Partial wall-flow filter and method

What is claimed is: 1. A partial wall-flow filter, comprising: an inlet end, an outlet end, and a plurality of parallel channels disposed and configured to flow fluid from the inlet end to the outlet end, the channels being defined by a plurality of porous walls; wherein a first portion of the channels have a first hydraulic diameter Dh1, a second portion of the channels have a second hydraulic diameter Dh2 smaller than the first hydraulic diameter Dh1, and wherein the ratio of Dh1:Dh2 is in the range of 1.1 to 1.6; wherein the filter has a length L and a diameter D, and a length to diameter ratio L:D is between 0.9 and 1.5; wherein only a portion of channels having hydraulic diameter Dh1 are plugged at the outlet end, no channels are plugged at the inlet end, and channels having hydraulic diameter Dh2 are flow-through channels; and wherein the partial wall-flow filter has a filtration efficiency of >50% at soot loading levels of about 0 g/L, and has a filtration efficiency <10% at soot loading levels >about 5 g/L. 2. The partial wall-flow filter of claim 1 , wherein more than 60% of the channels having hydraulic diameter Dh1 are plugged at the outlet end. 3. The partial wall-flow filter of claim 2 , wherein more than 90% of the channels having hydraulic diameter Dh1 are plugged at the outlet end. 4. The partial wall-flow filter of claim 1 , wherein all of the channels having hydraulic diameter Dh2 are flow-through channels. 5. The partial wall-flow filter of claim 1 , wherein the filter has at least one of t wall <457 p.m, MPD<20 p.m, and % P>40%, and CD>200 cpsi, wherein t wall is the transverse thickness of the porous walls, MPD is a mean pore diameter of the porous walls, % P is the total porosity of the porous walls, and CD is the cell density (per square inch) of the channels. 6. A partial wall-flow filter, comprising: an inlet end, an outlet end, and a plurality of parallel channels disposed and configured to flow fluid from the inlet end to the outlet end, the channels being defined by a plurality of porous walls; wherein a first portion of the channels have a first hydraulic diameter Dh1, a second portion of the channels have a second hydraulic diameter Dh2 smaller than the first hydraulic diameter Dh1, and wherein the ratio of Dh1:Dh2 is in the range of 1.1 to 1.6; wherein the filter has a length L and a diameter D, and a length to diameter ratio L:D is between 0.9 and 1.5; wherein none of the channels are plugged at the inlet end, and only a portion of channels having hydraulic diameter Dh1 are plugged at the outlet end; and wherein the partial wall-flow filter has a filtration efficiency of >50% at soot loading levels of about 0 g/L, and has a filtration efficiency <10% at soot loading levels >about 5 g/L. 7. The partial wall-flow filter of claim 6 , wherein the number of plugged channels is selected to achieve a desired filtration efficiency. 8. The partial wall-flow filter of claim 6 , wherein the number of plugged channels is selected to achieve a desired pressure drop across the filter. 9. The partial wall-flow filter of claim 6 , wherein the filter has at least one of t wall <457 p.m, MPD<20 p.m, and % P>40%, and CD>200 cpsi, wherein t wall is the transverse thickness of the porous walls, MPD is a mean pore diameter of the porous walls, % P is the total porosity of the porous walls, and CD is the cell density (per square inch) of the channels. 10. A method of operating an exhaust system, comprising: providing a partial wall-flow filter having an inlet end, an outlet end, and a plurality of parallel channels disposed and configured to flow fluid from the inlet end to the outlet end, the channels being defined by a plurality of porous walls, wherein a first portion of the channels have a first hydraulic diameter Dh1, a second portion of the channels have a second hydraulic diameter Dh2 smaller than the first hydraulic diameter Dh1, wherein the ratio of Dh1:Dh2 is in the range of 1.1 to 1.6, the filter has a length L and a diameter D, and a length to diameter ratio L:D is between 0.9 and 1.5; none of the channels are plugged at the inlet end, only a portion of channels having hydraulic diameter Dh1 are plugged at the outlet end, and channels having hydraulic diameter Dh2 are flow-through channels, wherein the partial wall-flow filter has a filtration efficiency of >50% at soot loading levels of about 0 g/L, and has a filtration efficiency <10% at soot loading levels >about 5 g/L; and passing exhaust gas having particulate matter entrained therein through the partial wall-flow filter wherein some of the particulate matter is captured and some passes through the flow through channels. 11. The method of claim 10 , wherein the partial wall-flow filter has at least one of t wall <457 p.m, MPD<20 p.m, and % P>40%, and CD>200 cpsi, wherein t wall is the transverse thickness of the porous walls, MPD is a mean pore diameter of the porous walls, % P is the total porosity of the porous walls, and CD is the cell density (per square inch) of the channels. 12. The method of claim 10 , wherein more than 60% of the channels having hydraulic diameter Dh1 are plugged at the outlet end. 13. The method of claim 12 , wherein more than 90% of the channels having hydraulic diameter Dh1 are plugged at the outlet end.