This paper introduces power failure immunity (PFI), an essential program execution property
for energy harvesting systems to achieve efficient intermittent computation. PFI ensures …

Energy harvesting systems have emerged as an alternative to battery-operated Internet of
Things (IoT) devices. To deal with frequent power outages in the absence of battery, energy …

Internet-of-Things (IoT) devices are becoming both intelligent and green. On the one hand,
Deep Neural Network (DNN) compression techniques make it possible to run deep learning …

Intermittent systems enable batteryless devices to operate through energy harvesting by
leveraging the complementary characteristics of volatile (VM) and non-volatile memory …

Developing toward battery-less, energy-harvesting designs is a promising direction for
sensor-scale devices. The recent introduction of byte-addressable, nonvolatile memory …

Program execution on intermittently powered Internet-of-Things (IoT) devices must ensure
forward progress in the presence of frequent power failures. A general solution is intermittent …

A truly ubiquitous, planet-wide Internet of Things requires ultra-low-power, long-lasting
sensor nodes at its core so that it can be practically utilized in real-world scenarios without …

Internet of Things (IoT) devices are gradually adopting battery-less, energy harvesting
solutions, thereby driving the development of an intermittent computing paradigm to …

Energy harvesting promises to power billions of Internet of Things devices without being
restricted by battery life. Since the energy harvester generally outputs weak and unstable …

Dynamic power management (DPM) reduces the power consumption of a computing system
when it idles, by switching the system into a low power state for hibernation. When all …