“Together, Ansys and Samsung continue to deliver enabling technology for the most advanced designs, now at 3nm with GAA technology. Since the third quarter of 2021, Samsung Electronics has been providing proven design infrastructure through extensive preparation with Samsung Advanced Foundry Ecosystem (SAFE ™) partners including Ansys, Cadence, Siemens and Synopsys, to help customers perfect their product in a reduced period of time. To meet such demands, Samsung strives to provide a more stable design environment to help reduce the time required for design, verification and sign-off process, while also boosting product reliability. Providing 3nm Design Infrastructure & Services With SAFE ™ PartnersĪs technology nodes get smaller and chip performance needs grow greater, IC designers face challenges of handling tremendous amounts of data to verify complex products with more functions and tighter scaling. Compared to 5nm process, the first-generation 3nm process can reduce power consumption by up to 45%, improve performance by 23% and reduce area by 16% compared to 5nm, while the second-generation 3nm process is to reduce power consumption by up to 50%, improve performance by 30% and reduce area by 35%. In addition, the design flexibility of GAA is highly advantageous for Design Technology Co-Optimization (DTCO), 1 which helps boost Power, Performance, Area (PPA) benefits. Utilizing the 3nm GAA technology, Samsung will be able to adjust the channel width of the nanosheet in order to optimize power usage and performance to meet various customer needs. Samsung’s proprietary technology utilizes nanosheets with wider channels, which allow higher performance and greater energy efficiency compared to GAA technologies using nanowires with narrower channels. ▲ (From left) Michael Jeong, Corporate Vice President Ja-Hum Ku, Corporate Executive Vice President and Sang Bom Kang, Corporate Vice President at Samsung Foundry Business are holding up 3nm wafers at the production line of Samsung Electronics Hwaseong Campus.ĭesign-Technology Optimization for Maximized PPA “We will continue active innovation in competitive technology development and build processes that help expedite achieving maturity of technology.” Siyoung Choi, President and Head of Foundry Business at Samsung Electronics. We seek to continue this leadership with the world’s first 3nm process with the MBCFET ™,” said Dr. “Samsung has grown rapidly as we continue to demonstrate leadership in applying next-generation technologies to manufacturing, such as foundry industry’s first High-K Metal Gate, FinFET, as well as EUV. Samsung is starting the first application of the nanosheet transistor with semiconductor chips for high performance, low power computing application and plans to expand to mobile processors. Multi-Bridge-Channel FET (MBCFET ™), Samsung’s GAA technology implemented for the first time ever, defies the performance limitations of FinFET, improving power efficiency by reducing the supply voltage level, while also enhancing performance by increasing drive current capability. Samsung Electronics, the world leader in semiconductor technology, today announced that it has started initial production of its 3-nanometer (nm) process node applying Gate-All-Around (GAA) transistor architecture. In order to operate without a battery, the phone would have to rely only on energy that it could harvest from its surroundings.▲ The leaders of Samsung Foundry Business and Semiconductor R&D Center are holding up three fingers as a symbol of 3nm celebrating the company’s first ever production of 3nm process with GAA architecture. Realizing that vision required rethinking almost everything about how cell phones function today. ![]() ![]() Now imagine if your battery ran out and you could still send texts and make calls." "A cell phone is one of the most useful objects there is. "If you had to pick one device to make battery-free, what would you pick," asks Smith. The prototype cell phone is the culmination of a years-long quest by Talla, a research associate at the lab of Joshua Smith, who researches computer science and electrical engineering at UW. It draws what little power it needs from thin air. ![]() But the fact they can be heard at all, on a nearby Android smartphone, is revolutionary, because Talla's own cell phone has no battery at all. I am calling from a battery-free phone." Vamsi Talla's words in a cluttered lab at the University of Washington in Seattle are barely audible through pops and static.
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