. "45473832"^^ . . . . . . . . . . "Beyond CMOS refers to the possible future digital logic technologies beyond the CMOS scaling limits which limits device density and speeds due to heating effects. Beyond CMOS is the name of one of the 7 focus groups in ITRS 2.0 (2013) and in its successor, the International Roadmap for Devices and Systems. CPUs using CMOS were released from 1986 (e.g. 12 MHz Intel 80386). As CMOS transistor dimensions were shrunk the clock speeds also increased. Since about 2004 CMOS CPU clock speeds have leveled off at about 3.5 GHz. CMOS devices sizes continue to shrink \u2013 see Intel tick\u2013tock and ITRS : \n* 22 nanometer Ivy Bridge in 2012 \n* first 14 nanometer processors shipped in Q4 2014. \n* In May 2015, Samsung Electronics showed a 300 mm wafer of 10 nanometer FinFET chips. It is not yet clear if CMOS transistors will still work below 3 nm. See 3 nanometer."@en . . . . . . . . . . . . . . "1121756319"^^ . . "Beyond CMOS"@en . . . . . . . "Beyond CMOS refers to the possible future digital logic technologies beyond the CMOS scaling limits which limits device density and speeds due to heating effects. Beyond CMOS is the name of one of the 7 focus groups in ITRS 2.0 (2013) and in its successor, the International Roadmap for Devices and Systems. CPUs using CMOS were released from 1986 (e.g. 12 MHz Intel 80386). As CMOS transistor dimensions were shrunk the clock speeds also increased. Since about 2004 CMOS CPU clock speeds have leveled off at about 3.5 GHz. CMOS devices sizes continue to shrink \u2013 see Intel tick\u2013tock and ITRS :"@en . . . . . . "8455"^^ . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .