Receptacle assembly with heat extraction from a pluggable module

What is claimed is: 1. A receptacle assembly comprising: a cage comprising an interior cavity having a port, the cage comprising a rear end and a front end, the front end is open to the port, the port being configured to receive a pluggable module therein through the front end of the cage, the cage comprising a spring; and a heat spreader comprising a body having a cage segment that is configured to be mounted to the cage such that the cage segment extends over at least a portion of the cage with a module side of the cage segment facing the port, the body comprising an extension segment that extends from the cage segment, the extension segment being positioned behind the rear end and extending in a direction generally away from the cage, the extension segment having a first side that is engaged in thermal communication with a heat exchanger behind the rear end, wherein the spring is configured to engage the pluggable module when the pluggable module is received within the port such that the spring is configured to press the pluggable module in thermal communication with the module side of the cage segment of the heat spreader. 2. The receptacle assembly of claim 1 , wherein the port is a first port, the spring is a first spring, and the pluggable module is a first pluggable module, the cage comprising a divider that divides the interior cavity into the first port and a second port, the second port being configured to receive a second pluggable module therein, the divider comprising an internal compartment that extends between the first and second ports, the heat spreader comprising a divider segment that is configured to extend within the internal compartment of the divider, wherein the cage comprises a second spring that is configured to engage the second pluggable module when the second pluggable module is received within the second port such that the second spring is configured to press the second pluggable module in thermal communication with the divider segment of the heat spreader. 3. The receptacle assembly of claim 1 , wherein the port is a first port and the pluggable module is a first pluggable module, the cage comprising a divider that divides the interior cavity into the first port and a second port, the second port being configured to receive a second pluggable module therein, the divider comprising an internal compartment that extends between the first and second ports, the heat spreader comprising a divider segment that is configured to extend within the internal compartment of the divider such that the divider segment is configured to be engaged in thermal communication with the second pluggable module when the second pluggable module is received within the second port, wherein the heat spreader further comprises at least one extension rail that extends outward from the divider segment and through a wall of the cage in a direction generally away from the cage. 4. The receptacle assembly of claim 1 , wherein the port is a first port and the pluggable module is a first pluggable module, the cage comprising a divider that divides the interior cavity into the first port and a second port, the second port being configured to receive a second pluggable module therein, the divider comprising an internal compartment that extends between the first and second ports, the heat spreader comprising a divider segment that is configured to extend within the internal compartment of the divider such that the divider segment is configured to be engaged in thermal communication with the second pluggable module when the second pluggable module is received within the second port, the heat spreader further comprising at least one extension rail that extends outward from the divider segment, wherein the at least one extension rail is configured to be engaged in thermal communication with the extension segment of the heat spreader. 5. The receptacle assembly of claim 4 , wherein the extension segment of the heat spreader is configured to be engaged in thermal communication with the heat exchanger on a first side of the extension segment and the extension segment is configured to be engaged in thermal communication with the at least one extension rail on a second side of the extension segment that is opposite the first side. 6. The receptacle assembly of claim 1 , wherein the spring is formed as a single, unitary structure with a wall of the cage that defines the port. 7. The receptacle assembly of claim 1 , wherein the spring is a discrete structure from the cage that is operatively connected with a wall of the cage that defines the port such that the spring is configured to engage the pluggable module when the pluggable module is received within the port. 8. The receptacle assembly of claim 1 , wherein the spring comprises an end that extends within the port, the end being configured to engage the pluggable module to press the pluggable module in thermal communication with the module side of the cage segment of the heat spreader. 9. The receptacle assembly of claim 1 , wherein a spreader side of the pluggable module is configured to be engaged in thermal communication with the module side of the cage segment of the heat spreader, the spring being configured to engage a spring side of the pluggable module that is opposite the spreader side. 10. The receptacle assembly of claim 1 , wherein the cage segment and the extension segment of the heat spreader comprise plates. 11. The receptacle assembly of claim 1 , wherein the cage comprises an opening that exposes the port, the module side of the cage segment of the heat spreader comprising a platform that is configured to extend into the opening of the cage, the platform having a module surface at which the cage segment is configured to be engaged in thermal communication with the pluggable module. 12. A receptacle assembly comprising: a cage comprising an interior cavity and a divider that divides the interior cavity into first and second ports, the cage having a front end and a rear end, the front end is open to the first and second ports, the first and second ports configured to receive first and second pluggable modules, respectively, therein through the front end, the divider comprising an internal compartment that extends between the first and second ports, the cage comprising a first and second spring; and an internal heat spreader configured to be mounted to the cage, the internal heat spreader comprising a divider segment that is configured to extend within the internal compartment of the divider with a module side of the divider segment facing the first port, the internal heat spreader comprising an extension integrated with the divider segment that extends in a direction generally away from the cage and is configured to thermally communicate with the divider segment, the extension being configured to be engaged in thermal communication with a heat exchanger, wherein the first spring is configured to engage the first pluggable module when the first pluggable module is received within the first port such that the first spring is configured to press the first pluggable module in thermal communication with the module side of the divider segment of the internal heat spreader; and an external heat spreader comprising a body having a cage segment that is configured to be mounted to the cage, such that the cage segment extends over at least a portion of the cage with a module side of the cage segment facing the second port, the body comprising an extension segment that extends from the cage segment, the extension segment being positioned behind the rear end and extending in a direction generally away from the cage, the extension segment having a first side bei