Title :
Computing beyond Moore´s Law
Author :
Shalf, John M. ; Leland, Robert
Abstract :
Photolithography systems are on pace to reach atomic scale by the mid-2020s, necessitating alternatives to continue realizing faster, more predictable, and cheaper computing performance. If the end of Moore´s law is real, a research agenda is needed to assess the viability of novel semiconductor technologies and navigate the ensuing challenges.
Keywords :
CMOS integrated circuits; electronic engineering computing; photolithography; Moore´s law; computing performance; photolithography systems; semiconductor technologies; Biological system modeling; CMOS integrated circuits; CMOS technology; Computational modeling; Consumer electronics; Moore´s Law; 2D lithography; 3D chip stacking; 3D integration; Borkar criteria; CMOS; Dennard scaling; HPC; Moore´s law; TFET; classical digital computing model; digital computing; electronic materials; energy-efficient electronics; high-performance computing; neuromorphic computing; spintronics; superconducting logic; technology scaling; topological insulator;
DOI :
10.1109/MC.2015.374
