tag: 5nm

What EDA’s Big 3 Think Now
By Ed Sperling - 23 Apr, 2015 - Comments: 0

In the past two months the CEOs of Cadence, Synopsys and Mentor Graphics delivered their annual high-level messages to their respective user groups. Semiconductor Engineering attended all of the speeches at these conferences, as it did in 2014 (see story here). From a high level, the big issues for CEOs last year were Moore's Law, the costs of design, the impact of low power, and business-... » read more

Less Moore Means More Intelligence
By Brian Bailey - 23 Apr, 2015 - Comments: 3

It would seem as if the entire industry is flooding the forums with articles about [getkc id="74" comment="Moore's Law"], as it reaches its 50th birthday (April 19th) and that this represents the longest and most important exponential in the history of man. The numbers and that impact are everywhere and I do not intend to repeat them. There are lots of articles talking about when Moore’s law ... » read more

Big Changes At 10nm And Beyond
By Ed Sperling - 16 Apr, 2015 - Comments: 0

The move to 16/14nm finFETs is relatively straightforward. The move to 10nm and 7nm will be quite different. While double patterning with colors at 16/14nm has a rather steep learning curve, reports from chipmakers developing advanced chips is the technology and methodologies are manageable once engineering teams begin working with it. The hardest part is visualizing how different parts will... » read more

New Patterning Paradigm?
By Mark LaPedus - 16 Apr, 2015 - Comments: 0

Chip scaling is becoming more difficult at each process node, but the industry continues to find new and innovative ways to solve the problems at every turn. And so chipmakers continue to march down the various process nodes. But the question is for how much longer? In fact, at 16nm/14nm and beyond, chipmakers are finding new and different challenges, which, in turn, could slow IC scaling or br... » read more

Next EUV Challenge: Mask Inspection
By Mark LaPedus - 16 Apr, 2015 - Comments: 2

Extreme ultraviolet ([gettech id="31045" comment="EUV"]) lithography is still not ready for prime time, but the technology finally is moving in the right direction. The EUV light source, for example, is making progress after years of delays and setbacks. Now, amid a possible breakthrough in EUV, the industry is revisiting a nagging issue and asking a simple question: How do you inspect EUV p... » read more

How We’ll Get There from Here
By Brian Fuller - 09 Apr, 2015 - Comments: 0

The electronics industry is like a battleship with remarkable handling properties. I thought about it this week sitting at an industry event a day after stumbling across Neptune—the technology project, not the god. Those two experiences forced me to rethink some fundamental assumptions about system design and how the ecosystem responds to change. If you’ve not heard of Neptune, it�... » read more

Issues And Options At 5nm
By Mark LaPedus - 19 Mar, 2015 - Comments: 0

While the foundries are ramping up their processes for the 16nm/14nm node, vendors are also busy developing technologies for 10nm and beyond. In fact, chipmakers are finalizing their 10nm process offerings, but they are still weighing the technology options for 7nm. And if that isn’t enough, IC makers are beginning to look at the options at 5nm and beyond. Today, chipmakers can see a p... » read more

One-On-One: Dave Hemker
By Mark LaPedus - 19 Feb, 2015 - Comments: 0

Semiconductor Engineering sat down to discuss process technology, transistor trends and other topics with Dave Hemker, senior vice president and chief technology officer at [getentity id="22820" comment="LAM Research"]. SE: On the technology front, the IC industry is undergoing some new and dramatic changes. What are some of those changes? Hemker: We focus on what we call the inflections.... » read more

Still Waiting For III-V Chips
By Mark LaPedus - 19 Feb, 2015 - Comments: 0

For years, chipmakers have been searching for an alternative material to replace traditional silicon in the channel for advanced CMOS devices at 7nm and beyond. There’s a good reason, too: At 7nm, silicon will likely run out of steam in the channel. Until recently, chipmakers were counting on III-V materials for the channels, at least for NFET. Compared to silicon, III-V materials provide ... » read more

Darker Silicon
By Katherine Derbyshire - 29 Jan, 2015 - Comments: 0

For the last several decades, integrated circuit manufacturers have focused their efforts on [getkc id="74" comment="Moore's Law"], increasing transistor density at constant cost. For much of that time, Dennard’s Law also held: As the dimensions of a device go down, so does power consumption. Smaller transistors ran faster, used less power, and cost less. As most readers already know, howe... » read more

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