Baking mat

The invention claimed is: 1 . An apparatus for aiding in locating slice locations on a rolled food product, the apparatus comprising: a flexible mat including a first side and a second side each extending between a first end and a second end, and a first surface and a second surface opposite to the first surface, the flexible mat having an open condition where the flexible mat is substantially flat and the flexible mat is configured to be rolled up about a rolling axis toward a rolled condition with the first surface facing toward the rolling axis; and a plurality of marking ridges extending from the first surface, each marking ridge among the plurality of marking ridges extending along the first surface with a longest dimension perpendicular to the rolling axis and spaced from an adjacent marking ridge among the plurality of marking ridges in a direction parallel to the rolling axis, the plurality of marking ridges being configured to form indentations on an outer surface of an associated rolled food product when the flexible mat is pressed against the associated rolled food product or vice versa, the indentations defining the slice locations, where in the rolled condition the first surface of the flexible mat defines a volume predicated on a size of the associated rolled food product to be received therein with the first surface surrounding the associated rolled food product, wherein the first side and the second side encircle opposed first and second end openings to the volume, and the apparatus further including at least one end cap sized to be positioned in the first end opening or the second end opening, wherein the at least one end cap includes a flexible edge portion allowing for deformation of the at least one end cap when positioned in the first end opening or the second end opening. 2 . The apparatus of claim 1 , wherein each marking ridge among the plurality of marking ridges being and terminates nearer to the first end as compared to the second end. 3 . The apparatus of claim 1 , wherein at least one marking ridge among the plurality of marking ridges includes an upper surface including relatively higher offset surface portions and relatively lower offset surface portions that are situated closer to the first surface in a direction normal to the first surface as compared to the relatively higher offset surface portions. 4 . The apparatus of claim 1 , wherein the plurality of marking ridges includes a plurality of relatively shorter marking ridges and a plurality of relatively longer marking ridges. 5 . The apparatus of claim 4 , wherein each relatively shorter marking ridge among the plurality of relatively shorter marking ridges is disposed between two adjacent relatively longer marking ridges among the plurality of relatively longer marking ridges, wherein each relatively longer marking ridge among the plurality of relatively longer marking ridges is disposed between two adjacent relatively shorter marking ridges among the plurality of relatively shorter marking ridges, except for one relatively longer marking ridge among the plurality of relatively longer marking ridges, which is located closest to the first side, and another relatively longer marking ridge among the plurality of relatively longer marking ridges, which is located closest to the second side. 6 . The apparatus of claim 4 , wherein each relatively longer marking ridge among the plurality of relatively longer marking ridges is spaced a distance D parallel to the rolling axis from an adjacent relatively longer marking ridge among the plurality of relatively longer marking ridges, and each relatively longer marking ridge among the plurality of relatively longer marking ridges is spaced a distance d parallel to the rolling axis from an adjacent relatively shorter marking ridge among the plurality of relatively shorter marking ridges, wherein D=2d. 7 . The apparatus of claim 1 , further comprising a plurality of linear graduation markings provided on the first surface and forming a visual scale, wherein one linear graduation marking nearest the first side among the plurality of linear graduation markings being aligned with a respective marking ridge nearest the first side among the plurality of marking ridges in a direction perpendicular to the rolling axis, and another linear graduation marking nearest the second side among the plurality of linear graduation markings being aligned with another respective marking ridge nearest the second side among the plurality of marking ridges in a direction perpendicular to the rolling axis. 8 . The apparatus of claim 7 , wherein the one linear graduation marking nearest the first side among the plurality of linear graduation markings is a greatest line linear graduation marking for the visual scale, and the another linear graduation marking nearest the second side among the plurality of linear graduation markings is a zero line linear graduation marking for the visual scale. 9 . The apparatus of claim 1 , wherein the flexible edge portion includes at least two cutouts to separate the flexible edge portion into at least two flexible sections. 10 . The apparatus of claim 1 , further including a fastening member for securing the flexible mat in the rolled condition. 11 . The apparatus of claim 10 , wherein the fastening member extends from the second end of the flexible mat, and the plurality of marking ridges is provided nearer to the first end as compared to the second end of the flexible mat. 12 . The apparatus of claim 10 , wherein the fastening member is a strap that is integral with the flexible mat to define a unitary, one-piece product. 13 . An apparatus for aiding in locating slice locations on a rolled food product, the apparatus comprising: a flexible mat including a first side and a second side each extending between a first end and a second end, and a first surface and a second surface opposite to the first surface, the flexible mat having an open condition where the flexible mat is substantially flat and the flexible mat is configured to be rolled up about a rolling axis toward a rolled condition with the first surface facing toward the rolling axis; a plurality of marking ridges extending from the first surface, each marking ridge among the plurality of marking ridges extending along the first surface with a longest dimension perpendicular to the rolling axis and spaced from an adjacent marking ridge among the plurality of marking ridges in a direction parallel to the rolling axis, the plurality of marking ridges being configured to form indentations on an outer surface of an associated rolled food product when the flexible mat is pressed against the associated rolled food product or vice versa, the indentations defining the slice locations; and a plurality of diameter guide markings provided on the first surface, each diameter guide marking among the plurality of diameter guide markings extending along the first surface in a longest dimension parallel to the rolling axis; and indicia provided on the first surface associated with each diameter guide marking among the plurality of diameter guide markings, wherein the respective indicia for each respective diameter guide marking corresponds to a distance that the respective diameter guide marking is offset from the first end measured perpendicular to the rolling axis, which distance corresponds to a diameter of the associated rolled food product when surrounded by the flexible mat with the flexible mat rolled up around the associated rolled food product in the rolled condition with the first surface in contact with the outer surface of the associated rolled food product.