Airflow divider for balancing airflow in a modular chassis system

What is claimed is: 1. A chassis supporting a plurality of circuit cards in a card cage of an electronic and/or optical system, the chassis comprising: one or more fans at an output of an exhaust air plenum, wherein the one or more fans are configured to enhance airflow in the chassis from an intake air plenum disposed across the card cage from the exhaust air plenum to the output; and an airflow divider configured to balance front to back distribution of airflow in the chassis, the airflow divider disposed in the exhaust air plenum and attached to or disposed in the chassis, wherein the airflow divider is dimensioned and located in the exhaust air plenum to segment the exhaust air plenum into multiple sections causing balanced airflow from the intake air plenum to the output and over the circuit cards disposed in the chassis card cage for cooling thereof, and wherein the airflow divider has a main portion, a front portion disposed at a fixed angle to the main portion, and a rear portion, the front portion being curved towards the intake air plenum substantially perpendicular to a surface of the exhaust air plenum adjacent to the card cage to separate sections thereof, the main portion being substantially horizontal, flat and parallel to a top of the exhaust air plenum and extending a portion of the depth of the exhaust air plenum, and the rear portion being disposed at a fixed downward angle towards the card cage, in the same direction as the front portion, relative to the main portion and located near the one or more fans, wherein the airflow divider is configured to turn the airflow where the airflow speed is slowest and minimize pressure drops within the chassis. 2. The chassis of claim 1 , wherein the rear portion is located near the one or more fans at a downward angle. 3. The chassis of claim 1 , wherein the rear portion is located near the one or more fans at a downward angle selected to optimize the airflow. 4. The chassis of claim 1 , wherein the airflow divider is located in the exhaust air plenum in a manner selected to optimize the airflow at an opposite side of the one or more fans. 5. The chassis of claim 4 , wherein a length of the airflow divider is about ⅔ of a depth of the exhaust air plenum. 6. The chassis of claim 1 , wherein the circuit cards are selectively engaged in the chassis in a vertical orientation, wherein the airflow is from the intake air plenum, across the circuit cards and output through the exhaust air plenum. 7. The chassis of claim 6 , wherein the circuit cards are selectively engaged in the chassis in a single height configuration. 8. The chassis of claim 1 , wherein the circuit cards are selectively engaged in the chassis in a double height configuration, wherein the airflow divider is a first airflow divider, and the chassis further comprising: a second airflow divider disposed in the exhaust air plenum and attached or disposed to the chassis, wherein the first airflow divider and the second airflow divider are dimensioned and located in the exhaust air plenum to segment the exhaust air plenum into multiple sections balanced airflow from the intake air plenum to the output and over the circuit cards disposed in the chassis for cooling thereof. 9. A network element in a chassis supporting a plurality of circuit cards in a card cage of an electronic and/or optical system, the network element comprising: one or more circuit cards in the card cage of the chassis; one or more fans at an output of an exhaust air plenum, wherein the one or more fans are configured to enhance airflow in the chassis from an intake air plenum disposed across the card cage from the exhaust air plenum to the output; and an airflow divider configured to balance front to back distribution of airflow in the chassis, the airflow divider disposed in the exhaust air plenum and attached to or disposed in the chassis, wherein the airflow divider is dimensioned and located in the exhaust air plenum to segment the exhaust air plenum into multiple sections causing balanced airflow from the intake air plenum to the output and over the circuit cards disposed in the card cage for cooling thereof, and wherein the airflow divider has a main portion, a front portion disposed at a fixed angle to the main portion, and a rear portion, the front portion being curved towards the intake air plenum substantially perpendicular to a surface of the exhaust air plenum adjacent to the card cage to separate sections thereof, the main portion being substantially horizontal, flat and parallel to a top of the exhaust air plenum and extending a portion of the depth of the exhaust air plenum, and the rear portion being disposed at a fixed downward angle towards the card cage, in the same direction as the front portion, relative to the main portion and located near the one or more fans, wherein the airflow divider is configured to turn the airflow where the airflow speed is slowest and minimize pressure drops within the chassis. 10. The network element of claim 9 , wherein the rear portion is located near the one or more fans at a downward angle. 11. The network element of claim 9 , wherein the rear portion is located near the one or more fans at a downward angle selected to optimize the airflow. 12. The network element of claim 9 , wherein the airflow divider is located in the exhaust air plenum in a manner selected to optimize the airflow at an opposite side of the one or more fans. 13. The network element of claim 9 , wherein a length of the airflow divider is about ⅔ of a depth of the exhaust air plenum. 14. The network element of claim 9 , wherein the circuit cards are selectively engaged in the chassis in a vertical orientation, wherein the airflow is from the intake air plenum, across the vertically oriented circuit cards and output through the exhaust air plenum. 15. The network element of claim 14 , wherein the circuit cards are selectively engaged in the chassis in a single height configuration. 16. The network element of claim 14 , wherein the circuit cards are selectively engaged in the chassis in a double height configuration, wherein the airflow divider is a first airflow divider, and the chassis further comprising: a second airflow divider disposed in the exhaust air plenum and attached or disposed to the chassis, wherein the first airflow divider and the second airflow divider are dimensioned and located in the exhaust air plenum to segment the exhaust air plenum into multiple sections causing balanced airflow from the intake air plenum to the output and over the circuit cards disposed in the chassis for cooling thereof. 17. A method, in a chassis supporting a plurality of circuit cards in a card cage of a high-performance electronic and/or optical system, the method comprising: providing the chassis with an exhaust air plenum with one or more fans at an output thereof, wherein the one or more fans are configured to enhance airflow in the chassis from an intake air plenum disposed across the card cage from the exhaust air plenum to the output, wherein the exhaust air plenum includes an airflow divider disposed therein that is configured to balance front to back distribution of airflow in the chassis; and operating the one or more fans, wherein the airflow divider is dimensioned and located in the exhaust air plenum to segment the exhaust air plenum into multiple sections causing balanced airflow from the intake air plenum to the output and over the circuit cards disposed in the card cage for cooling thereof, and wherein the airflow divider has a main portion, a front portion disposed at a fixed