tag: 14nm

GF Puts 7nm On Hold
By Mark LaPedus - 27 Aug, 2018 - Comments: 6

GlobalFoundries is putting its 7nm finFET program on hold indefinitely and has dropped plans to pursue technology nodes beyond 7nm. The moves, which mark a major shift in direction for the foundry, involve a headcount reduction of about 5% of its worldwide workforce. At the same time, the company is also moving its ASIC business into a new subsidiary. As a result of GlobalFoundries’ ann... » read more

Changing The Design Flow
By Ed Sperling - 07 Aug, 2018 - Comments: 0

Synopsys’ Michael Jackson talks with Semiconductor Engineering about why it’s becoming necessary to fuse together various pieces of digital design. https://youtu.be/AOWh4wjw-ps » read more

Bridges Vs. Interposers
By Mark LaPedus - 12 Jul, 2018 - Comments: 4

The number of technology options continue to grow for advanced packaging, including new and different ways to incorporate so-called silicon bridges in products. For some time, Intel has offered a silicon bridge technology called Embedded Multi-die Interconnect Bridge (EMIB), which makes use of a tiny piece of silicon with routing layers that connects one chip to another in an IC package. In ... » read more

Five Trends In IC Packaging
By Mark LaPedus - 16 Nov, 2017 - Comments: 0

At one time, chip packaging was an afterthought. Chipmakers were more worried about IC design. Packaging was considered a mere commodity, which was simply used to house the design. More recently, though, chip packaging has become a hot topic. The IC design is still important, but packaging is a key part of the solution. In fact, the industry can go down two paths. The traditional way is t... » read more

Architecture First, Node Second
By Ed Sperling - 15 Jun, 2017 - Comments: 0

What a difference a node makes. A couple of rather important changes have occurred in the move from 16/14 to 10/7nm (aside from more confusing naming conventions). First, companies that require more transistors—processor companies such as [getentity id="22846" e_name="Intel"], AMD, [getentity id="22306" comment="IBM"] and [getentity id="22676" e_name="Qualcomm"]—have come to grips with t... » read more

22nm Process War Begins
By Mark LaPedus - 23 Apr, 2017 - Comments: 1

Many foundry customers at the 28nm node and above are developing new chips and are exploring the idea of migrating to 16nm/14nm and beyond. But for the most part, those companies are stuck because they can’t afford the soaring IC design costs at advanced nodes. Seeking to satisfy a potential gap in the market, [getentity id="22819" comment="GlobalFoundries"], [getentity id="22846" e_name="... » read more

China Unveils Memory Plans
By Mark LaPedus - 19 Jan, 2017 - Comments: 2

Backed by billions of dollars in government funding, China in 2014 launched a major initiative to advance its domestic semiconductor, IC-packaging and other electronic sectors. So far, though, the results are mixed. China is making progress in IC-packaging, but the nation’s efforts to advance its domestic logic and memory sectors are still a work in progress. In fact, China has yet to achi... » read more

Mobile Processors Move Beyond Phones
By Jeff Dorsch - 12 Jan, 2017 - Comments: 0

Mobile processors, also known as application processors, are well-known as the engines that run smartphones, tablet computers, and other wireless devices. But these chips increasingly are finding their way into autonomous vehicles, the Internet of Things, unmanned aerial vehicles, virtual reality, and other applications far beyond phone calls and text messages. Moreover, they are gaining in com... » read more

Multi-Patterning Issues At 7nm, 5nm
By Ed Sperling - 28 Nov, 2016 - Comments: 13

Continuing to rely on 193nm immersion lithography with multiple patterning is becoming much more difficult at 7nm and 5nm. With the help of various resolution enhancement techniques, optical lithography using a deep ultraviolet excimer laser has been the workhorse patterning technology in the fab since the early 1980s. It is so closely tied with the continuation of [getkc id="74" comment="Mo... » read more

Partitioning For Power
By Ed Sperling - 14 Nov, 2016 - Comments: 0

Examine any smartphone design today and most of the electronic circuitry is "off" most of the time. And regardless of how many processor cores are available, it's rare to use more than a couple of those cores at any point in time. The emphasis is shifting, though, as the mobility market flattens and other markets such as driver-assisted vehicles and IoT begin gaining traction. In a car, turn... » read more

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