Building Predictive And Accurate 3D Process Models


Process engineers and integrators can use virtual process modeling to test alternative process schemes and architectures without relying on wafer-based testing. One important aspect of building an accurate process model is to ensure that the model is calibrated. Having a calibrated model is important, since it provides assurance to the process integrators and engineers that the model will refle... » read more

Momentum Builds For Advanced Packaging


The semiconductor industry is stepping up its efforts in advanced packaging, an approach that is becoming more widespread with new and complex chip designs. Foundries, OSATs and others are rolling out the next wave of advanced packaging technologies, such as 2.5D/3D, chiplets and fan-out, and they are developing more exotic packaging technologies that promise to improve performance, reduce p... » read more

Process Model Calibration: Building Predictive And Accurate 3D Process Models


The semiconductor industry has always faced challenges caused by device scaling, architecture evolution and process complexity and integration. These challenges are coupled with a need to provide new technology to the market quickly. In the initial stages of semiconductor technology development, innovative process flow schemes must be tested using silicon test wafers. These wafer tests are leng... » read more

Understanding Advanced Packaging Technologies And Their Impact On The Next Generation Of Electronics


Chip packaging has expanded from its conventional definition of providing protection and I/O for a discrete chip to encompassing a growing number of schemes for interconnecting multiple types of chips. Advanced packaging has become integral to embedding increased functionality into a variety of electronics, such as cellular phones and self-driving vehicles, by supporting high device density in ... » read more

Process Model Calibration: Building Predictive and Accurate 3D Process Models


The semiconductor industry has always faced challenges caused by device scaling, architecture evolution and process complexity and integration. These challenges are coupled with a need to provide new technology to the market quickly. In the initial stages of semiconductor technology development, innovative process flow schemes must be tested using silicon test wafers. These wafer tests are leng... » read more

Next Challenge: Parts Per Quadrillion


Requirements for purity of the materials used in semiconductor manufacturing are being pushed to unprecedented — and increasingly unprovable — levels as demand for reliability in chips over increasingly longer lifetimes continues to rise. And while this may seem like a remote problem for many parts of the supply chain, it can affect everything from availability of materials needed to make t... » read more

Week In Review: Manufacturing, Test


Semicon recap The virtual version of Semicon West took place this week. Virtual events have their places. It’s no substitute for an in-person event. Nonetheless, the virtual version of Semicon West is still a place to get an update on the latest equipment, test and packaging technologies. It is also interesting to visit the virtual booths. It’s a fast way to meet people. I chatted with ... » read more

Semicon West Day One/Two


For years, the semiconductor and equipment industry has congregated at the annual Semicon West trade show in San Francisco. It’s an event to get an update on the latest equipment, test and packaging technologies. It’s also a good way to meet with people who you haven’t seen in a year, if not longer. It’s a great way to get a pulse on the industry. Needless to say, Semicon is a vir... » read more

Semiconductor Memory Evolution And Current Challenges


The very first all-electronic memory was the Williams-Kilburn tube, developed in 1947 at Manchester University. It used a cathode ray tube to store bits as dots on the screen’s surface. The evolution of computer memory since that time has included numerous magnetic memory systems, such as magnetic drum memory, magnetic core memory, magnetic tape drive, and magnetic bubble memory. Since the 19... » read more

Speeding Up Process Optimization With Virtual Processing


Advanced CMOS scaling and new memory technologies have introduced increasingly complex structures into the device manufacturing process. For example, the increase in NAND memory layers has achieved greater vertical NAND scaling and higher memory density, but has led to challenges in high aspect ratio etch patterning and foot print scaling issues. Unique integration and patterning schemes have b... » read more

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