Electromechanically drivable brake pressure generator for a hydraulic braking system of a vehicle and vehicle including an electromechanical brake pressure generator

What is claimed is: 1. An electromechanically drivable brake pressure generator for a hydraulic braking system of a vehicle, comprising: a reducing gearbox unit that includes an output-side spindle drive unit; a hydraulic piston/cylinder unit that includes a piston; an electronic control unit; an electric motor unit that: includes a motor shaft; is activatable using the electronic control unit in accordance with a brake pressure to be applied; and is configured to generate a rotary motion which is converted by the reducing gearbox unit into a translatory motion for actuating the piston of the hydraulic piston/cylinder unit; and a hydraulic block that at least partially accommodates each of the piston/cylinder unit and the electric motor unit in such a way that the motor shaft of the electric motor unit extends at least predominantly in an area of the hydraulic block and is situated axially parallel to a longitudinal axis of the piston; wherein: the piston is movable in the hydraulic block; and the electromechanically drivable brake pressure generator includes at least one of the following three features (a)-(c): (a) hydraulic bores of the hydraulic block are matched to a cooling requirement of the electric motor in terms of dimensions; (b) the electromechanically drivable brake pressure generator further comprises a rotational speed and/or rotating direction sensor for the electric motor unit that is integrated into the electronic control unit and is situated in an area of an end motor shaft and at an opposite side of the hydraulic block than the gearbox unit; and (c) the electronic control unit includes, situated on a single circuit board, electronic components that carry out both electronic control of the motor unit and hydraulic valve activation of the piston/cylinder unit. 2. The electromechanically drivable brake pressure generator as recited in claim 1 , wherein the motor shaft is non-coaxial with the longitudinal axis of the piston, the generated rotary motion is of the motor shaft, and the piston is movable in the hydraulic block. 3. The electromechanically drivable brake pressure generator as recited in claim 2 , wherein: the motor shaft is attached to a first spur gear wheel of the reducing gearbox unit and is coaxial with a rotation axis of the first spur gear wheel; due to the attachment of the motor shaft to the first spur gear wheel, the generated rotary motion causes a corresponding rotation of the first spur gear wheel, which is converted by the reducing gearbox unit into a translatory motion for actuating the piston of the hydraulic piston/cylinder unit; and the conversion is realized by the first spur gear wheel causing a rotation of a second spur gear wheel to which a part of the output-side spindle drive unit is attached, which causes the part of the output-side spindle drive unit to spin coaxially with a rotation axis of the second spur gear wheel that is parallel to the rotation axis of the first spur gear wheel, the rotation axis of the second spur gear wheel being coaxial with the longitudinal axis of the piston. 4. The electromechanically drivable brake pressure generator as recited in claim 1 , wherein the hydraulic bores of the hydraulic block are matched to the cooling requirement of the electric motor unit in terms of dimensions. 5. The electromechanically drivable brake pressure generator as recited in claim 1 , wherein the hydraulic block is cuboidal and includes a first end face at which the gearbox unit is directly situated. 6. The electromechanically drivable brake pressure generator as recited in claim 5 , wherein the gearbox unit is a multi-stage spur gear, which bridges a center distance between the electric motor unit and the spindle drive unit, and wherein the spindle drive unit is situated coaxially to the piston/cylinder unit. 7. The electromechanically drivable brake pressure generator as recited in claim 6 , wherein gear wheels of the multi-stage spur gear are manufactured from a plastic material. 8. The electromechanically drivable brake pressure generator as recited in claim 5 , wherein the cuboidal hydraulic block includes a second end face, which is situated opposite the first end face and at which the electronic control unit is directly situated. 9. The electromechanically drivable brake pressure generator as recited in claim 1 , wherein the electromechanically drivable brake pressure generator further comprises the rotational speed and/or rotating direction sensor for the electric motor unit that is: situated in the area of the end of the motor shaft and at the opposite side of the hydraulic block than the gearbox unit; and integrated into the electronic control unit. 10. The electromechanically drivable brake pressure generator as recited in claim 1 , wherein the electronic control unit includes, situated on the single circuit board, the electronic components that carry out both the electronic control of the motor unit and the hydraulic valve activation of the piston/cylinder unit. 11. The electromechanically drivable brake pressure generator as recited in claim 1 , wherein the hydraulic block is manufactured from an aluminum alloy. 12. The electromechanically drivable brake pressure generator as recited in claim 11 , wherein the hydraulic block has a cuboid bounding geometry. 13. The electromechanically drivable brake pressure generator as recited in claim 1 , wherein at least a portion of the motor shaft and at least a portion of the hydraulic piston/cylinder unit are situated side-by-side of each other in a direction that is perpendicular to the longitudinal axis of the piston and to a longitudinal axis of the motor shaft. 14. An electromechanically drivable brake pressure generator for a hydraulic braking system of a vehicle, comprising: a reducing gearbox unit that includes an output-side spindle drive unit; a hydraulic piston/cylinder unit that includes a piston; an electronic control unit; an electric motor unit that: includes a motor shaft that is non-coaxial with a longitudinal axis of the piston; is activatable using the electronic control unit in accordance with a brake pressure to be applied; and is configured to generate a rotary motion of the motor shaft which is converted by the reducing gearbox unit into a translatory motion for actuating the piston of the hydraulic piston/cylinder unit; and a hydraulic block that is manufactures from an aluminum alloy and that at least partially accommodates each of the piston/cylinder unit and the electric motor unit in such a way that the motor shaft of the electric motor unit extends at least predominantly in an area of the hydraulic block and is situated axially parallel to the longitudinal axis of the piston, wherein the piston is movable in the hydraulic block, wherein hydraulic bores of the hydraulic block have dimensions by which the hydraulic bores satisfy a cooling requirement of the electric motor unit. 15. A vehicle including an electromechanical brake pressure generator for a hydraulic braking system, the electromechanical brake pressure generator comprising: a reducing gearbox unit that includes an output-side spindle drive unit; a hydraulic piston/cylinder unit that includes a piston; an electronic control unit; an electric motor unit that: includes a motor shaft; is activatable using the electronic control unit in accordance with a brake pressure to be applied; and is configured to generate a rotary motion which is converted by the reducing gearbox unit into a translatory motion for actuating the piston of the hydraulic piston/cylinder unit; and a hydraulic