Vacuum generation with a peripheral venturi

The invention claimed is: 1. A system comprising: a throttle positioned in an intake passage of an engine; a first peripheral venturi extended across a bottom portion of the intake passage and positioned asymmetrically inside the intake passage on a downstream side of the throttle, the first peripheral venturi having an inlet positioned to interface with a first lower downstream edge of the throttle when the throttle is in a partially open position at a first angle; and a second peripheral venturi extended across an upper portion of the intake passage and positioned asymmetrically inside the intake passage on an upstream side of the throttle, the second peripheral venturi having an outlet positioned to interface with a second higher upstream edge of the throttle when the throttle is in the partially open position at the first angle. 2. The system of claim 1 , further comprising a first vacuum port coupling the first peripheral venturi to a vacuum consumer and a second vacuum port coupling the second peripheral venturi to a vacuum consumer. 3. A method for an engine, comprising: generating vacuum via intake air flow through a first peripheral venturi positioned asymmetrically inside an intake passage downstream of a throttle and extended across a bottom portion of the intake passage, the first peripheral venturi having an inlet positioned at an interface with a downstream edge of the throttle when the throttle is in a partially open position at a first angle, and further comprising generating vacuum via intake air flow through a second peripheral venturi positioned asymmetrically inside the intake passage upstream of the throttle and extended across an upper portion of the intake passage, the second peripheral venturi having an outlet positioned at an interface with an upstream edge of the throttle when the throttle is in the partially open position at the first angle. 4. The method of claim 3 , further comprising applying vacuum from the first peripheral venturi to a vacuum consumer and applying vacuum from the second peripheral venturi to a vacuum consumer. 5. The method of claim 3 , further comprising, when the inlet of the first peripheral venturi interfaces with the downstream edge of the throttle and the outlet of the second peripheral venturi interfaces with the upstream edge of the throttle, adjusting a fuel injection amount and timing to one or more cylinders of the engine. 6. The method of claim 5 , further comprising decreasing a fuel injection quantity to the one or more cylinders of the engine when the inlet of the first peripheral venturi interfaces with the downstream edge of the throttle and the outlet of the second peripheral venturi interfaces with the upstream edge of the throttle. 7. The method of claim 3 , further comprising, when the throttle is at the interfaces with the first and second peripheral venturis, oscillating the position of the throttle around the interfaces, including moving the throttle out of the interfaces occasionally to allow some intake air flow over the first and second peripheral venturis. 8. A method for an engine comprising: adjusting a position of a throttle arranged in an intake passage based on a desired level of vacuum across the throttle; generating vacuum via intake air flow through a first peripheral venturi positioned asymmetrically inside the intake passage downstream of the throttle and a second peripheral venturi positioned asymmetrically inside the intake passage upstream of the throttle, wherein the first peripheral venturi has an inlet positioned at an interface with an inward-facing downstream edge of the throttle when the throttle is in a partially open position at a first angle, and wherein the second peripheral venturi has an outlet positioned at an interface with an outward-facing upstream edge of the throttle when the throttle is in the partially open position at the first angle; and adjusting an operating parameter to maintain torque responsive to the adjusting of the position of the throttle. 9. The method of claim 8 , wherein the operating parameter comprises boost pressure. 10. The method of claim 8 , wherein the operating parameter comprises valve timing. 11. The method of claim 8 , wherein the operating parameter comprises exhaust gas recirculation rate. 12. The method of claim 8 , further comprising adjusting fuel injection to one or more cylinders of the engine responsive to the adjusting of the position of the throttle. 13. The method of claim 12 , wherein adjusting fuel injection to one or more cylinders of the engine responsive to the adjusting of the position of the throttle comprises decreasing the fuel injection to one or more cylinders of the engine as the throttle interfaces with the first and second peripheral venturis. 14. The method of claim 8 , further comprising applying the vacuum to a vacuum consumer. 15. The method of claim 8 , wherein adjusting the position of the throttle further comprises adjusting the throttle to the partially open position at the first angle to interface the downstream edge of the throttle with the inlet of the first peripheral venturi and to interface the upstream edge of the throttle with the outlet of the second peripheral venturi. 16. The method of claim 8 , further comprising, when the throttle is at the interfaces with the first and second peripheral venturis, oscillating the position of the throttle around the interfaces, including moving the throttle out of the interfaces occasionally to allow some intake air flow over the first and second peripheral venturis.