Braking system for a motor vehicle

What is claimed is: 1. A hydraulic brake system for a motor vehicle comprising: a first electrically controllable pressure source which supplies a brake pressure for operating wheel brakes; an electrically controllable pressure modulation device for setting wheel-specific brake pressures for the wheel brakes with an inlet valve that can be operated electrically and an outlet valve that can be operated electrically for each wheel brake; a second electrically controllable pressure source for supplying a brake pressure for operating the wheel brakes comprising a motor-pump assembly with an at least dual circuit hydraulic pump and at least one low-pressure reservoir, whereby the low-pressure reservoir is connected to an output port of at least one outlet valve; a first electrical power supply unit and a second electrical power supply unit that is independent of the first electrical power supply unit; and whereby the first pressure source is exclusively supplied with electrical energy by the first power supply unit, the second pressure source is exclusively supplied with electrical energy by the second power supply unit, and the pressure modulation device is supplied with electrical energy by the first power supply unit or the second power supply unit or by both the first power supply and the second power supply. 2. The brake system of claim 1 , wherein a first electronic control and regulating unit associated which actuates the first pressure source, a second electronic control and regulating unit which actuates the second pressure source and a third electronic control and regulating unit which actuates the pressure modulation device are provided. 3. The brake system of claim 2 , wherein the first electronic control and regulating unit can be supplied with electrical energy by the first power supply unit, the second electronic control and regulating unit can be supplied with electrical energy by the second power supply unit and the third electronic control and regulating unit can be supplied with electrical energy by the first power supply unit and by the second power supply unit. 4. The brake system of claim 3 , further comprising an electronic device connecting the third electronic control and regulating unit to the first and the second power supply units, wherein a fault in one of the power supply units results in a failure of the power supply of the third electronic control and regulating unit. 5. The brake system of claim 2 , wherein the first, the second and the third electronic control and regulating units are connected to each other by at least one data bus. 6. The brake system of claim 2 , wherein the third electronic control and regulating unit receives signals from wheel revolution rate sensor and from a sensor device for detecting driving dynamics variables. 7. The brake system of claim 1 , further comprising valves of the second pressure source that can be operated electrically. 8. The brake system of claim 7 , wherein the valves of and the motor-pump assembly of the second pressure source are actuated by the second electronic control and regulating unit. 9. The brake system of claim 7 , wherein the valves of the second pressure source are actuated by a third electronic control and regulating unit, and the motor-pump assembly of the second pressure source is actuated by the second electronic control and regulating unit. 10. The brake system of claim 1 , further comprising a master brake cylinder with a braking force booster for the first electrically controllable pressure source, wherein the master brake cylinder is connected upstream thereof and can be controlled both mechanically by a brake pedal and electrically, wherein the master brake cylinder defines two pressure chambers and a brake circuit with wheel brakes is associated with each of the pressure chambers. 11. The brake system of claim 10 , wherein for each brake circuit a suction port of the pump is reversibly connected to the associated pressure chamber of the master brake cylinder by a normally closed valve, and a pressure port of the pump is connected directly to the inlet valves of the wheel brakes of the brake circuit. 12. The brake system of claim 10 , wherein the braking force booster further comprises an electrically controllable electromechanical actuator, which is an electric motor and a translation-rotation gearbox that operates a piston of the master brake cylinder. 13. The brake system of claim 10 , wherein the second pressure source further comprises a first normally open valve, a second normally closed valve and a low-pressure reservoir for each brake circuit, whereby the outlet valves of the wheel brakes of the brake circuit are connected to the low-pressure reservoir. 14. The brake system of claim 10 , wherein for one of the brake circuits the second pressure source comprises a first normally open valve, a second normally closed valve and the low-pressure reservoir, whereby the outlet valves of the wheel brakes of said brake circuit are connected to the low-pressure reservoir, and the outlet valves of the wheel brakes of the other brake circuit are connected to a pressure medium reservoir container that is at atmospheric pressure and associated with the first pressure source. 15. A hydraulic brake system for a motor vehicle comprising: a first electrically controllable pressure source which supplies a brake pressure for operating wheel brakes; an electrically controllable pressure modulation device for setting wheel-specific brake pressures for the wheel brakes with an inlet valve that can be operated electrically and an outlet valve that can be operated electrically for each wheel brake; a second electrically controllable pressure source for supplying a brake pressure for operating the wheel brakes comprising a motor-pump assembly with an at least dual circuit hydraulic pump and at least one low-pressure reservoir, whereby the low-pressure reservoir is connected to an output port of at least one outlet valve; a first electrical power supply unit and a second electrical power supply unit that is independent of the first electrical power supply unit, whereby the first pressure source can be supplied with electrical energy by the first power supply unit, the second pressure source can be supplied with electrical energy by the second power supply unit and the pressure modulation device can be supplied with electrical energy by the first power supply unit and the second power supply unit; and a first electronic control and regulating unit associated which actuates the first pressure source, a second electronic control and regulating unit which actuates the second pressure source and a third electronic control and regulating unit which actuates the pressure modulation device are provided. 16. The brake system of claim 15 , wherein the first electronic control and regulating unit can be supplied with electrical energy by the first power supply unit, the second electronic control and regulating unit can be supplied with electrical energy by the second power supply unit and the third electronic control and regulating unit can be supplied with electrical energy by the first power supply unit and by the second power supply unit. 17. The brake system of claim 16 , further comprising an electronic device connecting the third electronic control and regulating unit to the first and the second power supply units, wherein a fault in one of the power supply units results in a failure of the power supply of the third electronic control and regulating unit. 18. The brake system of claim 15 , where