The rapidly increasing Internet data traffic and data centre workload has made energy-efficient
computing critical to the mitigation of carbon emissions from the computation. The large-scale
deployment of IoT requires low energy computing and energy harvesting devices. Building on the
success of the inaugural ICLED, the 2025 conference aims to facilitate exchange of novel
scientific results on all types of low-energy devices related to cloud and edge computing as
well as emerging computing paradigms such as neuromorphic, quantum and reversible computing.
Papers covering materials innovation, device design/fabrication, characterization, simulation,
reliability and emerging device concepts are especially welcome. Although the conference scope
is mainly at the device level of computing hardware, papers on energy efficient circuit and
system architecture are also solicited.
All accepted abstracts can be presented in person or online or as a poster. An in person oral
presentation can be changed to online presentation. Prizes in several categories will be awarded
for outstanding presentations after review by judges.
Non-planar MOSFETs, FinFET, quantum wire-FET, nanosheet FET, negative capacitance FET, tunnel FET, 2D semiconductor materials and FET, field programmable gate array, 3D heterogeneous integration of logic and memory, SRAM, DRAM, NAND Flash (charge trapping), emerging non-volatile memory.
CMOS process compatible qubits, SiMOS, Si/SiGe heterostructures, nanoelectronic circuits for quantum information processing, qubit arrays, quantum logic gates, photonic qubits.
Resistance switching RAM, phase change memory, ferroelectric RAM, magnetic RAM, bio-inspired organic memristive devices, mem transistors, crossbar array, embedded memory, in-memory analog computing, artificial synapses and neural networks, Quantum algorithm, Quantum circuit modeling, quantum
2D Materials, Thermoelectric, piezoelectric, electromagnetic, photovoltaic energy harvesting, transparent/semi-transparent photovoltaic, wearable devices, Nanogenerator.
Electronic waste recycling, Sustainable electronics & smart recycling, End-of-life, circularity, and LCA tools for electronic devices.
Heterogenous, 2D materials, Nanostructure, Quantum dot, perovskite, Optical interconnects, quantum dot LED, high brightness organic LED.
Physical layer and communication theory, Advanced communication networks, Artificial intelligence and machine learning, Distributed computing, Mobile Computing
Power electronics, flexible electronics, Bioelectronics, IoT, circuits, image sensor, optical sensor, magnetic sensor, piezoelectric sensor, ML, actuators, Low-power circuits.
Fibers and wearables represent a fusion of technologyand textiles, enabling smart clothing that monitors health, tracks activity, and enhances comfort. These innovative materials, often embedded with sensors, allow for real-time data collection, making them valuable in fitness, healthcare, and everyday applications, leading to a more connected and informed lifestyle.