8:50 a.m. PST Semiconductor Industry: & Present & Future Abstract: Semiconductors are the foundation of today’s digital economy and are powering innovations that will shape the trajectory of human history. This paper highlights the latest progress of the semiconductor industry to support a vast ...
and less advanced nodes are used for the IO and other functions that do not benefit as much fr...
(SCVRs) use on-die capacitors which means they tend to be substantially smaller in volume, and can also be integrated entirely on the same die as the load domain, or close to the load but on a separate die using advanced packaging techniques. Moreover, when using...
As for SoC, there are three invited papers at ISSCC 2021, one from each of Microsoft, Baidu, and Nvidia. These were captured inHighlighted Chip Releases: Modern SoC Designs in the advanced program, a chance for the ISSCC committee to recognize current products deemed to be outstanding. Gaming...
Advanced Micro Devices, Santa Clara, CA Alison Burdett, Sensium Heal are, Oxford, United Kingdom Vivek De, Intel, Hillsboro, OR Yohan Frans, Xilinx, San Jose, CA Nagendra Krishnapura, IIT, Chennai, India Sonia Leon, Intel, Santa Clara, CA Yan Li, Western Digital, Milpitas, CA Patrick Me...
Toshiba described an accelerator for advanced driver assistance systems that delivers up to 20 TOPS and 2 TOPS/W, up from 1.9 TOPS and 564 GOPS/W with its 2015 chip. Two new image processing cores carried most of work in the new version. Each block processes 8 MPixel images and up to ...
To scale out the architecture, existing techniques using 3D integration and chiplet partitioning with large-scale interposers were designed for building large modular architectures and achieving cost reduction in advanced technologies by known-good-die (KGD) strategy and yield management. Large-scale ...
翻看今年的ISSCC Advanced Program,大家可以发现出现以大模型(LLM)、Transformer为题的文章少之又少。真正意义上,关于Transformer的数字芯片工作,仅有一篇,是来自韩国KAIST的C-transformer。这个工作的思想是将DNN transformer和Spiking (SNN)transformer融合,利用类脑SNN低位宽、高能效的特性,降低整个网络部署的能效。
Radar and Imaging ..508 F4 Circuit and System Techniques for .511 mm-Wave Multi-Antenna Systems F5 Advanced Optical Communication: .514 From Devices, Circuits, and Architectures to Algorithms F6 Advances in Energy-Efficient Analog Design ..517 EVENING EVENTS EE1 Student Research Preview: Short Pre...
Monitoring 23 DRAM 24 SRAM & Computation-in-Memory 25 Circuits Enabling Security 26 Frequency Generation & Interference Mitigation 27 Energy Harvesting & DC/DC Control Techniques 28 Techniques for Low-Power & High-Performance Wireless…436 29 Quantum & Photonics Technologies 30 Advanced Wireline ...