Pneumatic massage

What is claimed is: 1. A pneumatic system comprising: a fluidic switching module including an air passage, and a vent in fluid communication with the air passage; and a sound attenuator coupled to the fluidic switching module, the sound attenuator including a body having a recess, wherein the fluidic switching module is received within the recess, a first chamber within the recess and in fluid communication with the vent wherein the first chamber is partially defined by a first wall of the fluidic switching module and a second wall of the body opposite the first wall, wherein a first surface of the second wall defines a floor of the recess, a first orifice in fluid communication with the vent via the first chamber, a second chamber in fluid communication with the first chamber via the first orifice, wherein the second chamber is partially defined by a second surface of the second wall opposite the first surface, and a second orifice in fluid communication with the first orifice via the second chamber. 2. The pneumatic system of claim 1 , wherein a third wall of the fluidic switching module received within the recess is co-planar with a fourth wall of the body of the sound attenuator. 3. The pneumatic system of claim 1 , wherein the body is made of polypropylene. 4. The pneumatic system of claim 1 , wherein the vent is one of a plurality of vents, and wherein each vent of the plurality of vents is in fluid communication with the first chamber. 5. The pneumatic system of claim 1 , wherein the second chamber at least partially surrounds the first chamber. 6. The pneumatic system of claim 1 , wherein the first orifice is oriented perpendicular to the vent. 7. The pneumatic system of claim 1 , wherein the second orifice is in fluid communication with the ambient environment. 8. The pneumatic system of claim 1 , wherein the first chamber has a first resonant frequency, wherein the second chamber has a second resonant frequency, and wherein the first resonant frequency is at least 10% higher than the second resonant frequency. 9. The pneumatic system of claim 8 , wherein the first resonant frequency and the second resonant frequency are configured to produce destructive interference to attenuate noise generated by air flowing through the fluidic switching module. 10. A noise attenuator for a fluidic switching module, the noise attenuator comprising: a body including a first wall, a first plurality of outer side walls, a plurality of inner side walls extending from the first wall, and a floor extending between the plurality of inner side walls; a lid coupled to the body, the lid including a second wall opposite the first wall and a second plurality of outer side walls; a first orifice extending through one of the plurality of inner side walls, the first orifice in fluid communication with a chamber extending between the floor and the second wall; and a second orifice extending through one outer side wall of the first plurality of outer side walls or one outer side wall of the second plurality of outer side walls. 11. The noise attenuator of claim 10 , wherein the plurality of inner side walls and the floor define a recess in the body, and wherein the recess is configured to receive the fluidic switching module. 12. The noise attenuator of claim 11 , wherein the chamber at least partially surrounds the recess. 13. The noise attenuator of claim 10 , wherein the body and the lid are integrally molded together as a single component. 14. The noise attenuator of claim 10 , wherein the second orifice is in fluid communication with the first orifice via the chamber. 15. The noise attenuator of claim 10 , wherein the lid is pivotally coupled to the body. 16. A pneumatic system comprising: a fluidic switching module including an air passage, and a vent in fluid communication with the air passage; and a sound attenuator coupled to the fluidic switching module, the sound attenuator configured to attenuate noise generated by air flowing through the fluidic switching module to less than 40 dB across the entire audible range, the sound attenuator including a first chamber defined by a first wall of the fluidic switching module and including the vent, a first surface of a second wall spaced apart from and opposite the first wall, and a pair of spaced-apart side walls that extend between the first wall and the second wall, wherein the first chamber includes a first opening in one of the pair of spaced-apart sidewalls, and a second chamber in fluid communication with the second opening and partially surrounding the first chamber, wherein the second chamber is partially defined by a second surface of the second wall opposite the first surface and the pair of spaced-apart side walls, the second chamber including a second opening to exhaust air from the second chamber. 17. The pneumatic system of claim 16 , wherein the first chamber has a first resonant frequency, wherein the second chamber has a second resonant frequency, and wherein the first resonant frequency and the second resonant frequency are configured to produce destructive interference to attenuate the noise. 18. The pneumatic system of claim 16 , wherein the first opening extends along a first longitudinal axis and the second opening extends along a second longitudinal axis that is parallel to the first axis. 19. The pneumatic system of claim 16 , wherein the first opening and the second opening are oriented such that airflow from the first opening to the second opening changes direction by at least 90 degrees. 20. The pneumatic system of claim 16 , wherein the vent, the first opening, and the second opening are oriented such that airflow from the vent to the first opening changes direction in a first direction and airflow from the first opening to the second opening changes direction in a second direction different from the first direction. 21. A pneumatic system comprising: a fluidic switching module including an air passage, and a vent in fluid communication with the air passage; and a sound attenuator coupled to the fluidic switching module, the sound attenuator including a first chamber in fluid communication with the vent, a first orifice in fluid communication with the vent via the first chamber, a second chamber in fluid communication with the first chamber via the first orifice, and a second orifice in fluid communication with the first orifice via the second chamber, wherein the first chamber has a first resonant frequency, the second chamber has a second resonant frequency, and the first resonant frequency is at least 10% higher than the second resonant frequency. 22. The pneumatic system of claim 21 , wherein the first resonant frequency and the second resonant frequency are configured to produce destructive interference to attenuate noise generated by air flowing through the fluidic switching module.