The Race To 10/7nm


Amid the ongoing ramp of 16/14nm processes in the market, the industry is now gearing up for the next nodes. In fact, GlobalFoundries, Intel, Samsung and TSMC are racing each other to ship 10nm and/or 7nm technologies. The current iterations of 10nm and 7nm technologies are scaled versions of today’s 16nm/14nm finFETs with traditional copper interconnects, high-k/metal-gate and low-k diele... » read more

Moore’s Law: Toward SW-Defined Hardware


Pushing to the next process node will continue to be a primary driver for some chips—CPUs, FPGAs and some ASICS—but for many applications that approach is becoming less relevant as a metric for progress. Behind this change is a transition from using customized software with generic hardware, to a mix of specialized, heterogeneous hardware that can achieve better performance with less ene... » read more

22nm Process War Begins


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

Moore’s Law: A Status Report


Moore's Law has been synonymous with "smaller, faster, cheaper" for the past 52 years, but increasingly it is viewed as just one of a number of options—some competing, some complementary—as the chip industry begins zeroing in on specific market needs. This does not make [getkc id="74" comment="Moore's Law"] any less relevant. The number of companies racing from 16/14nm to 7nm is higher t... » read more

HBM Upstages DDR In Bandwidth, Power


For graphics, networking, and high performance computing, the latest iteration of high-bandwidth memory (HBM) continues to rise up as a viable contender against conventional DDR, GDDR designs, and other advanced memory architectures such as the Hybrid Memory Cube. [getkc id="276" kc_name="HBM"] enables lower power consumption per I/O and higher bandwidth memory access with a more condensed f... » read more

The Great Machine Learning Race


Processor makers, tools vendors, and packaging houses are racing to position themselves for a role in machine learning, despite the fact that no one is quite sure which architecture is best for this technology or what ultimately will be successful. Rather than dampen investments, the uncertainty is fueling a frenzy. Money is pouring in from all sides. According to a new Moor Insights report,... » read more

China: Fab Boom or Bust?


China’s semiconductor industry continues to expand at a frenetic pace. At present there are nearly two dozen new fab projects in China. Whether all these fab projects get off the ground is not entirely clear because the dynamics in China remain fluid. What is clear is the motivation behind this building frenzy—China is trying to reduce its huge trade imbalance in ICs. The country continu... » read more

What Does An AI Chip Look Like?


Depending upon your point of reference, artificial intelligence will be the next big thing or it will play a major role in all of the next big things. This explains the frenzy of activity in this sector over the past 18 months. Big companies are paying billions of dollars to acquire startup companies, and even more for R&D. In addition, governments around the globe are pouring additional... » read more

Antenna Design Grows Up


Apple’s iPhone 4 antenna issue represents a classic example of what can go wrong in modern antenna design. Put one in the wrong place, and a seemingly insignificant part can turn a cool new product into a public relations nightmare. Ever since antennas dropped out of sight, most consumers don't give them a second thought. In the 1960s, almost every home had a rooftop antenna. Fast forward ... » read more

Battling Fab Cycle Times


The shift from planar devices to finFETs enables chipmakers to scale their processes and devices from 16nm/14nm and beyond, but the industry faces several challenges at each node. Cost and technical issues are the obvious challenges. In addition, cycle time—a key but less publicized part of the chip-scaling equation—also is increasing at every turn, creating more angst for chipmakers and... » read more

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