Fiber optic ribbon cable

What is claimed is: 1 . A fiber optic ribbon cable, comprising: a stack of fiber optic ribbons comprising at least three fiber optic ribbons, wherein each fiber optic ribbon comprises at least eight optical fibers arranged side-by-side and coupled to one another in a common matrix; and wherein each of the fiber optic ribbons of the stack comprises uncolored optical fibers, and wherein at least one of the optical fibers of the fiber optic ribbons of the stack is colored whereby orientation and polarity of one or more of the fiber optic ribbons of the stack is identifiable by the arrangement of the colored optical fiber with respect to the uncolored optical fibers. 2 . The cable of claim 1 , wherein each of the fiber optic ribbons of the stack has a colored optical fiber that is different from a correspondingly-positioned colored optical fiber of every other fiber optic ribbon of the stack. 3 . The cable of claim 2 , wherein each of the fiber optic ribbons includes edge fibers on ends of the ribbons, and wherein the colored optical fiber of each of the fiber optic ribbons is an edge fiber. 4 . The cable of claim 3 , wherein all optical fibers of each ribbon that are not edge fibers are uncolored. 5 . The cable of claim 4 , wherein one of the edge fibers of each of the fiber optic ribbons is uncolored. 6 . The cable of claim 5 , further comprising: strength members surrounding the stack of fiber optic ribbons, wherein the strength members are at least one of positioned around the stack of ribbons and not rigid in bending such that the strength members do not have a bend preference; and a jacket defining an exterior of the fiber optic ribbon cable, wherein the jacket is structured such that the jacket does not have a bend preference, wherein the jacket has a thickness of at least 0.45 mm, and wherein the thickness of the jacket is 1.2 mm or less, wherein the jacket forms a cavity through which extends the stack of fiber optic ribbons and the strength members, wherein the strength members adjoin both the stack of fiber optic ribbons and the jacket; and wherein the stack of fiber optic ribbons has a bend preference, and wherein the cavity of the jacket is sized relative to the stack of fiber optic ribbons in order to allow the stack to bend and twist within the cavity with respect to the jacket as the cable bends, facilitating movement of the optical fibers of the fiber optic ribbons to low-stress positions within the cavity and decoupling the bend preference of the stack from transfer to the jacket. 7 . The cable of claim 6 , wherein the fiber optic ribbons of the stack are bound to one another and constrained within a thin membrane of polymeric material enclosing the stack of fiber optic ribbons around the exterior thereof, whereby the thin membrane of polymeric material limits movement of the fiber optic ribbons of the stack relative to one another, wherein the stack of fiber optic ribbons comprises at least three fiber optic ribbons, wherein each fiber optic ribbon comprises at least eight optical fibers arranged side-by-side and coupled to one another in a common matrix, and wherein the membrane is, on average, 1 mm or less thick and is tightly bound to the exterior of the stack of fiber optic ribbons such that the thin membrane overlays the top- and bottom-most ribbons of the stack of fiber optic ribbons and adjoins lateral edges of one or more fiber optic ribbons interior to the top- and bottom-most ribbons of the stack.