Title :
Tunnel Field-Effect Transistors: Prospects and Challenges
Author :
Avci, Uygar E. ; Morris, Daniel H. ; Young, Ian A.
Author_Institution :
Components Res. in Technol. & Manuf. Group, Intel Corp., Hillsboro, OR, USA
Abstract :
The tunnel field-effect transistor (TFET) is considered a future transistor option due to its steep-slope prospects and the resulting advantages in operating at low supply voltage (VDD). In this paper, using atomistic quantum models that are in agreement with experimental TFET devices, we are reviewing TFETs prospects at LG = 13 nm node together with the main challenges and benefits of its implementation. Significant power savings at iso-performance to CMOS are shown for GaSb/InAs TFET, but only for performance targets which use lower than conventional VDD. Also, P-TFET current-drive is between 1× to 0.5× of N-TFET, depending on choice of IOFF and VDD. There are many challenges to realizing TFETs in products, such as the requirement of high quality III-V materials and oxides with very thin body dimensions, and the TFET´s layout density and reliability issues due to its source/drain asymmetry. Yet, extremely parallelizable products, such as graphics cores, show the prospect of longer battery life at a cost of some chip area.
Keywords :
CMOS integrated circuits; III-V semiconductors; MOSFET; gallium compounds; indium compounds; integrated circuit modelling; integrated circuit reliability; semiconductor device models; semiconductor device reliability; tunnel transistors; CMOS technology; GaSb-InAs; N-TFET; P-TFET current-drive; TFET; TFET device; atomistic quantum model; graphics core; high quality III-V material; layout density; parallelizable product; reliability; size 13 nm; source-drain asymmetry; steep-slope prospect; tunnel field-effect transistor; Doping; Logic gates; MOSFET; Silicon; Tunneling; Steep-slope; TFET; Tunnel field-effect transistor (TFET); steep-slope;
Journal_Title :
Electron Devices Society, IEEE Journal of the
DOI :
10.1109/JEDS.2015.2390591
