Fabrication of an integrated circuit with smaller area, besides reducing the cost of manufacturing, usually causes a reduction in the power dissipation and propagation delay. Using the static CMOS technology to fabricate a circuit that realizes a specific logic function and occupies a minimum space, it must be implemented with continuous diffusion runs. Therefore, at the design stage, an Eulerian path should be found for the logic function. Every discontinuity causes an increase in the area as well as a reduction in the clock rate and performance.
The realization of a logic function using the static CMOS technology is done through different methods, most of which are based on the Uehara's method. In this paper, an algorithm is suggested that finds the Eulerian path and allows the implementation of the circuit with continuity in the diffusion region that results in minimum area. In a case where there is no Eulerian path, the possible sub-paths are found. In addition, the algorithm gives information that helps the layout generation.
Keywords: VLSI, Uehara's method, Static CMOS, Continous diffusion, Standard cell.
S. Samavi, , & A. Torkian and P. Khadivi, (2022). Optimized Standard Cell Generation for Static CMOS Technology. Journal of Advanced Materials in Engineering (Esteghlal), 21(2), 15-27.
MLA
S. Samavi; A. Torkian and P. Khadivi. "Optimized Standard Cell Generation for Static CMOS Technology", Journal of Advanced Materials in Engineering (Esteghlal), 21, 2, 2022, 15-27.
HARVARD
S. Samavi, , A. Torkian and P. Khadivi, (2022). 'Optimized Standard Cell Generation for Static CMOS Technology', Journal of Advanced Materials in Engineering (Esteghlal), 21(2), pp. 15-27.
VANCOUVER
S. Samavi, , A. Torkian and P. Khadivi, Optimized Standard Cell Generation for Static CMOS Technology. Journal of Advanced Materials in Engineering (Esteghlal), 2022; 21(2): 15-27.