Week In Review: Design, Low Power


Intel released Tunnel Falls, its newest quantum research chip, to quantum computing researchers interested in using the 12-qubit silicon chip for their own experiments and research.  Intel is also providing the chips to research laboratories, with help from LQC (LPS Qubit Collaboratory) through the Army Research Office. The first labs to receive the chip are LPS, Sandia National Laboratories, ... » read more

The Next Chip Shortages?


The rollout of chiplets and heterogeneous designs could have unexpected implications on a global scale, creating a whole new round of chip shortages that will be much harder to fix. It's impossible to say for certain what will happen here in the wake of massive changes in chip design and a fluid and unpredictable geopolitical situation. The trade war between the United States and China began... » read more

193i Lithography Takes Center Stage…Again


Cutting-edge lithography to create smaller features increasingly is being supplemented by improvements in lithography for mature process nodes, both of which are required as SoCs and complex chips are decomposed and integrated into advanced packages. Until the 7nm era, the primary goal of leading-edge chipmakers was to pack everything onto a single system-on-chip (SoC) using the same process... » read more

Smart Manufacturing Makes Gains In Chip Industry


Lights out manufacturing is gaining steam across the semiconductor industry, accelerating productivity, improving quality, and reducing costs and environment impact. These benefits are the result of years of strategic investments in technologies like machine-to-machine communication, data analytics, and robotics to achieve higher levels of autonomy. Semiconductor factories have long depen... » read more

High-Density Fan-Out Packaging With Fine Pitch Embedded Trace RDL


The needs of high-performance devices for artificial intelligence (AI), high performance computing (HPC) and data center applications have drastically accelerated during the Covid-19 pandemic period. At the same time, the integrated circuit (IC) industry struggles to minimize the silicon technology node to satisfy the endless requirements of computing performance within tight cost constraints. ... » read more

Improving DRAM Device Performance Through Saddle Fin Process Optimization


As DRAM technology nodes have scaled down, access transistor issues have been highlighted due to weak gate controllability. Saddle Fins with Buried Channel Array Transistors (BCAT) have subsequently been introduced to increase channel length, prevent short channel effects, and increase data retention times [1]. However, at technology nodes beyond 20nm, securing sufficient device performance (su... » read more

A Technical Guide To Selecting A Photosensitive Permanent Bonding Material


A photosensitive permanent bonding material enables the creation of high-quality permanent bonds between dissimilar materials used in the creation of MEMS and sensors. Having a thorough understanding of the materials and product performance is crucial to the success of the end application. In this article, we explore nine criteria used to evaluate a polymeric photosensitive permanent bonding ma... » read more

Will CFETs Help The Industry Go Vertical?


Device scaling is getting much harder at each new process node. Even defining what it means is becoming a challenge. In the past, gate length and metal pitch went down and device density went up. Today, this is much harder for several reasons: • Short channel effects limit gate-length scaling; • Parasitic effects limit device density, and • Metal resistance limits metal pitch. So r... » read more

A New Class Of Actuators Mimicking Human Muscle


Developing robots with human-like muscles that produce autonomous movement is not possible using traditional rigid, high-voltage electronics. However, recent research funded by FlexTech, a SEMI Technology community, shows promise in incorporating microcircuits to do just that by directly controlling and operating HASEL actuators. The innovation could guide intelligent, goal-oriented robots in ... » read more

SB MOSFET-Based Ultra-Low Power Real-Time Neurons for Neuromorphic Computing (Indian Institute of Technology)


A technical paper titled “Schottky Barrier MOSFET Enabled Ultra-Low Power Real-Time Neuron for Neuromorphic Computing” was published by researchers at the Indian Institute of Technology (IIT) Bombay. Abstract: "Energy-efficient real-time synapses and neurons are essential to enable large-scale neuromorphic computing. In this paper, we propose and demonstrate the Schottky-Barrier MOSFE... » read more

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