Method and apparatus for screening

What is claimed is: 1. A vibratory screening assembly for use on a vibratory screening machine, comprising: a screen having woven wires forming a weave pattern; and a plate having a front portion, a back portion, a first side and a second side; and perforations with edges forming a zigzag pattern; wherein the front portion and back portion are substantially parallel; wherein the first side and second side are substantially perpendicular to the front portion and the back portion; wherein the plate is configured to have opposing tensioning forces applied to the first side and the second side; and wherein the screen is mounted on a top surface of the plate such that it spans the perforations, and the wires forming the weave pattern are not parallel or perpendicular to the perforation edges. 2. The vibratory screen assembly of claim 1 , wherein the perforation edges are at approximately forty-five degree angles to the wires forming the weave pattern. 3. The vibratory screen assembly of claim 1 , wherein the perforations have a maximum span of approximately 1 inch in a direction of the wires forming the weave pattern. 4. The vibratory screen assembly of claim 1 , wherein the perforations are approximately 1.4142 inches long and approximately 0.7071 inches wide. 5. The vibratory screen assembly of claim 1 , wherein the plate is semi-rigid. 6. The vibratory screen assembly of claim 1 , further comprising: at least three layers of weave patterns. 7. The vibratory screen assembly of claim 1 , wherein the plate is substantially crowned in shape. 8. The vibratory screen assembly of claim 1 , wherein the screen assembly is configured to be installed with tension over a support structure. 9. The vibratory screen assembly of claim 8 , wherein the support structure is a crowned deck. 10. A vibratory screening assembly for use on a vibratory screening machine, comprising: a screen having woven wires forming a weave pattern; and a plate having perforations with edges; wherein the screen is mounted on a top surface of the plate such that it spans the perforations, and the wires forming the weave pattern are not parallel or perpendicular to the perforation edges. 11. A perforated plate for use in a vibratory screening assembly, comprising: a front portion, a back portion, a first side and a second side; and perforations with edges forming a houndstooth pattern; wherein the front portion and back portion are substantially parallel; wherein the first side and second side are substantially perpendicular to the front portion and the back portion; wherein the perforation edges are not parallel or perpendicular to the first side, the second side, the front portion, and the back portion; wherein the houndstooth pattern orients the edges of the perforations at an angle to the first side, the second side, the front portion, and the back portion. 12. The perforated plate of claim 11 , wherein the perforation edges are at approximately forty-five degree angles to the first side, the second side, the front portion, and the back portion. 13. The perforated plate of claim 11 , wherein the perforations are approximately 1.4142 inches long and approximately 0.7071 inches wide. 14. The perforated plate of claim 11 , wherein the plate is semi-rigid. 15. A method of screening materials, comprising: attaching a screen assembly having a plate and screen to a vibratory screening machine; and screening the materials; wherein the plate has perforations with edges; wherein the screen has woven wires forming a weave pattern; wherein the screen is mounted on a top surface of the plate such that it spans the perforations, and the wires forming the weave pattern are not parallel or perpendicular to the perforation edges. 16. The method of claim 15 , wherein the perforation edges are at approximately forty five degree angles to the wires forming the weave pattern. 17. The method of claim 15 , wherein the perforations have a maximum span of approximately 1 inch in a direction of the wires forming the weave pattern. 18. The method of claim 15 , wherein the perforations are approximately 1.4142 inches long and approximately 0.7071 inches wide.