasan Proceedings of the 7th annual international conference on Mobile computing …, 2001 | 1563 | 2001 |
Minimizing power consumption in digital CMOS circuits AP Chandrakasan, RW Brodersen Proceedings of the IEEE 83 (4), 498-523, 1995 | 1461 | 1995 |
Vibration-to-electric energy conversion S Meninger, JO Mur-Miranda, R Amirtharajah, A Chandrakasan, J Lang Proceedings of the 1999 international symposium on Low power electronics and …, 1999 | 1413 | 1999 |
Dynamic power management in wireless sensor networks A Sinha, A Chandrakasan IEEE Design & Test of Computers 18 (2), 62-74, 2001 | 1127 | 2001 |
{GAZELLE}: A low latency framework for secure neural network inference C Juvekar, V Vaikuntanathan, A Chandrakasan 27th USENIX security symposium (USENIX security 18), 1651-1669, 2018 | 1062 | 2018 |
Design of high-performance microprocessor circuits AP Chandrakasan, WJ Bowhill, F Fox Wiley-IEEE press, 2000 | 1035 | 2000 |
Adaptive body bias for reducing impacts of die-to-die and within-die parameter variations on microprocessor frequency and leakage JW Tschanz, JT Kao, SG Narendra, R Nair, DA Antoniadis, ... IEEE Journal of Solid-State Circuits 37 (11), 1396-1402, 2002 | 1002 | 2002 |
Self-powered signal processing using vibration-based power generation R Amirtharajah, AP Chandrakasan IEEE journal of solid-state circuits 33 (5), 687-695, 1998 | 999 | 1998 |
Upper bounds on the lifetime of sensor networks M Bhardwaj, T Garnett, AP Chandrakasan ICC 2001. IEEE International Conference on Communications. Conference Record …, 2001 | 988 | 2001 |
Sub-threshold design for ultra low-power systems A Wang, BH Calhoun, AP Chandrakasan Springer, 2006 | 957* | 2006 |
A battery-less thermoelectric energy harvesting interface circuit with 35 mV startup voltage YK Ramadass, AP Chandrakasan IEEE Journal of Solid-State Circuits 46 (1), 333-341, 2010 | 768 | 2010 |
A 180-mV subthreshold FFT processor using a minimum energy design methodology A Wang, A Chandrakasan IEEE Journal of solid-state circuits 40 (1), 310-319, 2005 | 766 | 2005 |
Bounding the lifetime of sensor networks via optimal role assignments M Bhardwaj, AP Chandrakasan Proceedings. Twenty-First Annual Joint Conference of the IEEE Computer and …, 2002 | 766 | 2002 |
An efficient piezoelectric energy harvesting interface circuit using a bias-flip rectifier and shared inductor YK Ramadass, AP Chandrakasan IEEE journal of solid-state circuits 45 (1), 189-204, 2009 | 752 | 2009 |
Energy-efficient communication protocol for wireless microsensor networks HW Rabiner IEEE Hawaii International Conference on System Sciences, January 4-7, 2000, 2000 | 706* | 2000 |
Modeling and sizing for minimum energy operation in subthreshold circuits BH Calhoun, A Wang, A Chandrakasan IEEE Journal of Solid-State Circuits 40 (9), 1778-1786, 2005 | 696 | 2005 |