Translating presbyopic contact lens

We claim: 1. A translating presbyopic contact lens comprising an optical zone, a peripheral zone around the optical zone and a pseudotruncation which is asymmetric about the vertical meridian and the radial position of the peak thickness value of the pseudotruncation at any meridian around the lens is substantially contstant, the arc being a portion of a concentric circle about the lens center and wherein the center circumference of the lens is not circular and not concentric about the lens center. 2. The contact lens of claim 1 wherein the pseudotruncation is comprised of a lenticular portion, bevel portion, flange portion, and the junctions between them. 3. The contact of lens of claim 1 wherein the pseudotruncation is substantially below the horizontal meridian of the lens and asymmetric around the vertical meridian. 4. The contact lens of claim 1 wherein the optical zone is asymmetric around the vertical meridian. 5. The contact lens of claim 1 wherein the pseudotruncation is rotated nasally up. 6. The contact lens of claim 5 wherein the pseudotruncation is rotated nasally up by between 1 to 15 degrees. 7. The contact lens of claim 5 wherein the pseudotruncation is rotated nasally up by between about 7 to 8 degrees. 8. The contact lens of claim 1 wherein the pseudotruncation is rotated nasally down. 9. The contact lens of claim 1 wherein the pseudotruncation is rotated nasally down by between about 1 to 10 degrees. 10. The contact lens of claim 1 wherein the pseudotruncation and optical zone are rotationally aligned substantially the same amount. 11. The contact lens of claim 1 wherein the pseudotruncation and optical zone are not rotationally aligned substantially at the same amount. 12. The contact lens of claim 1 wherein the optical zone is inset horizontally nasalward. 13. The contact lens of claim 1 wherein the optical zone is rotated nasally up. 14. The contact lens of claim 1 wherein the optical zone is inset horizontally nasalward and rotated nasally up. 15. The contact lens of claim 1 or 4 wherein the optical zone is inset horizontally nasalward and rotated nasally up and further moved up. 16. The contact lens of claim 1 wherein the pseudotruncation is comprised of a single elevated zone. 17. The contact lens of claim 1 wherein the pseudotruncation is comprised of more than one elevated zone. 18. The contact lens of claim 1 wherein the angular subtense of the pseudotruncation when it is 80% of its maximum thickness, is between 40 and 100 degrees circumferentially around the lens. 19. The contact lens of claim 1 wherein the pseudotruncation varies in height or circumferential angular subtense with changes in refractive prescription. 20. The contact lens of claim 1 wherein the pseudotruncation varies in height or circumferential angular subtense on a basis of data from an individual wearer. 21. The contact lens of claim 1 wherein the pseudotruncation varies in height or circumferential angular subtense on a basis of data from a population, sub-population, or group. 22. The contact lens of claim 1 wherein the width of the bevel portion is between about 50μto about 500μ. 23. The contact lens of claim 1 wherein the position of the bevel flange junction is between about 5 to about 7 mm. 24. The contact lens of claim 1 wherein the maximum radial thickness of the lenticular bevel junction is between about 300μ to about 600 μ. 25. The contact lens of claim 1 wherein the thickness of the bevel flange junction is between about 75μ to about 250 μ.