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An exhaust emission reduction system for a fuel injected engine system has a plurality of emission reduction components configured to process the exhaust gas. The emissions reduction components include of one or more NOX reduction components and one or more filtration components configured to reduce

An exhaust emission reduction system for a fuel injected engine system has a plurality of emission reduction components configured to process the exhaust gas. The emissions reduction components include of one or more NOX reduction components and one or more filtration components configured to reduce particulate matter, hydrocarbons and/or carbon monoxide emissions. Each engine cylinder is associated with a respective one of the emission reduction components, such that exhaust gas from each engine cylinder flows through the respective one emission reduction component in parallel with the exhaust gas flows from the other cylinders through their respective emission reduction components.

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1. An exhaust emission reduction system for an internal combustion engine, the engine having a plurality of cylinders and a power assembly, each cylinder having an associated fuel injector, an inlet for receiving air for combustion with fuel within the cylinder, and an exhaust for discharging exhaus

1. An exhaust emission reduction system for an internal combustion engine, the engine having a plurality of cylinders and a power assembly, each cylinder having an associated fuel injector, an inlet for receiving air for combustion with fuel within the cylinder, and an exhaust for discharging exhaust gas resulting from combustion, the emission reduction system comprising: a plurality of emission reduction components configured to process the exhaust gas, the emission reduction components comprising NOX reduction components and filtration components configured to reduce particulate matter, hydrocarbons and/or carbon monoxide emissions; anda fuel injection controller configured to control the firing of the fuel injectors, wherein: each engine cylinder in the plurality of cylinders is associated with a respective one of the emission reduction components, such that exhaust gas from the each engine cylinder flows through the respective one of the emission reduction components in parallel with exhaust gas flows from other cylinders in the plurality of cylinders through their respective emission reduction components,the fuel injection controller is configured to order specified fuel injectors to skip firing in one or more cylinders having a respective NOX reduction component or in one or more cylinders having a respective filtration component,the fuel injector controller is further configured to control a number of emission reduction components used in each engine cycle, andthe fuel injector controller orders the specified fuel injectors to fire and the specified fuel injectors to skip firing in a desired pattern, such that either total NOX emissions or total particulate matter, hydrocarbon, and/or carbon monoxide emissions are selectively reduced. 2. The exhaust emission reduction system of claim 1, wherein the filtration components include diesel oxidation catalysts (DOC), diesel particulate filters (DPF), catalyzed DPFs and/or catalyzed partial flow DPFs. 3. The exhaust emission reduction system as in claim 1, wherein the NOX reduction components include selective catalytic reduction (SCR) catalysts and/or ammonia slip catalysts (ASC). 4. The exhaust emission reduction system as in claim 1, wherein the exhaust emission reduction system includes a different number of NOX reduction components than a number of filtration components. 5. The exhaust emission reduction system as in claim 1, wherein the engine includes an exhaust manifold, and wherein the NOX reduction components and the filtration components are positioned in the exhaust manifold. 6. The exhaust emission reduction system as in claim 1, further including an exhaust after-treatment system situated downstream of the emission reduction components, the after-treatment system including one or more additional emission reduction components for further reducing particulate matter, hydrocarbons, carbon monoxide and/or NOX emissions in an engine total exhaust stream. 7. The exhaust emission reduction system as in claim 1, wherein a total number of NOX reduction components and a total number of filtration components are set to provide a pre-determined relationship between a total engine exhaust amount of NOX reduction relative to a total engine exhaust amount of particulate, hydrocarbon and/or carbon monoxide reduction. 8. The exhaust emission reduction system as in claim 7, wherein the fuel injector controller is configured to control the firing of the fuel injectors to change the relationship. 9. The exhaust emission reduction system as in claim 6, having a plurality of additional emission reduction components arranged in a series flow configuration. 