Multi-Die Packaging Gains Steam


By Herb Reiter Many readers will be familiar with my extensive background and focus in the emerging field of 3D IC technology, including both 3D stacked die and 2.5 interposer design flows. Now, I am excited to bring my expertise and passion to Silicon Integration Initiative (Si2), where I am now Director of 3D Programs, helping Si2’s members in the Open3D Technical Advisory Board develop pr... » read more

More Than Moore


Semiconductor Engineering sat down to discuss the value of feature shrinks and what comes next with Steve Eplett, design technology and automation manager at [getentity id="22664" e_name="Open-Silicon"]; Patrick Soheili, vice president and general manager of IP Solutions at [getentity id="22242" e_name="eSilicon"]; Brandon Wang, engineering group director at [getentity id="22032" e_name="Cadenc... » read more

Which Comes First?


Methodologies in IC design typically follow tools. The tools enable the methodologies, and chipmakers' businesses are built around both of them. That has been the rock-solid foundation for the design and production of chips since well before the impenetrable 1-micron wall. But that approach is falling apart at 28nm, and it will continue to crumble at 16/14nm and 10nm. It simply isn't fast en... » read more

Why Multi-Die Integration Really Is On Its Way


Admit it. You’ve heard a lot about 3D IC’s for years now, and it’s starting to get old. Lots of talk but not much action, you say? Maybe it will never happen, you say? Well, perhaps it’s time to reassess the current situation, reevaluate emerging needs, and reset our “3D” paradigm for the coming multi-die imperative. The problems associated with 3D IC (stacked die) are real and v... » read more

Why Investments At Advanced Nodes Matter


Despite all the talk about rising costs of development, uncertainties about lithography and talk about the death of Moore’s Law, a record number of companies are developing chips at 16nm/14nm. That may sound surprising, but asking why that’s happening is probably the wrong question. The really critical question is what they’re going to do with those chips. What’s become quite evident... » read more

More Than Moore


Semiconductor Engineering sat down to discuss the value of feature shrinks and what comes next with Steve Eplett, design technology and automation manager at [getentity id="22664" e_name="Open-Silicon"]; Patrick Soheili, vice president and general manager of IP Solutions at [getentity id="22242" e_name="eSilicon"]; Brandon Wang, engineering group director at [getentity id="22032" e_name="Cadenc... » read more

Limiters To The Internet Of Things


“Specialization is for insects.” Robert A. Heinlein, Time Enough for Love In many respects, the [getkc id="76" kc_name="Internet of Things"] (IoT) is already here. But because most of it is not directed at the consumer space, it seamlessly blends into the environment, unnoticed by everyone except for those who are reaping the benefits of it. When we talk about the IoT, most people concentr... » read more

More Problems Ahead


Semiconductor Engineering sat down to discuss future scaling problems with Lars Liebmann, a fellow at IBM; Adam Brand, managing director of transistor technology at Applied Materials; Karim Arabi, vice president of engineering at Qualcomm; and Srinivas Banna, a fellow for advanced technology architecture at GlobalFoundries. SE: Where are the most severe issues these days? Is it on the design... » read more

Stacked Die Politics, Technology And Tools


The path to stacking die may look fairly straightforward, but reality is somewhat different. There is a battle raging between foundries and OSATs over who will actually stack and package the die. There is new technology being created that could change the economics of how these die go together. And there is debate about just how ready the tools are to make all of this happen. All of this is ... » read more

Different Approaches Emerge For Stacking Die


The concept of stacking die to shorten wires, improve performance, and reduce the amount of energy required to drive signals has been in research for at least the past dozen years at both IBM and Intel. And depending upon whom you ask, it could be another 2 to 10 years before it becomes a mainstream packaging approach—if it happens at all. At least part of the confusion stems from how you ... » read more

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