AI: The Next Big Thing


The next big thing isn't actually a thing. It's a set of finely tuned statistical models. But developing, optimizing and utilizing those models, which collectively fit under the umbrella of artificial intelligence, will require some of the most advanced semiconductors ever developed. The demand for artificial intelligence is almost ubiquitous. As with all "next big things," it is a horizonta... » read more

DSA Re-Enters Litho Picture


By Mark LaPedus and Ed Sperling Directed self-assembly (DSA) is moving back onto the patterning radar screen amid ongoing challenges in lithography. Intel continues to have a keen interest in [gettech id="31046" t_name="DSA"], while other chipmakers are taking another hard look at the technology, according to multiple industry sources. DSA isn't like a traditional [getkc id="80" kc_name="... » read more

Exponentials At The Edge


The age of portable communication has set off a scramble for devices that can achieve almost anything a desktop computer could handle even five years ago. But this is just the beginning. The big breakthrough with mobile devices was the ability to combine voice calls, text and eventually e-mail, providing the rudiments of a mobile office-all on a single charge of a battery that was light enou... » read more

Survey: Optimism Grows for EUV


The optimism is growing for extreme ultraviolet (EUV) lithography in the market, according to a pair of new surveys released by the eBeam Initiative, which also revealed some new and surprising data about mask writing tools and other photomask technology. In one of the surveys from the [getentity id="22818" e_name="eBeam Initiative"], respondents revealed that they are more optimistic than e... » read more

Is 7nm The Last Major Node?


A growing number of design and manufacturing issues are prompting questions about what scaling will really look like beyond 10/7nm, how many companies will be involved, and which markets they will address. At the very least, node migrations will go horizontally before proceeding numerically. There are expected to be more significant improvements at 7nm than at any previous node, so rather th... » read more

Inside Lithography And Masks


Semiconductor Engineering sat down to discuss lithography and photomask technologies with Gregory McIntyre, director of the Advanced Patterning Department at [getentity id="22217" comment="IMEC"]; Harry Levinson, senior fellow and senior director of technology research at [getentity id="22819" comment="GlobalFoundries"]; David Fried, chief technology officer at [getentity id="22210" e_name="Cov... » read more

The Evolution Of EUV


EUV systems are beginning to ship to large foundries in volume, setting the stage for one of the biggest leaps in technology the semiconductor industry has ever witnessed. ASML has emerged as the sole supplier in this market, but it has taken an entire ecosystem to develop EUV. It has taken billions of dollars of investment by ASML, along with enormous cash infusions by Intel and TSMC, contr... » read more

Optimizing DRAM Development Using Directed Self-Assembly (DSA)


Directed Self-Assembly (DSA) is an emerging technology that has the ability to substantially improve lithographic manufacturing of semiconductor devices. In DSA, copolymer materials self-assemble to form nanoscale resolution patterns on the semiconductor substrate. DSA technologies hold the promise to substantially improve the resolution of existing lithographic processes (such as self-aligned ... » read more

Big Changes In Patterning


Aki Fujimura, CEO of [getentity id="22864" comment="D2S"], sat down with Semiconductor Engineering to discuss patterning issues at 10nm and below, including mask alignment, the need for GPU acceleration, EUV's future impact on the total number of masks, and what the re-introduction of curvilinear shapes will mean for design. SE: Patterning issues are getting a lot of attention at 10nm and 7n... » read more

Why EUV Is So Difficult


For years, extreme ultraviolet (EUV) lithography has been a promising technology that was supposed to help enable advanced chip scaling. But after years of R&D, EUV is still not in production despite major backing from the industry, vast resources and billions of dollars in funding. More recently, though, [gettech id="31045" comment="EUV"] lithography appears to be inching closer to pos... » read more

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