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IEEE International Solid-State Circuits Conference - ISSCC, Date: 2014/02/09 - 2014/02/13, Location: San Francisco, CA USA

Publication date: 2014-02-09
Volume: 57 Pages: 486 - 487
ISSN: 9781479909186
Publisher: IEEE

IEEE International Solid-State Circuits Conference - ISSCC

Author:

Myny, Kris
Smout, Steve ; Rockele, Maarten ; Bhoolokam, Ajay ; Ke, Tung Huei ; Steudel, Soeren ; Obata, Koji ; Marinkovic, Marko ; Pham, Duy-Vu ; Hoppe, Arne ; Gulati, Aashini ; Gonzalez Rodriguez, Francisco ; Cobb, Brian ; Gelinck, Gerwin ; Genoe, Jan ; Dehaene, Wim ; Heremans, Paul

Keywords:

Science & Technology, Technology, Engineering, Electrical & Electronic, Engineering, LOW-TEMPERATURE

Abstract:

We present an 8b general-purpose microprocessor realized in a hybrid oxide-organic complementary thin-film technology. The n-type transistors are based on a solution-processed n-type metal-oxide semiconductor, and the p-type transistors use an organic semiconductor. As compared to previous work utilizing unipolar logic gates [1], the higher mobility n-type semiconductor and the use of complementary logic allow for a >50x speed improvement. It also adds robustness to the design, which allowed for a more complex and complete standard cell library. The microprocessor consists of two parts, a processor core chip and an instruction generator. The instructions are stored in a Write-Once-Read-Many (WORM) memory formatted by a post-fabrication inkjet printing step, called Print-Programmable Read-Only Memory (P2ROM). The entire processing was performed at temperatures compatible with plastic foil substrates, i.e., at or below 250°C [2].