10. A method of reducing engine exhaust emissions in an internal combustion engine, the engine having a plurality of cylinders for combusting fuel with air, the combusting producing exhaust gases, the engine further including a plurality of emission reducing components including one or more components for reducing NOX emissions and one or more filtration components for reducing particulate matter, hydrocarbon, and/or carbon monoxide emissions in the exhaust gases to provide a predetermined pattern of a total engine exhaust emission reduction, the method comprising: associating each of the provided NOX reducing components and the filtration components to receive a flow of exhaust gases from a respective cylinder in a parallel flow arrangement;treating the received parallel flows of exhaust gases from the cylinders with the respective emission reducing components; andcontrolling fuel injectors in selected cylinders flowing exhaust to NOX reducing components and/or filtration components to skip firing in an engine cycle to provide a different pattern to preferentially favor NOX emission reduction or particulate matter, hydrocarbon, and/or carbon monoxide emission reduction in that cycle relative to that of the predetermined pattern. 11. The method as in claim 10, further including controlling the flow of exhaust gases generated from the cylinders in a given engine cycle by selectively firing or skip firing the respective fuel injectors, whereby no fuel is injected by the skip fired fuel injectors and thereby no exhaust gases are generated in the respective cylinders in that cycle. 12. The method as in claim 10, wherein the engine includes an exhaust manifold, and wherein the step of associating includes positioning the emission reducing components within the exhaust manifold. 13. The method as in claim 10, wherein the engine includes one or more additional NOX, PM, HC, and/or CO reducing components in a series arrangement for treating a total treated exhaust stream downstream of the associated components, and the method further includes treating the total exhaust stream with the additional components. 14. An exhaust emission reduction system for a fuel injected internal combustion engine, the engine having a plurality of cylinders and a power assembly, each cylinder having an associated fuel injector, an inlet for receiving air for combustion with fuel within the cylinder, and an exhaust for discharging exhaust gas resulting from combustion, the emission reduction system comprising: a plurality of emission reduction components configured to process the exhaust gas therein, the emission reduction components comprising NOX emission reduction components and filtration components configured to reduce particulate matter, hydrocarbons and/or carbon monoxide emissions; anda fuel injection controller configured to control the firing of the fuel injectors, wherein: each engine cylinder in the plurality of cylinders is associated with a respective one of the emission reduction components such that exhaust gas from each engine cylinder flows through the respective one of the emission reduction components in parallel with the exhaust gas flows from other cylinders in the plurality of cylinders through respective emission reduction components,the fuel injection controller is configured to order specified fuel injectors to skip firing in one or more cylinders having a respective NOX reduction component or in one or more cylinders having a respective filtration component,a total number of NOX reduction components and a total number of filtration components are set to provide a pre-determined relationship between a total engine amount of NOX reduction relative to a total engine amount of particulate, hydrocarbon and/or carbon monoxide reduction, andthe fuel injector controller is configured to control the firing of the fuel injectors to change the relationship. 15. The exhaust emission reduction system of claim 14, wherein the filtration components include diesel oxidation catalysts (DOC), diesel particulate filters (DPF), catalyzed DPFs and/or catalyzed partial flow DPFs. 16. The exhaust emission reduction system as in claim 14, wherein the NOX reduction components include selective catalytic reduction (SCR) catalysts and/or ammonia slip catalysts (ASC). 17. The exhaust emission reduction system as in claim 14, wherein the exhaust emission reduction system includes a different number of NOX reduction components than a number of filtration components. 18. The exhaust emission reduction system as in claim 14, wherein the engine includes an exhaust manifold, and wherein the NOX reduction components and the filtration components are positioned in the exhaust manifold. 19. The exhaust emission reduction system as in claim 14, further including an exhaust after-treatment system situated downstream of the emission reduction components, the after-treatment system including one or more additional emission reduction components for further reducing particulate matter, hydrocarbons, carbon monoxide and/or NOX emissions in an engine total exhaust stream. 20. The exhaust emission reduction system as in claim 19, having a plurality of additional emission reduction components arranged in a series flow configuration.