Week In Review: Manufacturing, Test


Chipmakers, OEMs UMC plans to build a new fab next to its existing 300mm fab in Singapore. The new fab, called Fab12i P3, will manufacture wafers based on UMC’s 22nm/28nm processes. The planned investment for this project will be $5 billion. The first phase of this greenfield fab will have a monthly capacity of 30,000 wafers with production expected to commence in late 2024. To account fo... » read more

Week In Review: Manufacturing, Test


Chipmakers TSMC has introduced another version of its 4nm process technology. The process, called N4X, is tailored for high-performance computing products. Recently, TSMC introduced another 4nm process, called N4P, which is an enhanced version of its 5nm technology. N4X is also an enhanced version of its 5nm technology. N4X, however, offers a performance boost of up to 15% over TSMC’s N5 pro... » read more

Week In Review: Manufacturing, Test


Chipmakers TSMC posted its results for the quarter and confirmed its long-awaited plans to build a fab in Japan. It’s not a leading-edge fab, but rather a plant for 28nm/22nm processes. “The company confirmed plans to build a new fab in Japan for 22nm + 28nm,” said Aaron Rakers, an analyst at Wells Fargo, in a research note. “An average 22/28nm fab costs ~$4-5B range per 45k wspm. Fab ... » read more

Week In Review: Manufacturing, Test


Market research For some time, the semiconductor industry has experienced acute shortages. The automotive industry has suffered the most. When will this all end? “Shortages have become more acute for many products in the near term because the growth in demand is greater than the increase in wafer and packaging capacity that was anticipated by the foundry and semiconductor vendors. To date... » read more

Week in Review: IoT, Security, Autos


Products/Services Arm released a survey of 650 industry representatives about eSIM and iSIM technology. Ninety percent of the respondents were aware of eSIM, while 43% were unaware of iSIM. Vincent Korstanje, vice president and general manager, Emerging Businesses at Arm, cites the leading three obstacles to large commercial deployments: Resistance from traditional stakeholders (69% of respond... » read more

Wireless Test Faces New Challenges


Your mobile phone is far more complex than it was even five years ago, and it’s about to become even more complex with new wireless technologies. That has set off a scramble among test equipment vendors to come up with solutions, methodologies and equipment that is affordable, effective and reliable enough to make sure all of this technology works as planned—and that it continues to work th... » read more

Wireless Test: Too Many Protocols


Testing wireless communications is getting far more difficult as more markets begin adding wireless communications and standards groups push to improve the speed, power and security of existing protocols. There is already a long list of protocols, and it's growing further as new communications technologies are added into the mix. With the addition of 5G, the new 802.11ax standard, and other ... » read more

A Brief History of Test


The history of semiconductor test systems is the subject of this blog post. We’ll turn to printed circuit board testing at another time. Boston-based Teradyne sold its D133 diode tester to Raytheon in 1961. Five years later, it introduced the J259 integrated circuit tester, which had a minicomputer to run the test programs. For many, this marks the beginning of automatic (or automated) tes... » read more

The Week In Review: Manufacturing & Design


Silver surfers represent a more important technology market than “Generation X” and “Generation Y,” according to research from Gartner. Silver surfers are people in middle age or approaching old age. Although most technologists fail to recognize this fact, they are very interested in using technology and also have the time and the resources to pursue their interests, according to Gartne... » read more