Bendable ribbon for optical fiber ribbon cable

We claim: 1. A bendable optic fiber ribbon, comprising: a plurality of optic fibers configured for optical communications; and a ribbon matrix comprising a first side being a curved side and a second side being a bottom flat side, wherein the plurality of optic fibers are disposed in parallel between the first side and the second side along a longitudinal axis of the bendable optic fiber ribbon; wherein the first side has a cross-sectional shape of a periodical waveform such that points on neighboring waveforms of the first side close in to each other across a bending gap between the neighboring waveforms when at least one bending force is applied to the bendable optical fiber ribbon to bend from the sides of the second side to the first side; wherein the neighboring waveforms of the first side are jointed at a valley point such that the bending gap between the neighboring waveforms is in the form of a cut, the cut being open when at least one bending force is applied to the bendable optical fiber ribbon to bend the ribbon matrix in a direction pointing from the first side to the bottom side. 2. The bendable optical fiber ribbon of claim 1 , wherein each of the plurality of optical fibers has a diameter of 250 micrometer (μm) or 200 micrometer (μm). 3. The bendable optical fiber ribbon of claim 1 , wherein a pitch distance between respective centers of two adjacent optical fibers of the plurality of optical fibers is 250 micrometer (μm). 4. The bendable optical fiber ribbon of claim 1 , wherein the first side of the ribbon matrix has a cross-sectional shape of periodical waveforms, wherein the shape of the periodical waveforms is selected from a group, wherein the group comprises partial circle, triangular, trapezoid and parabolical. 5. The bendable optical fiber ribbon of claim 1 , wherein the bendable optical fiber ribbon supports a bi-directional bending when the first side and the second side of the ribbon matrix are curved in shape. 6. The bendable optical fiber ribbon of claim 1 , wherein each optical fiber of the plurality of optical fibers has a diameter of 0.210 millimeter, wherein a distance between center of fiber and peak of top curved side of the ribbon matrix is 0.125 millimeter, wherein a distance between the center of fiber and a bottom flat side of the ribbon matrix is 0.115 millimeter, wherein the bending gaps between neighboring curved surfaces has an angle of about 6.94 degree. 7. The bendable optical fiber ribbon of claim 1 , wherein when the at least one bending force is applied to the bendable optical fiber ribbon, the bending gaps allow the neighboring curved surface to move closer resulting in the reduction of the at least one of a compression force and a tension force. 8. The beddable optical fiber ribbon of claim 1 , wherein the second side is substantially planar. 9. A bendable optical fiber ribbon, comprising: a plurality of optical fibers configured for optical communications; and a ribbon matrix comprising a first side and a second side, wherein the plurality of optical fibers is disposed in parallel between the first side and the second side along a longitudinal axis of the bendable optical fiber ribbon, wherein the ribbon matrix joins adjacent optical fibers of a plurality of optical fibers at at least one location along the length of the adjacent optical fibers; wherein the first side comprises a plurality of curved surfaces with bending gaps between neighboring curved surface, said gaps configured to reduce at least one of a compression force and a tension force received by the bendable optical fiber ribbon when at least one bending force is applied to said bendable optical fiber ribbon, wherein each optical fiber of the plurality of optical fibers has a diameter of 0.100 to about 0.210 millimeter, wherein a distance between center of fiber and peak of top curved side of the ribbon matrix is between 0.050 to 0.125 millimeter, wherein a distance between the center of fiber and bottom flat side of the ribbon matrix is 0.115 millimeter, wherein the bending gaps between neighboring curved surfaces has an angle of 6.94 degree; wherein the neighboring curved surfaces are jointed at a valley point. 10. The bendable optical fiber ribbon of claim 9 , wherein when the at least one bending force is applied to the bendable optical fiber ribbon, the bending gaps allow the neighboring curved surface to move closer resulting in the reduction of the at least one of a compression forces and a tension force. 11. The bendable optical fiber ribbon of claim 9 , wherein the second side is substantially planar.