학술논문
2.6 A 16nm 3.5B+ Transistor >14TOPS 2-to-10W Multicore SoC Platform for Automotive and Embedded Applications with Integrated Safety MCU, 512b Vector VLIW DSP, Embedded Vision and Imaging Acceleration
Document Type
Conference
Author
Venkatasubramanian, Rama; Steiss, Don; Shurtz, Greg; Anderson, Tim; Chirca, Kai; Santhanagopal, Raghavendra; Nandan, Niraj; Reghunath, Anish; Sanghvi, Hetul; Wu, Daniel; Chachad, Abhijeet; Karguth, Brian; Beaudoin, Denis; Fuoco, Charles; Nardini, Lewis; Hu, Chunhua; Visalli, Sam; Mundra, Amrit; Varadarajan, Devanathan; Cano, Frank; Stelmach, Shane; Mody, Mihir; Redfern, Arthur; Bilhan, Haydar; Sarraj, Maher; Siddiki, Ali; Lell, Anthony; Falik, Eldad; Hill, Anthony; Armstrong, Abhinay; Beck, Todd; Kanumuri, Vijay; Mullinnix, Steve; Moore, Darnell; Jones, Jason; Koul, Manoj; Agarwala, Sanjive
Source
2020 IEEE International Solid-State Circuits Conference - (ISSCC) Solid-State Circuits Conference - (ISSCC), 2020 IEEE International. :52-54 Feb, 2020
Subject
Language
ISSN
2376-8606
Abstract
The 7 th generation Jacinto™ SoC platform is an evolution of prior architectures [1], [2] and integrates new capabilities to support a wide set of applications, including automotive, industrial, and broad market. This drives a diverse set of requirements which need IP innovation and new techniques across the entire SoC stack including: high-reliability techniques for automotive, including circuit analysis and screening; new IP development including new DSP, signal processing and data movement architectures; embedded vision, machine learning, and imaging and video acceleration; new security and safety innovations, including an integrated safety MCU; dedicated security controller, and hardware features to enable ASIL-D support. This SoC platform and first implementation also integrates techniques for simplified power-supply management and support for cost-sensitive systems through on-die micro-architecture solutions.