System and method for supplying electrical power to a gradient amplifier

What is claimed is: 1. A method for supplying electrical power to a gradient amplifier that drives a gradient coil for a magnetic resonance imaging system, the method comprising: predicting a gradient voltage required to drive the gradient coil for a scan based at least in part on a gradient coil model that is based at least in part on historical data acquired prior to the scan; calculating a voltage set point for a power supply based at least in part on the predicted gradient voltage; and providing electrical power to the gradient amplifier via the power supply based at least in part on the calculated voltage set point; wherein predicting the gradient voltage comprises calculating a voltage waveform based at least in part on a representative coil current waveform and the gradient coil model. 2. The method of claim 1 , the method further comprising: changing the representative coil current waveform; and predicting a subsequent gradient voltage required to drive the gradient coil for a subsequent scan. 3. The method of claim 1 , wherein predicting a gradient voltage required to drive the gradient coil for a scan based at least in part on a gradient coil model further comprises: calculating a maximum voltage based at least in part on the calculated voltage waveform. 4. The method of claim 3 , wherein calculating a voltage set point for a power supply based at least in part on the predicted gradient voltage comprises: adjusting the calculated maximum voltage based as least in part on a compensation voltage. 5. The method of claim 1 , wherein providing electrical power to the gradient amplifier via the power supply based at least in part on the calculated voltage set point occurs prior to a beginning of the scan. 6. The method of claim 1 , wherein the gradient coil model is based at least in part on a gradient coil impedance factor. 7. A gradient driver for a magnetic resonance imaging system, the gradient driver comprising: a gradient amplifier configured to drive a gradient coil in the magnetic resonance imaging system; a controller configured to electronically communicate with a power supply that provides electrical power to the gradient amplifier based at least in part on a voltage set point, and to calculate the voltage set point based at least in part on a gradient voltage required to drive the gradient coil for a scan; and wherein the controller is further configured to predict the gradient voltage based at least in part on a voltage waveform calculated by the controller based at least in part on a representative coil waveform and a gradient coil model derived from historical data. 8. The gradient driver of claim 7 , wherein the controller changes the representative coil current waveform, and predicts a subsequent gradient voltage required to drive the gradient coil for a subsequent scan. 9. The gradient driver of claim 7 , wherein the predicted gradient voltage is further based at least in part on a maximum voltage calculated by the controller based at least in part on the calculated voltage waveform. 10. The gradient driver of claim 9 , wherein the controller calculates the voltage set point by adjusting the calculated maximum voltage based at least in part on a compensation voltage. 11. The gradient driver of claim 7 , wherein the power supply is configured to provide electrical power to the gradient amplifier based at least in part on the voltage set point prior to a beginning of the scan. 12. The gradient driver of claim 7 , wherein the gradient coil model is based at least in part on a gradient coil impedance factor. 13. A magnetic resonance imaging system comprising: a magnet assembly that includes a gradient coil; a gradient amplifier configured to drive the gradient coil; a power supply configured to provide electrical power to the gradient amplifier based at least in part on a voltage set point; an MRI controller configured to electronically communicate with the power supply and to calculate the voltage set point based at least in part on a gradient voltage required to drive the gradient coil for a scan; and wherein the MRI controller is further configured to predict the gradient voltage via calculating a maximum voltage from a voltage waveform derived by applying a representative coil current waveform to a gradient coil model derived from historical data. 14. The magnetic resonance imaging system of claim 13 , wherein the MRI controller calculates a subsequent voltage set point via predicting a subsequent gradient voltage required to drive the gradient coil for a subsequent scan by applying the gradient coil model to a subsequent representative coil current waveform corresponding to the subsequent scan. 15. The magnetic resonance imaging system of claim 13 , wherein the MRI controller changes the representative coil current waveform, and calculates a subsequent voltage set point via predicting a subsequent gradient voltage during the scan. 16. The magnetic resonance imaging system of claim 13 , wherein the MRI controller adjusts the calculated maximum voltage based at least in part on a compensation voltage. 17. The magnetic resonance imaging system of claim 13 , wherein the gradient coil model is based at least in part on a gradient impedance factor.