Cylinder head with integrated turbocharger

What is claimed is: 1. A cylinder head assembly for an internal combustion engine, the assembly comprising: a cast cylinder head; a turbocharger housing integrally cast with the cylinder head; a wastegate housing integrally cast with the cylinder head and the turbocharger housing; and a water jacket cast into the cylinder head and the integrally cast turbocharger housing and wastegate housing, the water jacket extending from a first end to an opposite second end and comprising: separate upper and lower turbocharger housing water jackets cast into the integrally cast turbocharger housing; separate upper and lower wastegate housing water jackets cast into the integrally cast wastegate housing; and separate upper and lower cylinder head water jackets cast into the cylinder head, wherein the upper cylinder head water jacket receives a first flow of coolant at the water jacket first end to cool exhaust gas flow in an exhaust manifold, and subsequently supplies the first flow of coolant to the upper turbocharger housing water jacket and the upper wastegate housing water jacket disposed at the water jacket second end, wherein the lower cylinder head water jacket receives a second flow of coolant at the water jacket first end to further cool the exhaust gas flow, and subsequently supplies the second flow of coolant to the lower turbocharger housing water jacket and the lower wastegate housing water jacket disposed at the water jacket second end, wherein the first and second flows of coolant are separated as they flow between the first and second ends of the water jacket. 2. The cylinder head assembly of claim 1 , wherein the integrally cast turbocharger housing includes an integrated turbine inlet duct configured to direct a turbine portion of the exhaust gas flow to a turbocharger turbine wheel, wherein the integrally cast wastegate housing includes an integrated wastegate duct configured to direct a wastegate portion of the exhaust gas flow to a wastegate chamber defined in the integrally cast wastegate housing. 3. The cylinder head assembly of claim 1 , wherein the integrally cast turbocharger housing is configured to direct a flow of exhaust gas from a turbocharger turbine between the upper turbocharger housing water jacket and the lower turbocharger housing water jacket, and wherein the upper and lower turbocharger housing water jackets encapsulate a turbine volute of the turbocharger housing. 4. The cylinder head assembly of claim 1 , wherein the integrally cast wastegate housing is configured to direct a flow of wastegate exhaust gas between the upper wastegate housing water jacket and the lower wastegate housing water jacket. 5. The cylinder head assembly of claim 1 , wherein the upper turbocharger housing water jacket and the lower turbocharger housing water jacket are fluidly coupled at a first end coupling of the integrally cast turbocharger housing disposed at the water jacket opposite second end, wherein the upper cylinder head water jacket and the lower cylinder head water jacket are fluidly coupled a second end coupling disposed at the water jacket first end, and wherein the first and second flows are separate and distinct until they merge at the first and second end couplings. 6. The cylinder head assembly of claim 5 , wherein the upper wastegate housing water jacket and the lower wastegate housing water jacket are fluidly coupled to the upper turbocharger housing water jacket and the lower turbocharger housing water jacket. 7. The cylinder head assembly of claim 1 , wherein the integrally cast wastegate housing includes a coolant outlet formed therein and configured to receive the flow of coolant from the integrally cast water jacket, and further comprising a thermostat disposed in the coolant outlet. 8. The cylinder head assembly of claim 1 , wherein the water jacket is formed by one of: (i) two water jacket cores, (ii) three water jacket cores, and (iii) four water jacket cores.