Light emitting diode tube lamp including glass lamp tube with retaining ridges for engaging light emitting diode board to tube lamp

What is claimed is: 1. A lamp tube comprising: a glass tube body having a cross-sectional geometry that is perpendicular to a length of the glass tube body with a substantially cylindrical perimeter defined by a sidewall of the glass tube body enclosing a hollow interior for housing a light source, the sidewall of the glass tube body that defines the substantially cylindrical perimeter including at least two ridges on an interior surface of the sidewall that provides the substantially cylindrical perimeter, each ridge of said at least two ridges comprises an apex extending towards the hollow interior for the glass tube body, and said each ridge extends continuously with uniform dimensions along a majority of the length of the glass tube body, wherein from a perspective of an exterior surface of the sidewall of the glass tube body a divot is present corresponding to said each ridge. 2. The lamp tube of claim 1 , wherein the pair of ridges retain edges of a circuit board including the light source between each of the pair of ridges and a portion of the sidewall of the glass tube body. 3. The lamp tube of claim 1 , wherein the glass tube body is comprised of a soda lime silicate glass. 4. The lamp tube of claim 1 , wherein said each ridge of the pair of ridges has a protruding width towards the hollow body of the glass tube body that ranges from 1/10 a width of the glass tube body to ⅕ the width of the glass tube body. 5. The lamp tube of claim 1 , wherein the apex of said each ridge of the at least two ridges is present at a peak of a convex curvature in the sidewall of the glass tube body relative to a center of the hollow interior for the glass tube body. 6. The lamp tube of claim 1 , the divot having a concave curvature extending toward the hollow interior for the glass tube body. 7. The lamp tube of claim 6 , wherein a sidewall thickness of the glass tube body at portions including said each ridge and said each divot corresponding to said each ridge is substantially equal to a sidewall thickness of the glass tube body at remaining portions that do not include said each ridge and said each divot corresponding to said each ridge. 8. The lamp tube of claim 1 , wherein the at least two ridges comprises two pairs of ridges, wherein a first of said at least two pairs of ridges contacts an upper surface of a circuit board including the light source and a second of said at least two pairs of ridges contacts a lower surface of the circuit board including the light source to retain the circuit board between the two pairs of ridges. 9. A lamp comprising: a glass tube body having a cross-sectional geometry that is perpendicular to a length of the glass tube body with a substantially cylindrical perimeter defined by a sidewall of the glass tube body enclosing a hollow interior, the sidewall of the glass tube body that defines the substantially cylindrical perimeter including at least two ridges on opposing interior sidewall surfaces of the substantially cylindrical perimeter, wherein said each ridge of said at least two ridges extends continuously with uniform dimensions along a majority of the length of the glass tube body, wherein from a perspective of an exterior surface of the sidewall of the glass tube body a divot is present corresponding to said each ridge; and a light source present within the hollow interior of the glass tube body, the light source present on a circuit board having edges in between the at least two ridges and a portion of the sidewall of the glass tube. 10. The lamp of claim 9 , wherein the circuit board includes light emitting diodes (LED), and the circuit board is engaged to the glass tube body by a first fitment contact between a first edge of a light emission face of the circuit board that the light emitting diodes (LED) are present on to the at least two ridges, and a second fitment contact of a second edge of a back face of the circuit board to portions of the sidewall of the glass tube body that extends from a first ridge of the at least two ridges on one side of the glass tube body to a second ridge of the at least two ridges on an opposing second side of the glass tube body. 11. The lamp of claim 10 , wherein the circuit board further comprises an internal built in ballast and printed circuitry providing electrical communication between the ballast and the light emitting diodes (LED). 12. The lamp of claim 9 , wherein an apex for each ridge of the at least two ridges is present at a peak of a convex curvature in the sidewall of the glass tube body relative to a center of the hollow interior for the glass tube body. 13. The lamp of claim 9 , wherein the divot having a concave curvature extending toward the hollow interior for the glass tube body. 14. The lamp of claim 13 , wherein a sidewall thickness of the glass tube body at portions including said each ridge and said each divot corresponding to said each ridge is substantially equal to a sidewall thickness of the glass tube body at remaining portions that do not include the ridges and ridges and said each divot corresponding to said each ridge. 15. The lamp of claim 9 further comprising end caps present on opposing ends of the glass tube body, wherein the end caps have alignment tabs for engagement to the at least two ridges at the opposing first and second ends of the glass tube body, wherein the alignment tab for the end caps fits within a divot face of the at least two ridges at the first and second ends of the glass tube body present on an exterior sidewall of the glass tube body. 16. The lamp of claim 9 , wherein the at least two ridges comprises two pairs of ridges, wherein a first of said at least two pairs of ridges contacts a light emission face of the circuit board including the light source and a second of said at least two pairs of ridges contacts a back face of circuit board to retain the circuit board between the two pairs of ridges. 17. A method of lamp assembly comprising: providing a glass tube body having a cross-sectional geometry that is perpendicular to a length of the glass tube body with a substantially cylindrical perimeter defined by a sidewall of the glass tube body enclosing a hollow interior for housing a light source, the sidewall of the glass tube body that defines the substantially cylindrical perimeter including at least one pair of ridges on opposing sides of the substantially cylindrical perimeter, wherein from a perspective of an exterior surface of the sidewall of the glass tube body a divot is present corresponding to said each ridge; and sliding a circuit board including at least one light source along the at least one pair of ridges to position the circuit board including the at least one slight source into the hollow interior of the glass tube, wherein edges of the circuit board are retained between the at least one pair of ridges and a portion of the glass tube sidewall extending from a first ridge to a second ridge of the at least one pair of ridges. 18. The method of claim 17 , wherein the divot having a concave curvature extending towards the hollow interior for the glass tube body. 19. The method of claim 17 , wherein a sidewall thickness of the glass tube body at portions including said each ridge and said divot corresponding to said each ridge is substantially equal to a sidewall thickness of the glass tube body at remaining portions that do not include the ridges and ridges and said each divot corresponding to said each ridge. 20. The method of claim 17 , further comprising installing end caps on opposing end