echniques are evaluated for implementing error- correction codes (ECC) in wireless applications with severe power constraints, such as bio-implantable devices and energy harvesting motes. Standard CMOS architectures are surveyed and compared against alternative implementations, including known sub-VT analog decoding techniques. Novel sub-VT digital designs are proposed and their power efficiency is evaluated as a function of operating voltage and clock frequency. Sub- VT implementation is predicted to offer 29× gain in power consumption for a (3,6) LDPC decoder of length N = 512 operating at a throughput of 200Mbps, compared to standard digital implementation of the same design
ABSTRACT: Emerging microsystems such as portable and implantable medical electronics, wireless micro...
Emerging microsystems such as portable and implantable medical electronics, wireless microsensors an...
Voltage scaling is one of the most effective and straightforward means for CMOS digital circuit’s en...
In baseband digital signal processing, dynamic voltage scaling is an effective method to reduce the ...
Abstract—This paper proposes a design methodology for volt-age overscaling (VOS) of ultra-low-power ...
International audienceAnalog implementations of digital error control decoders, generally referred t...
On-chip interconnects in very deep submicrometer technology are becoming more sensitive and prone to...
On-chip interconnects in very deep submicrometer technology are becoming more sensitive and prone to...
Technology being ever-changing holds large demand for ultra-low power circuits. Transistors operatin...
A flexible and scalable LDPC decoder architecture is developed for the IEEE 802.11n standard. A seri...
Abstract—Design of low-energy communications systems requires atten-tion to power consumption in the...
The promise of chip-wide asynchronous operation is its potential for very low power consumption. Thi...
Nowadays, energy-efficiency is becoming more and more a decisive parameter for digital systems, driv...
The ever expanding market of ultra portable electronic products is compelling the designer to invest...
Low-Density Parity Check (LDPC) codes are viewed as one of the best error correction coding (ECC) me...
ABSTRACT: Emerging microsystems such as portable and implantable medical electronics, wireless micro...
Emerging microsystems such as portable and implantable medical electronics, wireless microsensors an...
Voltage scaling is one of the most effective and straightforward means for CMOS digital circuit’s en...
In baseband digital signal processing, dynamic voltage scaling is an effective method to reduce the ...
Abstract—This paper proposes a design methodology for volt-age overscaling (VOS) of ultra-low-power ...
International audienceAnalog implementations of digital error control decoders, generally referred t...
On-chip interconnects in very deep submicrometer technology are becoming more sensitive and prone to...
On-chip interconnects in very deep submicrometer technology are becoming more sensitive and prone to...
Technology being ever-changing holds large demand for ultra-low power circuits. Transistors operatin...
A flexible and scalable LDPC decoder architecture is developed for the IEEE 802.11n standard. A seri...
Abstract—Design of low-energy communications systems requires atten-tion to power consumption in the...
The promise of chip-wide asynchronous operation is its potential for very low power consumption. Thi...
Nowadays, energy-efficiency is becoming more and more a decisive parameter for digital systems, driv...
The ever expanding market of ultra portable electronic products is compelling the designer to invest...
Low-Density Parity Check (LDPC) codes are viewed as one of the best error correction coding (ECC) me...
ABSTRACT: Emerging microsystems such as portable and implantable medical electronics, wireless micro...
Emerging microsystems such as portable and implantable medical electronics, wireless microsensors an...
Voltage scaling is one of the most effective and straightforward means for CMOS digital circuit’s en...