Exhaust-gas-turbocharged internal combustion engine having at least two turbines and switchable outlet openings, and method for operating an internal combustion engine of said type

The invention claimed is: 1. An engine system, comprising: an intake system for supplying charge air to an engine having at least two cylinders, each cylinder including at least two outlet openings for discharge of exhaust gases, at least one of the at least two outlet openings of each cylinder being a switchable outlet opening, each outlet opening being adjoined by an exhaust line for the discharge of the exhaust gases via an exhaust-gas discharge system, and wherein the at least two cylinders form at least two cylinder groups with at least one cylinder, the at least one cylinder of a first cylinder group being a cylinder which is operational during a partial deactivation of the engine, and the at least one cylinder of a second cylinder group being formed as a load-dependently switchable cylinder, and all of outlet openings of the at least one cylinder of the second cylinder group are in the form of switchable outlet openings; a first exhaust-gas turbocharger and a second exhaust-gas turbocharger, each exhaust-gas turbocharger comprising a turbine arranged in the exhaust-gas discharge system and a compressor arranged in the intake system; a first exhaust manifold formed from a first overall exhaust line, the exhaust line of the at least one switchable outlet opening of each cylinder discharging into the first overall exhaust line, said first overall exhaust line being connected to a first turbine of the first exhaust-gas turbocharger; a second exhaust manifold formed from a second overall exhaust line, the exhaust lines of the other outlet openings of the at least two cylinders merging to form the second overall exhaust line, said second overall exhaust line being connected to a second turbine of the second exhaust-gas turbocharger; a first compressor of the first exhaust-gas turbocharger arranged in a first intake line of the intake system, a shut-off element being arranged in the first intake line, and at least each switchable outlet opening whose exhaust line discharges into the first overall exhaust line equipped with an at least partially variable valve drive having at least one switchable outlet valve which opens up an associated outlet opening between an open position and a closed position, forming a valve lift Δh, during an opening duration Δt; and an electric machine which is at least connectable in terms of drive to the first turbine of the first exhaust-gas turbocharger and which is operable, as a generator, for receiving power from the first turbine; wherein the second turbine of the second exhaust-gas turbocharger does not have a bypass line. 2. The engine system as claimed in claim 1 , wherein the at least two cylinders are arranged into the first cylinder group and the second cylinder group, where at least one cylinder of the first cylinder group has only one switchable outlet opening, an exhaust line of which issues into the first overall exhaust line. 3. The engine system as claimed in claim 1 , wherein the at least two cylinders are arranged into the first cylinder group and the second cylinder group, where all of outlet openings of the at least one cylinder of the first cylinder group are in the form of switchable outlet openings. 4. The engine system as claimed in claim 1 , wherein the at least one switchable outlet valve of the each switchable outlet opening whose exhaust line discharges into the first overall exhaust line is an outlet valve which is adjustable with regard to the valve lift Δh. 5. The engine system as claimed in claim 4 , wherein the at least one switchable outlet valve of the each switchable outlet opening whose exhaust line discharges into the first overall exhaust line is an outlet valve which is adjustable in a two-stage fashion, a multi-stage fashion, or a continuously adjustable fashion, with regard to the valve lift Δh. 6. The engine system as claimed in claim 1 , wherein the at least one switchable outlet valve of the each switchable outlet opening whose exhaust line discharges into the first overall exhaust line is an outlet valve which is adjustable with regard to the opening duration Δt. 7. The engine system as claimed in claim 1 , wherein the engine has at least four cylinders in an in-line arrangement along a longitudinal axis of a cylinder head of the engine, and wherein outer cylinders form one cylinder group and at least two inner cylinders form another cylinder group. 8. The engine system as claimed in one claim 1 , wherein the overall exhaust lines merge to form a common exhaust line downstream of the turbines, and wherein the electric machine, which is coupled to the first turbine of the first exhaust-gas turbocharger, is operable as an auxiliary drive for assisting the first exhaust-gas turbocharger. 9. A method for operating an engine, comprising: determining engine operating conditions via a controller; responsive to a first condition determined via the controller, deactivating a first compressor of a first turbocharger, activating each first exhaust valve of each cylinder of the engine, and deactivating each second exhaust valve of each cylinder of the engine to flow exhaust gas from the engine to a second turbocharger; and responsive to boost pressure exceeding a threshold determined via the controller, maintaining deactivation of the first compressor, reactivating each second exhaust valve to flow exhaust gas from the engine to both the first turbocharger and the second turbocharger, and driving an electric assist device via a first turbine of the first turbocharger. 10. The method of claim 9 , wherein the first condition comprises engine load above a threshold load as determined via the controller and engine speed below a threshold speed as determined via the controller. 11. The method of claim 9 , wherein deactivating the first compressor comprises closing a compressor shut-off valve via the controller to block flow of intake air through the first compressor. 12. The method of claim 9 , further comprising, during the first condition and responsive to boost pressure exceeding the threshold as determined via the controller, flowing intake air through a second compressor of the second turbocharger via activating a switchable outlet opening of a cylinder. 13. A system, comprising: an engine having a first cylinder group and a second cylinder group, each cylinder of the engine including a first exhaust valve controlling a first exhaust port and a second exhaust valve controlling a second exhaust port; a first exhaust manifold fluidically coupled to the second exhaust port of the cylinder in the first cylinder group and the second cylinder group; a second exhaust manifold fluidically coupled to the first exhaust port of the cylinder in the first cylinder group and the second cylinder group; a first turbocharger including a first turbine fluidically coupled to the first exhaust manifold and a first compressor coupled to the first turbine, flow of intake air through the first compressor controlled by a compressor recirculation valve coupled in parallel to the first compressor and a compressor shut-off valve coupled downstream of the first compressor; a second turbocharger including a second turbine fluidically coupled to the second exhaust manifold and a second compressor coupled to the second turbine; an electric assist device coupled to the first turbine; and a controller including instructions to determine engine operating conditions, during a first condition determined from the engine operating conditions, provide boost pressure only via the second turbocharger via closing the compressor shut-off valve, and responsive to boost pressure exceeding a threshold pressure determined via th