Fastener driver

What is claimed is: 1 . A fastener driver configured to be rotated to drive a fastener, the fastener driver comprising: a body including a longitudinal axis, a first end for being rotated by a rotational input, and an opposing second end for engaging with and driving the fastener, the second end of the body including: a hexalobular shaped head, the hexalobular shaped head including alternating protrusions and recesses, the protrusions each having an apex and the recesses each having a root, wherein the protrusions comprise three opposing pairs of such protrusions, with each pair having an apex diameter that is defined by a distance from the apex of one of the protrusions to the apex of the opposing one of the protrusions, wherein such distance is measured in a plane perpendicular to the longitudinal axis, wherein the recesses comprise three opposing pairs of such recesses, with each pair having a root diameter that is defined by a distance from the root of one of the recesses to the root of the opposing one of the recesses, wherein such distance is measured in a plane perpendicular to the longitudinal axis, the protrusions and recesses of the hexalobular shaped head being configured to engage with corresponding recesses and protrusions of a hexalobular opening in a top of the fastener; and the hexalobular shaped head further including: a front portion having a first axial length, wherein the protrusions and recesses extend along the first axial length substantially parallel to the longitudinal axis, such that at least one of the apex diameter or the root diameter remain substantially constant along the first axial length of the front portion; a rear portion having a second axial length, wherein the protrusions and recesses extend along the second axial length and taper away from the longitudinal axis as they extend longitudinally toward the first end, wherein at least one of the apex diameter or the root diameter increase linearly toward the first end along the second axial length of the rear portion; and a curved intermediate portion disposed between the front portion and the rear portion having a third axial length, wherein the protrusions and the recesses curve away from the longitudinal axis from the front portion to the rear portion in a concave manner, such that at least one of the apex diameter or the root diameter increase non-linearly along the third axial length of the intermediate portion. 2 . The fastener driver of claim 1 , further comprising a chamfered front-most end surface between the front portion and the second end of the body. 3 . The fastener driver of claim 2 , wherein the front portion, the intermediate portion, and the rear portion are disposed adjacent to each other in that order along the longitudinal axis of the body. 4 . The fastener driver of claim 1 , wherein the hexalobular opening in the top of the fastener comprises alternating protrusions and recesses, the protrusions each having an apex and the recesses each having a root, and wherein the hexalobular shaped head is receivable in the hexalobular opening in the top of the fastener with the protrusions of the hexalobular shaped head engaging the recesses of the hexalobular opening and the recesses of the hexalobular shaped head engaging the protrusions of the hexalobular opening. 5 . The fastener driver of claim 4 , wherein the protrusions of the hexalobular shaped opening comprise three opposing pairs of such protrusions, with each pair having an outer diameter that is defined by a distance from the apex of one of the protrusions to the apex of the opposing one of the protrusions, wherein such distance is measured in a plane perpendicular to a fastener axis, and wherein the recesses of the hexalobular shaped opening comprise three opposing pairs of such recesses, with each pair having an inner diameter that is defined by a distance from the root of one of the recesses to the root of the opposing one of the recesses, wherein such distance is measured in a plane perpendicular to the fastener axis. 6 . The fastener driver of claim 5 , wherein the hexalobular shaped opening has a top end at an outer surface of the fastener and a bottom end inside the fastener top, wherein the protrusions and recesses of the fastener extend along an axial length and taper inward toward the fastener axis as they extend from the top end toward the bottom end, and wherein the opening has an opening axial length from the top end to the bottom end. 7 . The fastener driver of claim 6 , wherein a ratio of the apex diameter of the hexalobular shaped head, at a cross-sectional plane in the rear portion at a location that corresponds to a top end of the fastener when the hexalobular shaped head is fully inserted into the hexalobular opening of the fastener, to an apex diameter of the fastener, at a cross-sectional plane at the top end of the fastener, is between approximately 0.98 and approximately 1.01. 8 . The fastener driver of claim 7 , wherein a ratio of the root diameter of the hexalobular shaped head, at the cross-sectional plane in the rear portion at the location that corresponds to the top end of the fastener when the hexalobular shaped head is fully inserted into the hexalobular opening, to a root diameter of the fastener, at the cross-sectional plane at the top end of the fastener, is between approximately 0.94 and approximately 0.98. 9 . The fastener driver of claim 8 , wherein a ratio of the apex diameter of the hexalobular shaped head, at a cross-sectional plane in the front portion at a location that corresponds to the bottom end of the fastener when the hexalobular shaped head is fully inserted into the hexalobular opening of the fastener, to an apex diameter of the fastener, at a cross-sectional plane at the bottom end of the fastener, is between approximately 0.95 and approximately 1.03. 10 . The fastener driver of claim 9 , wherein a ratio of the root diameter of the hexalobular shaped head, at a cross-sectional plane in the front portion at a location that corresponds to the bottom end of the fastener when the hexalobular shaped head is fully inserted into the hexalobular opening of the fastener, to a root diameter of the fastener, at a cross-sectional plane at the bottom end of the fastener, is between approximately 0.92 and approximately 0.96. 11 . The fastener driver of claim 1 , wherein the fastener is a hexalobular fastener, and wherein, when the fastener driver is fully inserted into an opening of the hexalobular fastener, an angle of wobble between the longitudinal axis of the fastener driver and a longitudinal axis of the hexalobular fastener is less than approximately 8 degrees. 12 . The fastener driver of claim 1 , wherein the protrusions are non-spirally formed along the head. 13 . The fastener driver of claim 1 , wherein the head is configured to drive one of: (1) a size T20 fastener and the first axial length, the second axial length, and the third axial length are approximately 0.29 mm, approximately 0.60 mm, and approximately 0.82 mm, respectively; (2) a size T25 fastener and the first axial length, the second axial length, and the third axial length are approximately 0.35 mm, approximately 0.90 mm and approximately 0.82 mm, respectively; (3) a size T27 fastener and the first axial length, the second axial length, and the third axial length are approximately 0.43 mm, approximately 1.00 mm and approximately 0.81 mm, respectively; (4) a size T30 fastener and the first axial length, the second axial length, and the third axial length are approximately 0.49 mm, approximately 1.10 mm and approximately 0.82 mm, respectively; or (5) a size T40 fastener and the