Control system of engine

What is claimed is: 1. A control system of an engine, the control system controlling, by using a tumble flow, a behavior of fuel that is directly injected into a combustion chamber formed inside a cylinder of the engine, the control system comprising: a fuel injector for directly injecting the fuel into the combustion chamber; an intake port configured to generate the tumble flow within the combustion chamber; and a processor configured to: control an ignition plug of the engine to ignite after a top dead center on compression stroke of the cylinder in a cold state of the engine; and control the fuel injector to inject the fuel in a three-stage injection at an intake-stroke injection timing designed to be on intake stroke of the cylinder, a compression-stroke-early-half injection timing designed to be in an early half of the compression stroke, and a compression-stroke-latter-half injection timing designed to be in a latter half of the compression stroke, wherein the processor controls the fuel injector to inject the fuel toward a vortex center of the tumble flow above an anti-injector-side inclined surface of a crown surface of the combustion chamber at the compression-stroke-early-half injection timing. 2. The control system of claim 1 , wherein the ignition plug of the engine is provided in a center portion of a ceiling of the combustion chamber, wherein the fuel injector is disposed at a position of a circumferential edge portion of the ceiling of the combustion chamber on a side where the intake port is provided, and injects the fuel obliquely downward and toward an opposite side from the intake port, and wherein the engine has a piston having a crown surface, and the crown surface is formed with an inclined surface extending obliquely upward and toward the side where the fuel injector is provided, from an end portion of the crown surface on an opposite side from the fuel injector. 3. The control system of claim 2 , wherein the compression-stroke-early-half injection timing is designed to be a timing at which a range of a center axis of the combustion chamber intersecting with an extension of an injection range of the fuel injected by the fuel injector at a predetermined spread angle is located above a position of the center axis intersecting with an extension plane of the inclined surface of the crown surface. 4. The control system of claim 3 , wherein the compression-stroke-early-half injection timing is designed to be between 160 and 110 degrees before the top dead center of the compression stroke.