Stacked Die Changes


Semiconductor Engineering sat down to discuss advanced packaging with David Pan, associate professor in the department of electrical and computer engineering at the University of Texas; Max Min, senior technical manager at [getentity id="22865" e_name="Samsung"]; John Hunt, senior director of engineering at ASE; and Sitaram Arkalgud, vice president of 3D portfolio and technologies at Invensas. ... » read more

Executive Insight: Sundari Mitra


Sundari Mitra, co-founder and CEO of [getentity id="22535" e_name="NetSpeed Systems"], sat down with Semiconductor Engineering to discuss machine learning, shifting from a processor-centric to a memory-centric design, and what needs to change to make that all happen. What follows are excerpts of that conversation. SE: What is the biggest change you’re seeing? Mitra: We go through a cycl... » read more

Plugging Holes In Machine Learning


The number of companies using machine learning is accelerating, but so far there are no tools to validate, verify and debug these systems. That presents a problem for the chipmakers and systems companies that increasingly rely on machine learning to optimize their technology because, at least for now, it creates the potential for errors that are extremely difficult to trace and fix. At the s... » read more

7nm Market Heats Up


The 7nm finFET market is heating up in the foundry business amid the ongoing push to develop chips at advanced nodes. Not long ago, TSMC announced plans to enter the 7nm finFET market. In addition, Intel and Samsung are also separately planning to enter the 7nm finFET race. Now, GlobalFoundries is formally announcing its 7nm finFET technology. Slated for 2018, GlobalFoundries’ 7nm fin... » read more

The Zen Of Processor Design


Mark Papermaster, chief technology officer at Advanced Micro Devices, sat down with Semiconductor Engineering to discuss how to keep improving performance per watt, new packaging options, and the increasing focus on customization for specific tasks. What follows are excerpts of that conversation. SE: As we get more into the IoT and we have to deal with more data, not to mention cars where da... » read more

Stacked Die Changes


Semiconductor Engineering sat down to discuss advanced packaging with David Pan, associate professor in the department of electrical and computer engineering at the University of Texas; Max Min, senior technical manager at [getentity id="22865" e_name="Samsung"]; John Hunt, senior director of engineering at ASE; and Sitaram Arkalgud, vice president of 3D portfolio and technologies at Invensas. ... » read more

Good Filters, Poor Resists


Shrinking feature sizes and more complex lithography schemes are increasing the pressure on all aspects of the lithography process, including resists and resist filtration. As Clint Haris, vice president and general manager for liquid micro contamination control at Entegris explained, fabs are pushing resist manufacturers toward more stringent control of both contaminants and “soft particl... » read more

Cars, Security, and HW/SW Co-Design


Semiconductor Engineering sat down to discuss parallel hardware/software design with Johannes Stahl, director of product marketing, prototyping and FPGA, [getentity id="22035" e_name="Synopsys"]; [getperson id="11411" comment="Bill Neifert"], director of models technology, [getentity id="22186" comment="ARM"]; Hemant Kumar, director of ASIC design, Nvidia; and Scott Constable, senior member of ... » read more

Speeding Up Mask Production


Chip production is becoming more complex and expensive at each node. As a result, chipmakers require a growing number of new manufacturing technologies to enable the next wave of devices at advanced nodes. In the fab, for example, the most obvious need is extreme ultraviolet ([gettech id="31045" comment="EUV"]) lithography. In addition, chipmakers also need a new class of atomic-level proces... » read more

Controlling Heat


Modeling on-chip thermal characteristics and chip-package interactions is becoming much more critical for advanced designs, but how to get there isn't always clear. Every chip, based on its target application, has a thermal design power (TDP) target. This is the typical power it can consume without overreaching the acceptable thermal limits in its intended environment. But in order to rate t... » read more

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