Patent ID: 7462917

Claim:
A semiconductor device comprising: drain side first and second fins formed on a semiconductor substrate parallel to each other in a first direction, source side first and second fins formed on the semiconductor substrate parallel to each other in the first direction, and made of a semiconductor layer; a drain voltage supply active region which is formed on said semiconductor substrate so as to be connected to a first end of said drain side first fin and a first end of said drain side second fin, and supplies a drain voltage to said drain side first and second fins, in which a first active area between a portion connected to the first end of said drain side first fin and a portion connected to the first end of said drain side second fin is removed partly; a source voltage supply active region which is formed on said semiconductor substrate so as to be connected to a second end of said source side first fin and a second end of said source side second fin, and supplies a drain voltage to said source side first and second fins, in which a second active area between a portion connected to the second end of said source side first fin and a portion connected to the second end of said source side second fin is removed partly; a gate electrode formed on an insulating film formed in a second direction crossing the first direction between said drain voltage supply active region and source voltage supply active region on said semiconductor substrate, in a position separated from said drain voltage supply active region and source voltage supply active region respectively so as to cross said drain side first and second fins and source side first and second fins respectively, wherein the first ends of said drain side first and second fins are connected to said drain voltage supply active region, and the second ends of said source side first and second fins are connected to said source voltage supply active region, wherein a first distance X 1 in the first direction is measured from an edge of the drain voltage supply active region to said gate electrode, and is measured from an edge of the source voltage supply active region to said gate electrode, a second distance X 2 in the first direction is measured from an edge of said drain voltage supply active region, where the first active region is removed partly, to said gate electrode, and is measured from an edge of the second voltage supply active region, where the second active area is removed partly, to said gate electrode, and the first distance X 1 is shorter than the second distance X 2 .