Pneumatic tire manufacturing method and pneumatic tire

What is claimed is: 1. A method of manufacturing a pneumatic tire having a tread rubber, the method comprising: a winding step of forming a rubber ribbon winding body constructing the tread rubber by spirally winding a rubber ribbon obtained by co-extruding a first rubber and a second rubber which are different in hardness and wherein the rubber ribbon has a flat cross sectional shape in which a thickness is smaller than a width, in the winding step the first rubber and the second rubber of the rubber ribbon are co-extruded in differing amounts between a first area positioned in a center portion and a second area positioned in an end portion in a tread width direction, or between a first area positioned in one side and a second area positioned in the other side in the tread width direction, the tread rubber consisting of the first area and the second area, wherein an amount of the first rubber is greater in the first area by making a cross sectional area ratio of the first rubber in relation to the rubber ribbon greater than a cross sectional area ratio of the second rubber, and an amount of the second rubber is greater in the second area by making the cross sectional area ratio of the first rubber in relation to the rubber ribbon smaller than the cross sectional area ratio of the second rubber, the cross sectional area ratio of the first rubber in relation to the rubber ribbon becomes progressively smaller and the cross sectional area ratio of the second rubber in relation to the rubber ribbon becomes progressively larger in a part of the first area as the second area approaches, an interface boundary in the rubber ribbon between the first rubber and the second rubber in the rubber ribbon is retained in the part of the first area as the second area approaches, the interface boundary is a boundary formed by overlapping the co-extruded first rubber and second rubber, the winding step winds the rubber ribbon in a tire circumferential direction around a support body so that the rubber ribbon partially overlaps an adjacent portion of the rubber ribbon wound onto the support body in a tread thickness direction, the winding step winds the rubber ribbon in a multilayer manner, and forms the first rubber at a surface of the first area, and the second rubber at a surface of the second area, the cross sectional area ratio of the first rubber in relation to the rubber ribbon is 100% in a portion of the first area, and the rubber ribbon present in the whole of the second area consists of both the first rubber and the second rubber but the cross sectional area ratio of the second rubber in relation to the rubber ribbon is 70% or more in a portion of the second area. 2. The method of manufacturing the pneumatic tire according to claim 1 , wherein the first rubber is harder than the second rubber, and wherein the first area is a center area which is positioned in a center portion in the tread width direction, and the second area is a shoulder area which is positioned in an end portion in the tread width direction. 3. The method of manufacturing the pneumatic tire according to claim 1 , wherein the first rubber is harder than the second rubber. 4. The method of manufacturing the pneumatic tire according to claim 1 , wherein a difference in JISA hardness between the first rubber and the second rubber is equal to or more than 2 degrees, or a difference in 300% tension modulus between the first rubber and the second rubber is equal to or more than 1.0 MPa, wherein the JISA hardness is a value which is measured at 25° C. according to a durometer hardness test (type A) of JISK6253, and wherein the 300% tension modulus is a value measured by a tension test carried out at 25° C. according to JISK6251.