A cost effective 32nm high-K/ metal gate CMOS technology for low power applications with single-metal/gate-first process

A cost effective 32nm high-K/ metal gate CMOS technology for low power applications with single-metal/gate-first process

For the first time, we have demonstrated a 32nm high-k/metal gate (HK-MG) low power CMOS platform technology with low standby leakage transistors and functional high-density SRAM with a cell size of 0.157 μm 2 . Record NMOS/PMOS drive currents of 1000/575 μA/μm, respectively, have been achieved at 1...

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Hauptverfasser: Chen, X., Samavedam, S., Narayanan, V., Stein, K., Hobbs, C., Baiocco, C., Li, W., Jaeger, D., Zaleski, M., Yang, H. S., Kim, N., Lee, Y., Zhang, D., Kang, L., Chen, J., Zhuang, H., Sheikh, A., Wallner, J., Aquilino, M., Han, J., Jin, Z., Li, J., Massey, G., Kalpat, S., Jha, R., Moumen, N., Mo, R., Kirshnan, S., Wang, X., Chudzik, M., Chowdhury, M., Nair, D., Reddy, C., Teh, Y. W., Kothandaraman, C., Coolbaugh, D., Pandey, S., Tekleab, D., Thean, A., Sherony, M., Lage, C., Sudijono, J., Lindsay, R., Ku, J. H., Khare, M., Steegen, A.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Gate leakage
Logic gates
Metals
Noise
Performance evaluation
Random access memory
Transistors
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Beschreibung
Zusammenfassung:For the first time, we have demonstrated a 32nm high-k/metal gate (HK-MG) low power CMOS platform technology with low standby leakage transistors and functional high-density SRAM with a cell size of 0.157 μm 2 . Record NMOS/PMOS drive currents of 1000/575 μA/μm, respectively, have been achieved at 1 nA/μm off-current and 1.1V V dd with a low cost process. With this high performance transistor, V dd can be further scaled to 1.0V for active power reduction. Through aggressive EOT scaling and band-edge work-function metal gate stacks, appropriate Vts and superior short channel control has been achieved for both NMOS and PMOS at L gate =30nm. Compared to SiON-Poly, 30% RO delay reduction has been demonstrated with HK-MG devices. 40% Vt mismatch reduction has been shown with the Tinv scaling. Furthermore, it has been shown that the 1/f noise and transistor reliability exceed the technology requirements.
ISSN:0743-1562
DOI:10.1109/VLSIT.2008.4588573