In order to realize a digital system with no distinction between “on” and “off,” the computational state must be stored in nonvolatile memory elements. If the energy cost and time cost of managing the computational state in nonvolatile memory can be lowered to the microsecond and picojoule-per-bit level, such a system could operate from unreliable harvested energy, never requiring a reboot. This work presents a nonvolatile D-flip-flop (NVDFF) designed in 0.13-μm CMOS that retains state in ferroelectric capacitors during sporadic power loss. The NVDFF is integrated into an ASIC design flow, and a test-case nonvolatile FIR filter with an accompanying power management unit automatically saves and restores the state based on the status of a one...
To date, most studies focus on complex designs to realize offset cancelation characteristics in nonv...
Power dissipation is a pressing problem for digital semiconductor technology. One promising power-re...
With technology downscaling, static power dissipation presents a crucial challenge to multicore, man...
In order to realize a digital system with no distinction between “on ” and “off, ” computational sta...
Nonvolatile processing-continuously operating a digital circuit and retaining state through frequent...
Nonvolatile processing—continuously operating a digital circuit and retaining state through frequent...
Abstract—Nonvolatile processors offer a number of desirable properties including instant on/off, zer...
Non-volatile memories and flip-flops can improve the energy efficiency in battery-operated devices b...
International audienceThis paper investigates the design architectures for reliable high-yield low o...
The total power budget of Ultra-Low Power (ULP) VLSI Systems-on-Chip (SoCs) is often dominated by th...
The rise of the Internet of Things (IoT) and theconstant growth of portable electronics have leverag...
Batteries have traditionally been used to power embedded electronic devices. However, requirements s...
A RRAM-based non-volatile flip-flop (NVFF) is designed to meet energy efficiency requirement for sta...
We computationally analyzed performance and power-gating (PG) ability of a new nonvolatile delay fli...
Abstract-The introduction of non-volatile elements into stateof-the art computing systems is a promi...
To date, most studies focus on complex designs to realize offset cancelation characteristics in nonv...
Power dissipation is a pressing problem for digital semiconductor technology. One promising power-re...
With technology downscaling, static power dissipation presents a crucial challenge to multicore, man...
In order to realize a digital system with no distinction between “on ” and “off, ” computational sta...
Nonvolatile processing-continuously operating a digital circuit and retaining state through frequent...
Nonvolatile processing—continuously operating a digital circuit and retaining state through frequent...
Abstract—Nonvolatile processors offer a number of desirable properties including instant on/off, zer...
Non-volatile memories and flip-flops can improve the energy efficiency in battery-operated devices b...
International audienceThis paper investigates the design architectures for reliable high-yield low o...
The total power budget of Ultra-Low Power (ULP) VLSI Systems-on-Chip (SoCs) is often dominated by th...
The rise of the Internet of Things (IoT) and theconstant growth of portable electronics have leverag...
Batteries have traditionally been used to power embedded electronic devices. However, requirements s...
A RRAM-based non-volatile flip-flop (NVFF) is designed to meet energy efficiency requirement for sta...
We computationally analyzed performance and power-gating (PG) ability of a new nonvolatile delay fli...
Abstract-The introduction of non-volatile elements into stateof-the art computing systems is a promi...
To date, most studies focus on complex designs to realize offset cancelation characteristics in nonv...
Power dissipation is a pressing problem for digital semiconductor technology. One promising power-re...
With technology downscaling, static power dissipation presents a crucial challenge to multicore, man...