Inline turbocharger arrangement and method

We claim: 1. An internal combustion engine, comprising: a cylinder case having a plurality of cylinders, the cylinder case having a Vee configuration in which the plurality of cylinders is arranged along two cylinder banks disposed on either side of a valley; a plurality of cylinder heads connected to the cylinder case and forming a plurality of exhaust runners, the plurality of exhaust runners being fluidly connectable to the plurality of cylinders; a singular exhaust log structure, the singular exhaust log structure including: a body disposed in the valley and having an elongate shape that extends along substantially an entire length of the cylinder case, a plurality of inlet ports extending through the body and being fluidly connected directly to the plurality of exhaust runners at all times, a singular plenum formed within the body of the singular exhaust log structure and being fluidly open to the plurality of inlet ports at all times, such that the singular plenum receives exhaust gas from all cylinders of the plurality of cylinders, a plurality of outlet ports extending through the body and being fluidly open to the singular plenum, and a water jacket formed in the body and surrounding at least the singular plenum; a plurality of turbochargers connected directly onto the body, each turbocharger of the plurality of turbochargers including: a turbine connected to the singular exhaust log structure and having an inlet fluidly connectable to a respective one of the plurality of outlet ports, a turbine valve disposed at an outlet of the turbine such that the flow of exhaust gas out of the turbine is fluidly blocked from escaping the turbine when the turbine valve is closed and fluidly open when the turbine valve is open, an actuator associated with the turbine valve and operating to move the turbine valve from a closed position to an open position and vice versa; and an electronic controller associated with the internal combustion engine and configured to provide a command to the actuator to move the turbine valve between the open and closed positions; wherein the electronic controller is programmed and configured to selectively open one or more turbine valves based on an operating condition of the engine. 2. The internal combustion engine of claim 1 , wherein the plurality of turbochargers includes six turbochargers. 3. The internal combustion engine of claim 1 , wherein the operating condition of the engine includes an engine speed and an engine power output. 4. The internal combustion engine of claim 1 , wherein each turbocharger of the plurality of turbochargers further includes a compressor connected to the turbine, and a compressor shutoff valve disposed to fluidly isolate an inlet of the compressor from an intake conduit of the internal combustion engine. 5. The internal combustion engine of claim 4 , wherein the actuator is further associated with the compressor shutoff valve such that the compressor shutoff valve is closed when the turbine valve is closed and the compressor shutoff valve is open when the turbine valve is open. 6. The internal combustion engine of claim 1 , further comprising an additional plurality of turbochargers, each of the additional plurality of turbochargers having a turbine that is fluidly connected at all times to the singular plenum. 7. A method for operating an engine, the method comprising: operating an engine having a plurality of cylinders, each cylinder including an exhaust runner, wherein the cylinders are disposed in a cylinder case of the engine, the cylinder case having a Vee configuration in which the plurality of cylinders is arranged along two cylinder banks disposed on either side of a valley; providing a singular exhaust log structure that includes: a body disposed in the valley and having an elongate shape that extends along substantially an entire length of the cylinder case, a plurality of inlet ports extending through the body and being fluidly connected directly to the plurality of exhaust runners at all times, a singular plenum formed within the body of the singular exhaust log structure and being fluidly open to the plurality of inlet ports at all times, such that the singular plenum receives exhaust gas from all cylinders of the plurality of cylinders, a plurality of outlet ports extending through the body and being fluidly open to the singular plenum, and a water jacket formed in the body and surrounding at least the plenum; mounting a plurality of turbochargers directly onto the singular exhaust log structure, each turbocharger of the plurality of turbochargers including: a turbine connected to the singular exhaust log structure and having an inlet fluidly connectable to a respective one of the plurality of outlet ports, a turbine valve disposed at an outlet of the turbine such that the flow of exhaust gas out of the turbine is fluidly blocked from escaping the turbine when the turbine valve is closed and fluidly open when the turbine valve is open, and an actuator associated with the turbine valve and operating to move the turbine valve from a closed position to an open position and vice versa; and providing an electronic controller associated with the internal combustion engine and configured to provide a command to the actuator to move the turbine valve between the open and closed positions; wherein the electronic controller operates to selectively open two or more turbine valves based on an operating condition of the engine. 8. The method of claim 7 , wherein the plurality of turbochargers includes six turbochargers. 9. The method of claim 7 , wherein the operating condition of the engine includes an engine speed and an engine power output. 10. The method of claim 7 , wherein each turbocharger of the plurality of turbochargers further includes a compressor connected to the turbine, and a compressor shutoff valve disposed to fluidly isolate an inlet of the compressor from an intake conduit of the internal combustion engine. 11. The method of claim 10 , wherein the actuator is further associated with the compressor shutoff valve such that the compressor shutoff valve is closed when the turbine valve is closed and the compressor shutoff valve is open when the turbine valve is open. 12. The method of claim 7 , further comprising an additional plurality of turbochargers, each of the additional plurality of turbochargers having a turbine that is fluidly connected at all times to the singular plenum. 13. The method of claim 7 , wherein opening one or more turbine valves is accomplished by increasing a number of turbine valves that are open when engine speed and engine power output increase above a threshold, and correspondingly decreasing the number of turbine valves that are open when the engine speed and engine power output decrease below the threshold. 14. The method of claim 7 , wherein opening one or more turbine valves is accomplished by increasing a number of turbine valves that are open when the engine operates in a transient mode and the internal combustion engine is accelerating. 15. A method for diagnosing an operating health of a plurality of turbochargers associated with an engine, the method comprising: operating an engine having an exhaust conduit and an intake conduit, the exhaust conduit including a singular exhaust log structure, the singular exhaust log structure including a body having an elongate shape that extends along substantially an entire length of a cylinder case of the engine, the cylinder case of the engine having a Vee configuration in which a plurality of cylinders is arranged along two cylinder ban