Wavelength-division multiplexing optical assembly with increased lane density

What is claimed is: 1. A wavelength-division multiplexing (WDM) optical assembly, comprising: an optical signal router; a first WDM filter having a first passband; a first common port configured for optical communication of a first multiplexed signal; a first channel port configured for optical communication of a first demultiplexed signal, the first multiplexed signal comprising the first demultiplexed signal; a first optical path comprising the optical signal router, the first WDM filter, the first common port, and the first channel port; a second common port configured for optical communication of a second multiplexed signal; a second channel port configured for optical communication of a second demultiplexed signal, the second multiplexed signal comprising the second demultiplexed signal; and a second optical path comprising the optical signal router, the first WDM filter, the second common port, and the second channel port; wherein: the first WDM filter comprises a face having a first area and a second area; the first optical path comprises the first area of the first WDM filter; and the second optical path comprises the second area of the first WDM filter. 2. The WDM optical assembly of claim 1 , wherein: the face of the first WDM filter has a width measured between a first end of the face and a second end of the face; the first optical path comprises a first lane between the first WDM filter and the first channel port; the second optical path comprises a second lane between the first WDM filter and the second channel port; and a pitch distance between the first lane and the second lane is less than half the width of the face of the first WDM filter. 3. The WDM optical assembly of claim 1 , wherein the optical signal router comprises a trapezoidal-shaped prism, the trapezoidal-shaped prism in optical communication with the first common port and the second common port. 4. The WDM optical assembly of claim 1 , further comprising a substrate having a first side and a second side opposite the first side, wherein: the first common port is mounted to the first side of the substrate; and the second common port is mounted to the second side of the substrate. 5. The WDM optical assembly of claim 1 , further comprising a third common port, a third channel port, a fourth common port, a fourth channel port, a third optical path, and a fourth optical path, the third optical path comprising the optical signal router, the first WDM filter, the third common port, and the third channel port, and the fourth optical path comprising the optical signal router, the first WDM filter, the fourth common port, and the fourth channel port. 6. The WDM optical assembly of claim 1 , further comprising a second WDM filter having a second passband, a third channel port, a fourth channel port, a third optical path, and a fourth optical path, the third optical path comprising the optical signal router, the second WDM filter, the first common port, and the third channel port, and the fourth optical path comprising the optical signal router, the second WDM filter, the second common port, and the fourth channel port. 7. The WDM optical assembly of claim 6 , further comprising a third WDM filter having a third passband and a fourth WDM filter having a fourth passband, wherein the first optical path further comprises the third WDM filter and the fourth WDM filter. 8. A wavelength-division multiplexing (WDM) optical assembly, comprising: an optical signal router; a first WDM filter having a first passband; a second WDM filter having a second passband; a first common port configured for optical communication of a first multiplexed signal; a second common port configured for optical communication of a second multiplexed signal; a first optical path comprising the optical signal router, the first WDM filter, the second WDM filter, and the first common port; and a second optical path comprising the optical signal router, the first WDM filter, the second WDM filter, and the second common port; and a substrate having a first side and a second side opposite the first side, wherein the first common port is mounted to the first side of the substrate and the second common port is mounted to the second side of the substrate. 9. The WDM optical assembly of claim 8 , wherein: the first WDM filter comprises a face having a first area and a second area; the first optical path comprises the first area of the first WDM filter; and the second optical path comprises the second area of the first WDM filter. 10. The WDM optical assembly of claim 9 , wherein: the face of the first WDM filter has a width measured between a first end of the face and a second end of the face; the first optical path comprises a first lane between the first WDM filter and the first channel port; the second optical path comprises a second lane between the first WDM filter and the second channel port; and a pitch distance between the first lane and the second lane is less than half the width of the face of the first WDM filter. 11. The WDM optical assembly of claim 8 , wherein the optical signal router comprises a trapezoidal-shaped prism, the trapezoidal-shaped prism in optical communication with the first common port and the second common port. 12. The WDM optical assembly of claim 8 , further comprising a third common port, a third optical path, a fourth common port, and a fourth optical path, wherein the third optical path comprises the optical signal router, the first WDM filter, the second WDM filter, and the third common port, and wherein the fourth optical path comprises the optical signal router, the first WDM filter, the second WDM filter, and the fourth common port. 13. A method of manufacturing a wavelength-division multiplexing (WDM) optical assembly, comprising: positioning a first WDM filter having a first passband relative to an optical signal router; positioning a first common port relative to the optical signal router, the first common port configured for optical communication of a first multiplexed signal; positioning a first channel port relative to the optical signal router, the first channel port configured for optical communication of a first demultiplexed signal, the first multiplexed signal comprising the first demultiplexed signal; forming a first optical path comprising the optical signal router, the first WDM filter, the first common port, and the first channel port; positioning a second common port relative to the optical signal router, the second common port configured for optical communication of a second multiplexed signal; positioning a second channel port relative to the optical signal router, the second channel port configured for optical communication of a second demultiplexed signal, the second multiplexed signal comprising the second demultiplexed signal; forming a second optical path comprising the optical signal router, the first WDM filter, the second common port, and the second first channel port mounting the first common port to a first side of a substrate; and mounting the second common port to a second side of the substrate, wherein the first side of the substrate is opposite from the second side of the substrate. 14. The method of claim 13 , further comprising: positioning a second WDM filter having a second passband relative to the optical signal router; positioning a third channel port relative to the optical signal router, the third channel port configured for optical communication of a third demultiplexed signal, the first multiplexed signal further comprising the third demultiplexed signal; forming a t