Ion exchanged glasses via non-error function compressive stress profiles

The invention claimed is: 1. A glass having a surface and a thickness t, in a range from 0.05 mm to 1.3 mm, the glass comprising: a first region under a compressive stress, the first region extending from the surface to a depth of layer DOL in the glass, wherein the compressive stress CS has a maximum CS 1 at the surface and varies with distance d from the surface according to a function other than a complementary error function; and a second region under a tensile stress CT, the second region extending from the depth of layer into the glass, wherein the glass has a frangibility limit CT limit , expressed in MPa, greater than −37.6ln(t)(MPa)+48.7(MPa). 2. The glass of claim 1 , wherein the first region comprises: a. a first segment, the first segment extending from the surface to a first depth d 1 , wherein the depth d 1 is less than the depth of layer DOL, wherein the compressive stress CS in the first segment varies according to a first function; and b. a second segment, the second segment extending from the first depth d 1 up to the depth of layer DOL, wherein the compressive stress CS in the second segment varies according to a second function, and wherein the first function is different than the second function. 3. The glass of claim 2 , wherein the first function is a first complementary error function. 4. The glass of claim 3 , wherein the second function is a second complementary error function or a diffusion tail. 5. The glass of claim 2 , wherein the compressive stress has a local maximum CS 2 in the second segment wherein CS 1 >CS 2 . 6. The glass of claim 1 , wherein the glass is an alkali aluminosilicate glass. 7. The glass of claim 1 , wherein the maximum compressive stress CS 1 is at least about 400 MPa. 8. The glass of claim 1 , wherein the depth of layer DOL is at least about 40 μm. 9. The glass of claim 1 , wherein the glass is ion exchanged. 10. An ion exchanged glass having a surface and a thickness t, in a range from 0.05 mm to 1.3 mm, the glass comprising a first region under a compressive stress CS and extending to a depth of layer DOL in the glass and second region under a tensile stress CT, the second region extending from the depth of layer into the glass, wherein the glass has a frangibility limit CT limit , expressed in MPa, greater than −37.6ln(t)(MPa)+48.7(MPa), the first region comprising a first segment in which the compressive stress CS varies according to a first error function, the first segment having a maximum compressive stress CS 1 at the surface and extending from the surface to a first depth d 1 , wherein the depth d 1 is less than the depth of layer DOL, and a second segment in which the compressive stress CS varies according to a second function, the second segment extending from the first depth d 1 up to the depth of layer DOL, wherein the first error function is different than the second function. 11. The ion exchanged glass of claim 10 , wherein the second function is a second complementary error function or a diffusion tail. 12. The ion exchanged glass of claim 10 , wherein the compressive stress has a local maximum CS 2 in the second segment and wherein CS 1 >CS 2 . 13. The ion exchanged glass of claim 10 , wherein the compressive stress CS is at least about 400 MPa. 14. The ion exchanged glass of claim 10 , wherein the depth of layer DOL is at least about 40 μM. 15. The ion exchanged glass of claim 10 , wherein the glass is an alkali aluminosilicate glass. 16. A method of providing a glass with a compressive stress in a layer extending from a surface of the glass to a depth of layer in the glass and a tensile region extending from the depth of layer into the glass, the method comprising: ion exchanging the glass with a salt comprising first cations to a first compressive stress and a first depth of layer, wherein the first compressive stress varies with distance in the glass according to a complementary error function; relaxing stresses within the glass and diffusing the first cations deeper into the glass; and re-ion exchanging the glass with a salt comprising the first cations to a second compressive stress at the surface, wherein the compressive stress has a maximum value at the surface and varies with distance according to a function other than the complementary error function, wherein the glass has a thickness t in a range from 0.05 mm to 1.3 mm and a frangibility limit CT limit , expressed in MPa, greater than −37.6ln(t)(MPa)+48.7(MPa). 17. The method of claim 16 , wherein relaxing stresses within the glass and diffusing the first cations deeper into the glass comprises heating the glass at a temperature below a strain point of the glass.