Title :
A 14 nm SoC platform technology featuring 2nd generation Tri-Gate transistors, 70 nm gate pitch, 52 nm metal pitch, and 0.0499 um2 SRAM cells, optimized for low power, high performance and high density SoC products
Author :
Jan, C.-H. ; Al-amoody, F. ; Chang, H.-Y. ; Chang, T. ; Chen, Y.-W. ; Dias, N. ; Hafez, W. ; Ingerly, D. ; Jang, M. ; Karl, E. ; Shi, S.K.-Y. ; Komeyli, K. ; Kilambi, H. ; Kumar, A. ; Byon, K. ; Lee, C.-G. ; Lee, J. ; Leo, T. ; Liu, P.-C. ; Nidhi, N. ; Ol
Author_Institution :
Logic Technol. Dev., Intel Corp., Hillsboro, OR, USA
Abstract :
A leading edge 14 nm SoC platform technology based upon the 2nd generation Tri-Gate transistor technology [5] has been optimized for density, low power and wide dynamic range. 70 nm gate pitch, 52 nm metal pitch and 0.0499 um2 HDC SRAM cells are the most aggressive design rules reported for 14/16 nm node SoC process to achieve Moore´s Law 2x density scaling over 22 nm node. High performance NMOS/PMOS drive currents of 1.3/1.2 mA/um, respectively, have been achieved at 0.7 V and 100 nA/um off-state leakage, 37%/50% improvement over 22 nm node. Ultra-low power NMOS/PMOS drives are 0.50/0.32 mA/um at 0.7 V and 15pA/um Ioff. This technology also deploys high voltage I/O transistors to support up to 3.3 V I/O. A full suite of analog, mixed-signal and RF features are also supported.
Keywords :
MOSFET; SRAM chips; system-on-chip; I/O transistor; Moore law; NMOS; PMOS; SRAM cell; SoC platform technology; density scaling; drive current; gate pitch; high density SoC product; m-channel metal-oxide semiconductor; metal pitch; p-channel metal-oxide semiconductor; second generation trigate transistor; size 14 nm; static random access memory; system-on-chip; voltage 3.3 V; Logic gates; MOS devices; Market research; Metals; Random access memory; System-on-chip; Transistors;
Conference_Titel :
VLSI Technology (VLSI Technology), 2015 Symposium on
Conference_Location :
Kyoto
DOI :
10.1109/VLSIT.2015.7223683
