Engine control apparatus

The invention claimed is: 1. An engine control apparatus that calculates a control target value of one actuator or control target values of a plurality of actuators, comprising: a multicore processor in which a plurality of cores are arranged in a latticed manner, wherein a plurality of lattice points that are arranged on a two-dimensional orthogonal coordinate system having axes representing a first operating condition and a second operating condition respectively are associated with at least one or some of the plurality of the cores respectively on one-on-one level on a same line as on the two-dimensional orthogonal coordinate system, and a calculation program for calculating an optimal control value of the one actuator at the associated lattice points or calculation programs for calculating optimal control values of the plurality of the actuators at the associated lattice points are allocated to at least one or some of the plurality of the cores respectively, each of the cores with which the lattice points are associated respectively is programmed, in a case where an operation area on the two-dimensional orthogonal coordinate system to which a current operating point belongs is an area that is defined by the lattice point associated with each of the cores itself, to transmit to an interpolation calculation core an optimal control value at the relevant lattice point that is calculated by each of the cores itself, the interpolation calculation core is programmed to perform an interpolation calculation of an optimal control value at the operating point using optimal control values at all the lattice points that define the operation area, and the multicore processor outputs the optimal control value at the operating point, which is obtained through the interpolation calculation, as the control target value. 2. The engine control apparatus according to claim 1 , wherein each of the cores with which the lattice points are associated respectively is programmed to function as the interpolation calculation core in a case where the operation area on the two-dimensional orthogonal coordinate system to which the current operating point belongs is an area that is defined by the lattice points associated with each of the cores itself, and where each of the cores itself is associated with a representative lattice point among the plurality of the lattice points that define the operation area. 3. The engine control apparatus according to claim 1 , wherein each of the cores with which the lattice points are associated respectively is programmed, in a case where the operation area on the two-dimensional orthogonal coordinate system to which the current operating point belongs is an area that is defined by the lattice points associated with each of the cores itself, to calculate optimal control values at the relevant lattice points according to the calculation program, and in a case where the operation area is not an area that is defined by the lattice points associated with each of the cores itself, to stop calculating optimal control values at the relevant lattice points. 4. The engine control apparatus according to claim 1 , wherein each of the cores with which the lattice points are associated respectively is programmed, in a case where an operation area that can be attained within a calculation time of optimal control values overlaps with an area that is defined by the lattice points associated with each of the cores itself, to calculate optimal control values at the relevant lattice points according to the calculation program, and in a case where the operation area does not overlap with the area that is defined by the lattice points associated with each of the cores itself, to stop calculating optimal control values at the relevant lattice points. 5. The engine control apparatus according to claim 1 , wherein the first operating condition and the second operating condition are an engine rotational speed and an engine load respectively. 6. The engine control apparatus according to claim 2 , wherein each of the plurality of the cores is equipped with a CPU and a local memory in which a program that is executed in the CPU is stored, and the calculation program and an interpolation calculation program that is executed in a case where the relevant core becomes the interpolation calculation core are stored in the local memory. 7. An engine control apparatus that calculates a control target value of one actuator or control target values of a plurality of actuators through use of a multicore processor, comprising: the multicore processor in which a plurality of cores are arranged in a latticed manner, wherein a plurality of lattice points that are arranged on a three-dimensional orthogonal coordinate system having axes representing a first operating condition, a second operating condition and a third operating condition respectively are associated with at least one or some of the plurality of the cores respectively on a same line as on a two-dimensional orthogonal coordinate system having axes representing the first operating condition and the second operating condition respectively, and a calculation program for calculating an optimal control value of the one actuator at each of the associated lattice points or calculation programs for calculating optimal control values of the plurality of the actuators at each of the lattice points are allocated to at least one or some of the plurality of the cores respectively, each of the cores with which the lattice points are associated is programmed, in a case where an operation space on the three-dimensional orthogonal coordinate system to which a current operating point belongs is a space that is defined by any of the plurality of the lattice points that are associated with each of the cores itself and are equal in respective values of the first operating condition and the second operating condition to one another and different in a value of the third operating condition from one another, to transmit, to an interpolation calculation core, optimal control values calculated by each of the cores itself at two of the lattice points that define the operation space, the interpolation calculation core is programmed to perform an interpolation calculation of an optimal control value at the operating point using optimal control values at all the lattice points that define the operation space, and the multicore processor outputs the optimal control value at the operating point, which is obtained through the interpolation calculation, as the control target value. 8. The engine control apparatus according to claim 7 , wherein each of the cores with which the lattice points are associated respectively is programmed to function as the interpolation calculation core in a case where an operation area on the two-dimensional orthogonal coordinate system to which the current operating point belongs is an area that is defined by the lattice points associated with each of the cores itself, and where each of the cores itself is associated with a representative lattice point among the plurality of the lattice points that define the operation area. 9. The engine control apparatus according to claim 7 , wherein each of the cores with which the lattice points are associated respectively is programmed, in a case where the operation space on the three-dimensional orthogonal coordinate system to which the current operating point belongs is a space that is defined by any of the lattice points associated with each of the cores itself, to calculate optimal control values at the lattice points associated with each of the cores itself among the lattice points that define the operation space according to the calculation program, and in a c