category: Piecing It Together

category: IoT, Security & Automotive

Materials, Software And Techniques
By Ed Sperling - 26 Jul, 2013 - Comments: 0

The future of advanced semiconductor technology is about to split evenly into three different areas. On the leading edge of manufacturing, Applied Materials CEO Mike Splinter called it correctly—it’s all about materials. Just shrinking features isn’t buying much anymore. In fact, at advanced nodes, with extra margin built into designs, it frequently doesn’t buy anything except extra ... » read more

Changes And Challenges
By Ed Sperling - 18 Jul, 2013 - Comments: 0

At 130nm, the shift to copper interconnects and 300mm wafer sizes was considered to be the most difficult transition in its long and incredibly efficient history. The next chapter will be even tougher. It’s not that change is a foreign concept to semiconductor design and manufacturing. In fact, it’s probably the only constant over the past 50 years. But in the past, those changes tended ... » read more

Marching Orders
By Ed Sperling - 20 Jun, 2013 - Comments: 0

Reports back from the front lines of Moore’s Law are rather consistent—14nm and 16nm finFETs are do-able, but they’re not easy to design, verify or manufacture. In fact, the only high-volume source of production-proven finFETs at this point is Intel, which is turning them out at 22nm. A number of issues are cropping up at the most advanced nodes, and while each is ultimately solvable, ... » read more

Bigger Wafers, Bigger Risk
By Ed Sperling - 16 May, 2013 - Comments: 0

At 22/20/16/14nm the semiconductor industry is experiencing a rather new twist on Moore’s Law. Smaller, as in smaller feature sizes, is no longer assumed to be cheaper—or at least not for everyone. In fact, the cost per transistor for the first time in more than half a century could rise in some cases. Whether this outlook improves as the semiconductor industry gains more experience wit... » read more

Supply Chain Catch-Up
By Ed Sperling - 18 Apr, 2013 - Comments: 0

There always will be a few big companies marching to the latest process node available to them. The problem these days isn’t their commitment to pushing forward. It’s the baggage train following them. It’s getting longer, more diverse, and in some cases, it’s falling out of sync. The foundries are out in front with 14nm finFETs, and they’re already working on 10nm transistors—pos... » read more

Breakthroughs Required
By Ed Sperling - 21 Mar, 2013 - Comments: 0

Linear progressions have a hypnotic effect on even the smartest people. They lull everyone into thinking that progress—or at least a progression—is a straight line, with little or no recognition that things are changing around the edges. The periphery is definitely changing, though. And over the next couple of process nodes, the semiconductor manufacturing industry either will have to fi... » read more

Making The Right Choices
By Ed Sperling - 21 Feb, 2013 - Comments: 0

FD-SOI at 28nm, or finFETs at 20/14nm? To companies looking at the cost equation, the total market opportunity for SoCs and the NRE required to get there, this is still a manageable formula. It requires lots of number crunching and some unknowns, but by the time you get done with the math it still falls within an acceptable margin of error and the choices are relatively simple. For foundries... » read more

Fixing The Supply Chain
By Ed Sperling - 24 Jan, 2013 - Comments: 0

For all the promise and subsequent anxiety about moving to the next process node or stacking die, the real problem isn’t technology. It isn’t even cost per transistor. It’s who will take responsibility when something goes wrong. Notice the word “when” rather than “if.” Rising complexity means that chips no longer can be fully verified, so errors are a given. Some errors are wor... » read more

Upping The Ante
By Ed Sperling - 13 Dec, 2012 - Comments: 0

The increasing number of research projects under way to solve many of the thorniest issues in the history of semiconductor design and manufacturing are a testament to just how tough the job has become. Never before have there been so many technological roadblocks at the same time—and so many potential options for solving them. Those challenges—or opportunities, as marketing execs like to... » read more

The Search For New Materials
By Ed Sperling - 15 Nov, 2012 - Comments: 0

It makes sense that the first chips were built out of silicon. It’s hard to think of a more abundant material than sand, or one that’s so easily accessible in so many places. It’s like building the first homes out of earthen bricks. There was never a shortage of materials. Even aluminum and copper for the wires and interconnects in these chips are readily available, despite the rising ... » read more

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