1xnm DRAM Challenges


At a recent event, Samsung presented a paper that described how the company plans to extend today’s planar DRAMs down to 20nm and beyond. This is an amazing feat. Until very recently, most engineers believed DRAMs would stop scaling at 20nm or so. Instead, Samsung is ramping up the world’s most advanced DRAMs—a line of 20nm parts—with plans to go even further. Micron and SK Hynix soo... » read more

The Week In Review: Manufacturing


Qualcomm recently announced the new Snapdragon 820. The cell-phone chipset is based on Samsung Electronics’ new 14nm LPP (Low-Power Plus) process, the second-generation of the company’s 14nm finFET process technology. What’s next? Qualcomm is developing the Snapdragon 830. “Snapdragon 830 leaks indicate that the chip will sport 8GB of RAM, an enhanced Kryo custom architecture, and fabbe... » read more

5nm Fab Challenges


At a recent event, Intel presented a paper that generated sparks and fueled speculation regarding the future direction of the leading-edge IC industry. The company described a next-generation transistor called the nanowire FET, which is a finFET turned on its side with a gate wrapped around it. Intel’s nanowire FET, sometimes called a gate-all-around FET, is said to meet the device require... » read more

Overview Of Atomic Layer Etching In The Semiconductor Industry


Atomic layer etching (ALE) is a technique for removing thin layers of material using sequential reaction steps that are self-limiting. ALE has been studied in the laboratory for more than 25 years. Today, it is being driven by the semiconductor industry as an alternative to continuous etching and is viewed as an essential counterpart to atomic layer deposition. As we enter the era of atomic-sca... » read more

Will 5nm Happen?


Chipmakers are ramping up their 16/14nm finFET processes, with 10nm finFETs expected to ship sometime in late 2016 or early 2017. So what’s next? The foundries can see a path to extend the finFET transistor to 7nm, but the next node, 5nm, is far from certain and may never happen. Indeed, there are several technical and economic challenges at 5nm. And even if 5nm happens, only a few compani... » read more

Blog Review: Jan. 13


Is it time for one of the Seven Wonders to return? In this week's top engineering and tech picks, Ansys' Justin Nescott highlights a project to rebuild the Colossus of Rhodes. Plus, new tech for cars and a hoodie for taking naps. From CES, Rambus' Aharon Etengoff expands on a talk about intelligent transportation systems and the need to balance technology which could help reduce accidents wi... » read more

Fab Tool Biz Looks Cloudy


Amid a slowdown in the foundry and DRAM sectors, the outlook for the semiconductor equipment industry looks somewhat cloudy, if not challenging, in 2016. In fact, for equipment vendors, 2016 could resemble the lackluster year in 2015. In 2015, for example, capital spending in the foundry sector fell during the year, although NAND flash began to pick up steam. In 2015, though, the big stor... » read more

Rise Of The Old Fab


Growth in the [getkc id="260" comment="Internet of Everything"], along with the beginning of a shift toward systems in package, are creating buzz in a rather unlikely place—established and well-worn process nodes where equipment is scarce, semi-functional, and difficult to maintain. In the past, moving to the next node was a sign of progress, leaving behind the trailing edge of designs to ... » read more

Foundries Face Challenges in 2016


Generally, 2015 has been a challenging year in the foundry business. For one thing, the foundry industry will register modest growth in 2015. In addition, the foundry customer base is consolidating. And on the leading edge, foundries took longer than expected to ramp up their 16nm/14nm finFET processes. So, after an eventful year in 2015, what’s in store for the foundry business in 2016? I... » read more

Can Nano-Patterning Save Moore’s Law?


For years the academic community has explored a novel technology called selective deposition. Then, more than a year ago, Intel spearheaded an effort to bring the technology from the lab to the fab at 7nm or 5nm. Today, selective deposition is still in R&D, but it is gaining momentum in the industry. With R&D funding from Intel and others, selective deposition, sometimes called ALD-e... » read more

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