Exhaust gas recirculation system with paired cylinders

1 . An internal combustion engine having a first and a second cylinder, the engine comprising: the first cylinder having a first exhaust port operably connected to a first exhaust valve, and a first intake port operably connected to a first intake valve; the second cylinder having a second exhaust port operably connected to a second exhaust valve, and a second intake port operably connected to a second intake valve, a flow path directly connecting the first and second cylinders; and a valve actuator operably connected to the first exhaust and intake valves and the second exhaust and intake valves to open and close the first exhaust and intake ports and the second exhaust and intake ports, respectively, the valve actuator operating the valves to directly connect the first exhaust port to only the second intake port, and directly connect the second exhaust port to only the first intake port, to provide direct exchange of exhaust gases between the first and second cylinders. 2 . The engine of claim 1 further comprising a third cylinder and a fourth cylinder, the third cylinder having a third exhaust port operably connected to a third exhaust valve, and a third intake port operably connected to a third intake valve, the fourth cylinder having a fourth exhaust port operably connected to a fourth exhaust valve, and a fourth intake port operably connected to a fourth intake valve, the valve actuator operably connected to the third exhaust and intake valves and the fourth exhaust and intake valves to open and close the third exhaust and intake ports and the fourth exhaust and intake ports, respectively, the valve actuator operating the valves to directly connect the third exhaust port to only the fourth intake port, and directly connect the fourth exhaust port to only the third intake port, to provide direct exchange of exhaust gases between the third and fourth cylinders. 3 . The engine of claim 2 wherein neither the first cylinder nor the second cylinder is fluidically connected to either of the third cylinder or the fourth cylinder via their respective exhaust and intake ports. 4 . The engine of claim 2 further comprising an exhaust gas exchange manifold having a first chamber and a second chamber, the first chamber directly connecting the first cylinder to only the second cylinder, the second chamber directly connecting the third cylinder to only the fourth cylinder. 5 . The engine of claim 4 wherein the first chamber has a first length and a first volume and the second chamber has a second length and a second volume, the first length being about the same as the second length, the first volume being about the same as the second volume. 6 . The engine of claim 4 wherein the first chamber is not in fluid communication with the second chamber. 7 . The engine of claim 1 further comprising a first rocker arm being operably connected to the first intake valve, in a first intake position, the first rocker arm being operably connected to the first exhaust valve, in a first exhaust position, and further comprising a second rocker arm being operably connected to the second intake valve, in a second intake position, the second rocker arm being operably connected to the second exhaust valve, in a second exhaust position. 8 . The engine of claim 7 wherein the first rocker arm is movable between the first exhaust and intake positions by the valve actuator having a first rocker arm lobe, the first rocker arm lobe having 360° rotation about the valve actuator, wherein the first rocker arm is in the first exhaust position when the first rocker arm lobe is positioned at about 50° rotation about the valve actuator. 9 . The engine of claim 7 wherein the first rocker arm is in the first exhaust position when the second rocker arm is in the second intake position, and the first rocker arm is in the first intake position when the second rocker arm is in the second exhaust position to provide exchange of exhaust gases between the first and second cylinders. 10 . The engine of claim 2 further comprising a third rocker arm being operably connected to the third intake valve, in a third intake position, the third rocker arm being operably connected to the third exhaust valve, in a third exhaust position, and further comprising a fourth rocker arm being operably connected to the fourth intake valve, in a fourth intake position, the fourth rocker arm being operably connected to the fourth exhaust valve, in a fourth exhaust position. 11 . The engine of claim 4 wherein the exhaust gas exchange manifold includes a cooling element, the cooling element disposed about the first and second chambers to cool the exhaust gases. 12 . The engine of claim 1 wherein a first exhaust gas flows from the first exhaust port only to the second intake port, and a second exhaust gas flows from the second exhaust port only to the first intake port. 13 . An internal combustion engine defining a longitudinal axis and having a primary exhaust manifold and an exhaust gas recirculation manifold, the engine comprising: a first cylinder positioned between a first side and a second side of the engine, the first side being opposite the second side about the longitudinal axis, the first cylinder having a first primary exhaust port operably connected to a first primary exhaust valve, a first primary intake port operably connected to a first primary intake valve, a first auxiliary exhaust port operably connected to a first auxiliary exhaust valve, and a first auxiliary intake port operably connected to a first auxiliary intake valve; a second cylinder positioned in-line with the first cylinder and between the first side and the second side of the engine, the second cylinder having a second primary exhaust port operably connected to a second primary exhaust valve, a second primary intake port operably connected to a second primary intake valve, a second auxiliary exhaust port operably connected to a second auxiliary exhaust valve, and a second auxiliary intake port operably connected to a second auxiliary intake valve; the primary exhaust manifold positioned on the first side of the engine, the exhaust recirculation manifold positioned on the second side of the engine; and the first primary exhaust and intake ports and the second primary exhaust and intake ports being positioned on the first side, and the first auxiliary exhaust and intake ports and the second auxiliary exhaust and intake ports being positioned on the second side, wherein the first and second primary exhaust ports are in selective fluid communication with the primary exhaust manifold, and the first and second auxiliary exhaust and intake ports are in selective fluid communication with the exhaust gas recirculation manifold. 14 . The engine of claim 13 wherein the exhaust gas recirculation manifold comprises a first flow path connected to the first auxiliary exhaust port and extending only from the first auxiliary exhaust port to the second auxiliary intake port, the first flow path being in selective fluid communication with the first cylinder and the second cylinder by way of the first auxiliary exhaust port and the second auxiliary intake port. 15 . The engine of claim 14 wherein the exhaust gas recirculation manifold comprises a second flow path connected to the second auxiliary exhaust port and extending only from the second auxiliary exhaust port to the first auxiliary intake port, the second flow path being in selective fluid communication with the first cylinder and the second cylinder by way of the second auxiliary exhaust port and the first auxiliary intake port. 16 . A method