Diamond impregnated bit with aggressive face profile

What is claimed is: 1. A drill bit, comprising: a shank; a crown defining a central axis and having a plurality of fixed segments and a plurality of waterways that extend radially through the crown, wherein adjacent segments of the plurality of segments are separated by a respective waterway, each segment being spaced from the central axis of the crown and comprising: a cutting face having a proximal portion and a distal portion, the proximal portion being secured to the shank, the distal portion forming a distal surface; and a plurality of surface features continuous with and extending distally away from the distal surface of the cutting face of each segment, wherein the plurality of surface features and at least the distal portion of the cutting face of each segment are integrally formed of a selected matrix material, the selected matrix material comprising a matrix and a plurality of abrasive particles within the matrix, wherein each surface feature of the drill bit consists solely of the selected matrix material, and wherein the matrix of the selected matrix material is configured to erode to expose the abrasive particles within the matrix, and wherein the plurality of surface features of each segment of the crown comprises a plurality of first surface features that are discontinuous and spaced apart with respect to a first arced path defined at a first radial distance from the central axis. 2. The drill bit of claim 1 , wherein at least one surface feature of the plurality of surface features is at least partially ellipsoid in shape. 3. The drill bit of claim 2 , wherein at least one surface feature of the plurality of surface features is generally hemispherical. 4. The drill bit of claim 1 , wherein at least a portion of each surface feature of the plurality of surface features has an arcuate cross-sectional shape. 5. The drill bit of claim 1 , wherein the plurality of surface features of each segment of the crown are substantially evenly distributed about the cutting face of the segment. 6. The drill bit of claim 1 , wherein the plurality of surface features of each segment of the crown are unevenly distributed about the cutting face of the segment. 7. The drill bit of claim 1 , wherein the plurality of surface features of each segment of the crown are randomly distributed about the cutting face of the segment. 8. The drill bit of claim 1 , wherein the abrasive particles of the selected matrix material comprise diamond particles. 9. The drill bit of claim 1 , wherein, within each segment of the crown, the abrasive particles of the selected matrix material are substantially uniformly distributed between the surface features and the cutting face of the segment. 10. The drill bit of claim 1 , wherein the abrasive particles within the matrix of the selected matrix material are configured to cut material of a formation. 11. The drill bit of claim 1 , wherein, during rotation of the drill bit, the plurality of first surface features of the plurality of fixed segments are configured to apply variable contact stresses to a formation. 12. The drill bit of claim 11 , wherein the plurality of surface features of each segment further comprises a plurality of second surface features that are discontinuous and spaced apart with respect to a second arced path defined at a second radial distance from the central axis, wherein the second radial distance is different than the first radial distance, and wherein, during rotation of the drill bit, the plurality of second surface features of the plurality of fixed segments are configured to apply variable contact stresses to the formation. 13. A drill bit, comprising: a shank; and a crown defining a central axis and comprising: a first fixed segment having a cutting face and a plurality of surface features, wherein the cutting face of the first fixed segment has a proximal portion and a distal portion, the proximal portion being secured to the shank, the distal portion forming a distal surface of the first fixed segment, wherein the plurality of surface features of the first fixed segment are continuous with and extend distally away from the distal surface of the first fixed segment, and wherein the plurality of surface features and at least the distal portion of the cutting face of the first fixed segment are integrally formed of a selected matrix material; a second fixed segment having a cutting face and a plurality of surface features, wherein the cutting face of the second fixed segment has a proximal portion and a distal portion, the proximal portion being secured to the shank, the distal portion forming a distal surface of the second fixed segment, wherein the plurality of surface features of the second fixed segment are continuous with and extend distally away from the distal surface of the second fixed segment, and wherein the plurality of surface features and at least the distal portion of the cutting face of the second fixed segment are integrally formed of the selected matrix material; and a waterway extending radially through the crown and separating the first and second fixed segments, wherein the selected matrix material comprises a matrix and a plurality of abrasive particles within the matrix, wherein each surface feature of the first and second fixed segments consists solely of the selected matrix material, and wherein the matrix of the selected matrix material is configured to erode to expose the abrasive particles within the matrix, and wherein the plurality of surface features of the first fixed segment and the second fixed segment comprise a plurality of first surface features that are discontinuous and spaced apart with respect to a first arced path defined at a first radial distance from the central axis. 14. The drill bit of claim 13 , wherein the abrasive particles of the selected matrix material comprise diamond particles. 15. The drill bit of claim 13 , wherein, within the first and second fixed segments of the crown, the abrasive particles of the selected matrix material are substantially uniformly distributed between the surface features and the cutting face of the segment. 16. The drill bit of claim 13 , wherein the abrasive particles within the matrix of the selected matrix material are configured to cut material of a formation. 17. The drill bit of claim 13 , wherein, during rotation of the drill bit, the plurality of first surface features of the first fixed segment and the plurality of first surface features of the second fixed segment are configured to apply variable contact stresses to a formation. 18. The drill bit of claim 17 , wherein the plurality of surface features of the first fixed segment and the second fixed segment comprise a plurality of second surface features that are discontinuous and spaced apart with respect to a second arced path defined at a second radial distance from the central axis, wherein the second radial distance is different than the first radial distance, and wherein, during rotation of the drill bit, the plurality of second surface features of the first fixed segment and the plurality of second surface features of the second fixed segment are configured to apply variable contact stresses to the formation.