Valve deactivating system for an engine

The invention claimed is: 1. An engine system, comprising: a camshaft saddle including a stationary groove; a camshaft including a discontinuous groove, the camshaft fitted to the camshaft saddle, and the stationary groove aligned with the discontinuous groove; an oil pump supplying oil to an oil inlet port wherein the oil inlet port is located along the camshaft saddle and in fluidic communication with the stationary groove; and an oil control valve located along an oil gallery leading from the oil pump to the oil inlet port. 2. The engine system of claim 1 , where the discontinuous groove is oriented axially along the camshaft. 3. The engine system of claim 1 , further comprising an oil outlet port located along the camshaft saddle. 4. The engine system of claim 1 , where an oil outlet port is in fluidic communication with an intake valve operator. 5. An engine system, comprising: a camshaft including a first discontinuous groove, and a second discontinuous groove; a first valve body including a first stationary groove and a first inlet port and a first outlet port; a first intake valve operator in mechanical communication with the camshaft and in fluidic communication with the first discontinuous groove; a first valve positioned along a conduit between the first valve body and an oil pump, a second valve positioned along the conduit between a second valve body and the oil pump, the second valve body including a second stationary groove and a second inlet port and a second outlet port; and a second intake valve operator in mechanical communication with the camshaft and in fluidic communication with the second discontinuous groove. 6. The engine system of claim 5 , further comprising a controller including executable instructions stored in non-transitory memory, which when executed by the controller, open the first valve independent from opening the second valve. 7. The engine system of claim 6 , further comprising additional instructions to open the second valve at a same time the first valve is opened. 8. The engine system of claim 5 , further comprising a first exhaust valve operator in mechanical communication with the camshaft and in fluidic communication with the first stationary groove. 9. The engine system of claim 5 , where the first discontinuous groove is positioned to inhibit oil flow to an exhaust valve operator between exhaust valve closing of a cylinder and intake valve opening of the cylinder. 10. A vehicle system, comprising: an engine including a camshaft with a discontinuous groove; a valve operator in mechanical communication with an exhaust valve and in fluidic communication with the discontinuous groove; and a camshaft journal cap including an oil exit port; and an accumulator in fluidic communication with the oil exit port. 11. The vehicle system of claim 10 , where the oil exit port is in fluidic communication with an exhaust valve operator. 12. The vehicle system of claim 10 , where the discontinuous groove is circumferential. 13. The vehicle system of claim 10 , where the discontinuous groove is axially oriented on the camshaft.