Ксения (14.09.2019 19:23 - 19:32, просмотров: 274) ответил LordN на пока видимо хвастаться нечем, но это наверное не долго. с углеродом много проблем, если решат - это будет конечно бомба. я так думаю. ракеты можно будет делать целиком из двигателя :о), а систему управления погружать прямо в горячую зону
Рабочая частота до 10 kHz :) - оригинал достала => http://77.72.19.19/PDF/Modern%20microprocessor%20built%20from%20complementary%20carbon%20nanotube%20transistors.pdf
Experimental measurements. A supply voltage (VDD) of 1.8 V is chosen to maxi-mize the noise resilience of the CNT CMOS digital logic, given the experimentally measured transfer characteristics of the fabricated CNFETs (noise resilience is quan-tified by the SNM metric (see main-text section ‘DREAM’). To interface with each RV16X-NANO chip, we use a high channel count data acquisition system (120 chan-nels) that offers a maximum clock frequency of 10 kHz while simultaneously sam-pling all channels. This limits the frequency we run RV16X-NANO at to 10 kHz, at which the power consumption is 969 μW (dominated by leakage current). However, this is not the maximum clock speed of RV16X-NANO; during physical design, using an experimentally calibrated CNFET compact model and process design kit in an industry-practice VLSI design flow, the maximum reported clock frequency is 1.19 MHz, reported by Cadence Innovus following placement-and-routing of all logic gates. Future work may improve CNFET-level metrics (for example, improve-ments in contact resistance, gate stack engineering, CNT density and CNT alignment to increase CNFET on-current) to further speed up clock frequency.VLSI design methodology.