DARPA/SRC STARnet Avram Bar-Cohen Program Manager MTO US-EU Workshop on 2D Layered Materials and Devices April 23, 2015
STARnet Funded Universities University of Minnesota Carnegie Mellon Colorado State Johns Hopkins MIT Ohio State Penn State Purdue U. Wisconsin U. Alabama U. Nebraska U. Arizona U. North Texas UC/Riverside UT/Austin U. Iowa U. Michigan University of Michigan Columbia Duke GA Tech Harvard MIT Northeastern Princeton Stanford UCLA UIUC UVA U. Washington CALTECH Carnegie Mellon UIUC U. Michigan UT/Dallas U. Washington U of PA CALTECH Columbia Cornell MIT NC State Purdue Rice Stanford 42 Universities in 24 States UCLA UC/Irvine UC/Riverside U of PA WVA Yale UIUC Carnegie Mellon Princeton Stanford U. Michigan Notre Dame Carnegie Mellon UT/Dallas GA Tech Illinois Institute Penn State of Technology Purdue UT/Austin 2
STARnet Centers Materials/Devices Centers Systems Centers Function Accelerated nanomaterial Engineering Jane P-C Chang, UCLA Quantum nanostructures for enabling analog, logic and memory devices and for beyond Boolean computation Center for Spintronic Materials, Interfaces and Novel Architectures, J-P Wang, UMn TerraSwarm (TSRC-Internet of Things), Edward A. Lee, UC Berkeley Pervasive integration of smart, networked sensors and actuators into our connected world through an open and universal systems architecture The Center for Future Architectures Research Todd Austin, UMi Spin-based memory and computation with magnetic materials, spin transport, novel spintransport materials, spintronic devices, and circuits 2D Material Research across Materials/Devices Centers Center for Low Energy Systems Technology Alan Seabuagh, Notre Dame Exploration of solid state phenomena to extend device performance to achieve fundamental limits of ultra low voltage and power Application driven architectures leveraging emerging circuit fabrics, such as 3D interconnect, novel memories and programmable logic Systems on Nanoscale Information fabrics Naresh Shanbhag, UIUC Design of intelligent embedded systems on nanoscale CMOS and beyond CMOS device fabrics. 3
Materials/Devices Centers - FAME Function Accelerated nanomaterial Engineering Jane P-C Chang, UCLA Associate Dean, Research and Physical Resources, Engineering Department of Chemical Engineering, UCLA William F. Seyer Chair in Materials Electrochemistry Quantum nanostructures for enabling analog, logic and memory devices and for beyond Boolean computation FAME Jane Pei-Chen Chang, Director The mission of FAME is to create and investigate new nonconventional atomic scale engineered materials and structures of multifunction oxides, metals and semiconductors to accelerate innovations in analog, logic and memory devices for revolutionary impact on the semiconductor and defense industries. 4
Materials/Devices Centers C-SPIN Center for Spintronic Materials, Interfaces and Novel Architectures, J- P Wang, U. Minnesota Professor Department of Electrical and Computer Engineering, University of Minnesota Spin-based memory and computation with magnetic materials, spin transport, novel spin-transport materials, spintronic devices, and circuits C-SPIN Jian-Ping Wang, Director The Center for Spintronic Materials, Interfaces and Novel Architectures (C-SPIN) seeks to overcome barriers to realizing practical spinbased memory and logic technology by assembling experts in magnetic materials, spin transport, novel spin-transport materials, spintronic devices, circuits, and novel architectures. 5
Materials/Devices Centers - LEAST Center for Low Energy Systems Technology Alan Seabuagh, U. Notre Dame Professor Department of Electrical Engineering, University of Notre Dame Exploration of solid state phenomena to extend device performance to achieve fundamental limits of ultra low voltage and power LEAST Alan Seabaugh, Director The Center for Low Energy Systems Technology (LEAST) explores the physics of new materials and devices to enable more energy-efficient integrated circuits and systems. 6
DARPA MTO invested in graphene in 2007 High-frequency, scaled graphene transistors on diamond-like carbon YQ Wu et al. Nature 472, 74-78 (2011) Graphene Review: An Emerging RF Technology Moon, J.S.; Antcliffe, M.; Seo, H.C.; Lin, S.C.; Schmitz, A.; Milosavljevic, I.; McCalla, K.; Wong, D.; Gaskill, D.K.; Campbell, P.M.; Lee, K.-M.; Asbeck, P., "Graphene review: An emerging RF technology," Silicon Monolithic Integrated Circuits in RF Systems (SiRF), 2012 IEEE 12th Topical Meeting on, vol., no., pp.199,202, 16-18 Jan. 2012 7