Title :
Impact of III–V and Ge Devices on Circuit Performance
Author :
Jeongha Park ; Oh, Sung-Min ; SoYoung Kim ; Wong, H.-S. Philip ; Wong, S. Simon
Author_Institution :
Stanford Univ., Stanford, CA, USA
Abstract :
III-V and germanium (Ge) field-effect transistors (FETs) have been studied as candidates for post Si CMOS. In this paper, the performance of various digital blocks and static random access memory (SRAM) with different combinations of Si, III-V and Ge devices are studied. SPICE-compatible III-V n-channel FET (nFET) and Ge p-channel FET (pFET) models are developed for the analysis. The delay and energy of the different combinations are estimated and compared. In typical digital design, the driving capability of the nFET and pFET should be matched for optimum noise margin and performance. The combination of III-V nFET with low input capacitance and Ge pFET achieves the best energy-delay performance for many digital logic circuits. The read margin of SRAM is maximized with a Si pass-gate, and an inverter of III-V nFET and Ge pFET.
Keywords :
CMOS memory circuits; III-V semiconductors; field effect transistors; germanium; invertors; logic circuits; random-access storage; silicon; Ge; III-V device; III-V n-channel FET; III-V nFET; SPICE; SRAM; Si; circuit performance; digital block; digital logic circuit; germanium field-effect transistor; inverter; optimum noise margin; p-channel FET; pFET; post silicon CMOS; static random access memory; Capacitance; Delay; Integrated circuit modeling; Inverters; Logic gates; Noise; Silicon; Adder; III–V; digital logic circuit; field-programmable gate array (FPGA); germanium (Ge);
Journal_Title :
Very Large Scale Integration (VLSI) Systems, IEEE Transactions on
DOI :
10.1109/TVLSI.2012.2210450
