Multi-gang cassette system

What is claimed is: 1. A fiber optic cassette mounting system, comprising: a fiber optic cassette; and a fiber optic cassette tray comprising rail guides configured to engage with respective rails of the fiber optic cassette, wherein a rail guide, of the rail guides, comprises an elongated portion of a surface of the fiber optic cassette tray that is raised from the surface to form ledges on a left side and a right side of the elongated portion, wherein the rail guides are configured to hold a single-gang cassette and a multi-gang cassette simultaneously on the fiber optic cassette tray, and wherein the fiber optic cassette comprises a latching mechanism comprising a latching protrusion configured to engage with an aperture on the fiber optic cassette tray. 2. The fiber optic cassette mounting system of claim 1 , wherein the rail guide is notched at a front end of the rail guide to allow a rail of the fiber optic cassette to enter the rail guide under one of the ledges. 3. The fiber optic cassette mounting system of claim 1 , wherein the fiber optic cassette is a multi-gang cassette, and comprises at least one clearance area between two gangs of the cassette configured to allow a guide rail to reside between the two gangs when the fiber optic cassette is mounted on the fiber optic cassette tray. 4. The fiber optic cassette mounting system of claim 1 , wherein a rail, of the rails of the fiber optic cassette, comprises a notch that engages with a front end of the rail guide to prevent the fiber optic cassette from traveling rearward beyond a stopping position. 5. The fiber optic cassette mounting system of claim 4 , wherein the latching protrusion is configured to engage with the aperture in response to the fiber optic cassette reaching the stopping position while being pushed rearward between the rail guide and another rail guide. 6. The fiber optic cassette mounting system of claim 1 , wherein the latching mechanism further comprises a release mechanism that faces toward the front of the fiber optic cassette, wherein the release mechanism is configured to disengage the latching protrusion from the aperture in response to pressure being applied to the release mechanism. 7. The fiber optic cassette of claim 6 , wherein the release mechanism is configured to rotate about a pivot point in response to the pressure being applied to the release mechanism, and wherein rotation of the release mechanism about the pivot point causes a contact tab on the release mechanism to lift the locking protrusion clear of the aperture. 8. The fiber optic cassette mounting system of claim 6 , wherein the latching mechanism is disposed on a left side of the fiber optic cassette, on a right side of the fiber optic cassette, or in an area between two gangs of the fiber optic cassette. 9. The fiber optic cassette mounting system of claim 1 , wherein the fiber optic cassette is configured to hold a row of fiber optic adapters disposed on a front edge of the fiber optic cassette, and wherein the fiber optic adapters are configured to receive fiber optic connectors that terminate respective optical fibers. 10. The fiber optic cassette mounting system of claim 1 , further comprising an enclosure configured to house the fiber optic tray, wherein the enclosure comprises tray guides disposed on a left inside wall and a right inside wall, respectively, of the enclosure, and wherein the tray guides comprise guide channels configured to engage with a left edge or a right edge of the fiber optic tray. 11. The fiber optic cassette mounting system of claim 1 , wherein the fiber optic cassette tray comprises at least two tray levels. 12. A fiber optic cassette, comprising: a housing comprising at least a first gang and a second gang configured to house optical fibers; a left rail disposed on a left side of the fiber optic cassette; a right rail disposed on a right side of the fiber optic cassette; a clearance area disposed between the first gang and the second gang; and a latching mechanism disposed within the housing and comprising a spring and a release mechanism that interacts with the spring, wherein the left rail and the right rail are configured to engage with corresponding rail guides of a cassette mounting surface to facilitate mounting the fiber optic cassette on the cassette mounting surface, adjacent rail guides of the cassette mounting surface define a cassette bay configured to receive a single-gang fiber optic cassette, and the fiber optic cassette is configured to span at least two cassette bays of the cassette mounting surface when mounted on the cassette mounting surface. 13. The fiber optic cassette of claim 12 , wherein the clearance area comprises a groove on a lower surface of the housing configured to allow a rail guide of the cassette mounting surface to pass under the fiber optic cassette. 14. The fiber optic cassette of claim 12 , wherein the spring comprises a locking protrusion configured to lock within an aperture on the cassette mounting surface when the fiber optic cassette is fully installed between the corresponding rail guides. 15. The fiber optic cassette of claim 14 , wherein the release mechanism comprises a release latch that faces outward from a front edge of the fiber optic cassette, and wherein the release mechanism is configured to unlock the locking protrusion from the aperture in response to pressure applied to the release mechanism. 16. The fiber optic cassette of claim 15 , wherein the release mechanism is configured to rotate about a pivot point in response to the pressure applied to the release mechanism, and wherein rotation of the release mechanism about the pivot point causes a contact tab on the release mechanism to lift the locking protrusion clear of the aperture. 17. The fiber optic cassette of claim 12 , wherein the latching mechanism is disposed on a left side of the housing, on a right side of the housing, or in a middle area of the housing between the first gang and the second gang. 18. The fiber optic cassette of claim 12 , further comprising a row of fiber optic adapters disposed along a front edge of the cassette, wherein the fiber optic adapters are configured to receive fiber optic connectors that terminate respective optical fibers. 19. The fiber optic cassette of claim 12 , wherein the housing is configured to allow the optical fibers to pass between at least the first gang and the second gang. 20. A fiber optic cassette, comprising: a housing comprising at least a first gang and a second gang configured to house optical fibers; a left rail disposed on a left side of the fiber optic cassette; a right rail disposed on a right side of the fiber optic cassette; and a clearance area disposed between the first gang and the second gang, wherein the left rail and the right rail are configured to engage with corresponding rail guides of a cassette mounting surface to facilitate mounting the fiber optic cassette on the cassette mounting surface, the clearance area comprises a groove on a lower surface of the housing configured to allow a rail guide of the cassette mounting surface to pass under the fiber optic cassette, adjacent rail guides of the cassette mounting surface define a cassette bay configured to receive a single-gang fiber optic cassette, and the fiber optic cassette is configured to span at least two cassette bays of the cassette mounting surface when mounted on the cassette mounting surface.