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Posts Tagged ‘IHS’

Solid State Watch: July 24-30, 2015

Thursday, July 30th, 2015
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Solid State Watch: June 19-25, 2015

Friday, June 26th, 2015
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Solid State Watch: March 13-19, 2015

Friday, March 20th, 2015
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Solid State Watch: November 14-20, 2014

Tuesday, November 25th, 2014
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The Week in Review: August 1, 2014

Friday, August 1st, 2014

Semiconductors providing wireless connectivity in health and fitness devices are set for solid double-digit growth in 2014 and beyond, especially as a clutch of wireless technologies make their way into a growing number of wearable devices, according to a new report from IHS Technology.

This week, IBM reported that its NXE3300B scanner, at the EUV Center of Excellence in Albany, recently completed a 40 Watt EUV light source upgrade.  The upgrade resulted in better than projected performance with 44W of EUV light being measured at intermediate focus and confirmed in resist at the wafer level.  In the first 24 hours of operation after the upgrade six hundred thirty seven wafer exposures were completed in normal production lot mode. Vivek Bakshi of EUV Litho, Inc. said that this is a watershed moment for EUV as it establishes the benchmark capability of the EUV source and scanner to support semiconductor technology node development.

Cambridge Nanotherm, a producer of semiconductor heatsink technology, this week announced that it has appointed semiconductor industry veteran Ralph Weir as its CEO. This follows just a few months after news of the initiation of its first production line, allowing the company to roll out its advanced nano-ceramic heat dissipation technology at high volumes to meet the growing needs of LED makers. Cambridge Nanotherm also announces the appointment of a new Business Development Director, Andrew Duncan, as well as ISO 9000 accreditation of its production line.

IHS Technology also reported that the number of smart cities worldwide will quadruple within a 12-year period that started last year, proliferating as local governments work with the private sector to cope with a multitude of challenges confronting urban centers. There will be at least 88 smart cities all over the world by 2025, up from 21 in 2013. While the combined Europe-Middle East-Africa region represented the largest number of smart cities last year, Asia-Pacific will take over the lead in 2025. In all, Asia-Pacific will account for 32 smart cities of the total in nine years’ time, Europe will have 31, and the Americas will contribute 25.

TriQuint Semiconductor, Inc., a RF solutions supplier and technology innovator, announced that it is the first gallium nitride (GaN) RF chip manufacturer to achieve Manufacturing Readiness Level (MRL) 9. This achievement means TriQuint’s GaN manufacturing processes have met full performance, cost and capacity goals, and that the company has the capability in place to support full rate production.

Solid State Watch: March 7-13, 2014

Friday, March 14th, 2014
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Blog review March 3, 2014

Monday, March 3rd, 2014

If you’ve ever gone to the grocery store and forgotten that one essential item, the question you face is how quickly can you run back in the store, get that necessary item, and be on your way home? Jeff Wilson of Mentor Graphics says that design teams often feel this way as they approach tapeout, only to be confronted with engineering change orders (ECOs). One major factor—the challenge of re-filling designs.

Phil Garrou provides his analysis of the presentations given at this year’s ISS meeting, focusing on those from IBM, Linx, imec, IHS and IBS. IBM’s Jon Casey, for example, notes that silicon performance advancement is becoming more challenging as scaling is becoming more costly and that we need to look beyond CMOS for cost effective technology solutions. He proposes integrated co-development of Silicon and packaging solutions to achieve new technologies with superior cost/performance metrics.

Pete Singer hasn’t toasted to cheap silicon for a while. Why? Because that mission has been accomplished. At SEMI’s ISS, Paul Farrar, manager of the G450C consortium put the industry progress over the last 40+ years in perspective. “1 Megabyte of memory in 1970 was $750,000. It was sold as an IBM add-on,” he said. “The great technology was made of 57mm wafers, five masking levels, and one level of metal. Today, it’s is less than a penny. That is a 100 million X improvement.”


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