This paper investigates feasible inverter configurations based on co-optimized n- and p-type tunnel field-effect transistors (TFETs) integrated on the same InAs/Al0.05Ga0.95Sb platform. Based on 3-D full-quantum simulations, the considered devices feature steep subthreshold slopes and relatively high on- currents and are combined into two inverter designs. Benchmarking against aggressively scaled CMOS logic based on multigate architectures highlights potential of the proposed TFET implementations to perform up to 10 × and 100× faster in low operating power and low standby power environments, respectively. The comparison is conducted at low supply voltages (VDD =0.25 V) and for equal levels of static power consumption. The proposed TFET-based platform is thus expected to be a good candidate for low-voltage/low-power applications in near-future technology generations.
TFET Inverters With n-/p-Devices on the Same Technology Platform for Low-Voltage/Low-Power Applications / Emanuele, Baravelli; Elena, Gnani; Antonio, Gnudi; Susanna, Reggiani; Giorgio, Baccarani. - In: IEEE TRANSACTIONS ON ELECTRON DEVICES. - ISSN 0018-9383. - STAMPA. - 61:(2014), pp. 473-478. [10.1109/TED.2013.2294792]
TFET Inverters With n-/p-Devices on the Same Technology Platform for Low-Voltage/Low-Power Applications
BARAVELLI, EMANUELE;GNANI, ELENA;GNUDI, ANTONIO;REGGIANI, SUSANNA;BACCARANI, GIORGIO
2014
Abstract
This paper investigates feasible inverter configurations based on co-optimized n- and p-type tunnel field-effect transistors (TFETs) integrated on the same InAs/Al0.05Ga0.95Sb platform. Based on 3-D full-quantum simulations, the considered devices feature steep subthreshold slopes and relatively high on- currents and are combined into two inverter designs. Benchmarking against aggressively scaled CMOS logic based on multigate architectures highlights potential of the proposed TFET implementations to perform up to 10 × and 100× faster in low operating power and low standby power environments, respectively. The comparison is conducted at low supply voltages (VDD =0.25 V) and for equal levels of static power consumption. The proposed TFET-based platform is thus expected to be a good candidate for low-voltage/low-power applications in near-future technology generations.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
