MIT develops a low-power 5G receiver chip to boost battery life, reduce interference, and improve IoT and wearable device performance.

Ignite and FAST-NUCES launch a new training program in Pakistan to equip students with practical skills in IC design and ...

IBM (NYSE: IBM) and RIKEN, a national research laboratory in Japan, today unveiled the first IBM Quantum System Two ever to ...

MIT scientists have built a tiny, ultra-efficient 5G receiver that can thrive in noisy wireless environments ideal for ...

Integrated circuits have evolved from simple microchips to complex, nanoscale marvels, driving advances in computing, ...

03.06.2025 08:36 More efficient circuits for AI and quantum computers Desiree Haak Press & Public Relation Fraunhofer-Institut für Angewandte Optik und Feinmechanik IOF. Lithium niobate has long ...

Photonic Integrated Circuit & Quantum Computing Market. The photonic integrated circuit (PIC) and quantum computing market is poised for exponential growth over the next decade, with its valuation ...

Next generation computer chips ... It’s also difficult to scale them up from small prototypes because large-scale photonic circuits cannot ... Photonic chips would need to be integrated ...

Next generation computer chips could process data at the speed of light – new research. ... It’s also difficult to scale them up from small prototypes because large-scale photonic circuits cannot ...

Tunnel field effect transistors (TFETs) have emerged as one of the most promising post-CMOS transistor technologies. In this paper, we: 1) review the perspectives of such devices for low-power ...

IonQ, a leader in the quantum computing industry, announced today that it is developing photonic integrated circuits and chip-scale ion trap technology for trapped ion quantum computing in ...

Figure 1 | Optical loss and soliton-microcomb generation in LTOI photonic integrated circuits. a, A wafer-scale map of the optical loss across a 4-inch (102 mm) LTOI wafer. MHz, megahertz.