Fiducial point optimization

What is claimed is: 1. A method for monitoring operation of an implantable blood pump, the method comprising: determining an amount of current supplied to the pump; determining a first flow rate value and a second flow rate value based on the amount of current supplied to the pump; and determining a flow rate of blood based on a combination of the first and second flow rate values and a weighting parameter; assigning to at least one from the group consisting of the first and second flow rate values a weight based at least in part on a determined relationship between the weighting parameter and a predetermined threshold value; and determining the relationship between the weighting parameter and the predetermined threshold value includes comparing the difference between the weighting parameter and the predetermined threshold value to a preselected spread value. 2. The method of claim 1 , wherein the implantable blood pump includes a housing having an axis and a rotor disposed within the housing and rotatable around the axis, and wherein the weighting parameter is related to thrust on the rotor along the axis. 3. The method of claim 1 , wherein the weighting parameter at least one of increases and decreases monotonically over the range of operable flow rates for the pump. 4. The method of claim 1 , wherein the assigned weight for the first flow rate value is inversely proportionate to the relationship between the weighting parameter and the predetermined threshold value, and the assigned weight for the second flow rate value is proportionate to the relationship between the weighting parameter and the predetermined threshold value. 5. The method of claim 1 , further comprising: calculating an absolute difference between the weighting parameter and a predetermined threshold value; comparing said absolute difference to a predetermined spread value; and wherein the flow rate of blood based is determined based on a combination of the first and second flow rate values when the absolute difference between the third parameter and a predetermined threshold value is less than the predetermined spread value. 6. The method of claim 5 , further comprising: when the absolute difference is greater than the spread value, and the third parameter is less than the predetermined threshold value, determining the flow rate of blood based on the first flow rate value and not the second flow rate value; and when the absolute difference is greater than the spread value, and the third parameter is greater than the predetermined threshold value, determining the flow rate of blood based on the second flow rate value and not the first flow rate value. 7. The method of claim 5 , further comprising: determining a speed of rotation of the rotor; and comparing the determined speed to a threshold value, wherein when absolute difference is greater than the spread value, the third parameter is less than the predetermined threshold value: the flow rate of blood is determined based on the first flow rate value when the determined speed is greater than the threshold value, and when the determined speed is less than the threshold speed value, the flow rate of blood is determined based on the third parameter and neither of the first and second flow rate values. 8. A control circuit for monitoring the operation of an implantable blood pump, the control circuit comprising: a current determination circuit configure to determine an amount of current supplied to the pump; a flow rate value determination circuit configure to determine a first flow rate value and a second flow rate value based on the amount of current supplied to the pump; a transformation circuit configured to determine a weighting parameter; and a flow rate determination circuit configure to determine a flow rate of blood through the pump based on a at least one from the group consisting of the first and second flow rate values and the weighting parameter, the flow rate determination circuit being further configured to: determine a relationship between the weighting parameter and a predetermined threshold value; determine a respective weight for each of the first and second flow rate values based on the relationship; compare the difference between the weighting parameter and the predetermined threshold value to a preselected spread value, the relationship between the weighting parameter and the predetermined threshold value is determined based on the comparison. 9. The control circuit of claim 8 , wherein the implantable blood pump includes a housing having an axis and a rotor disposed within the housing and rotatable around the axis, and wherein the weighting parameter is related to thrust on the rotor along the axis. 10. The control circuit of claim 8 , wherein the weight for the first flow rate value is inversely proportionate to the relationship between the weighting parameter and the predetermined threshold value, and the weight for the second flow rate value is proportionate to the relationship between the weighting parameter and a predetermined threshold value. 11. The control circuit of claim 8 , wherein the flow rate determination circuit is further operative to: calculate an absolute difference between the third parameter and a predetermined threshold value; and compare the absolute difference to a predetermined spread value, wherein the flow rate determination circuit determines the flow rate of blood based on a combination of the first and second flow rate values when the absolute difference between the third parameter and a predetermined threshold value is less than the predetermined spread value. 12. The control circuit of claim 11 , wherein the flow rate determination circuit is further operative to: determine the flow rate of blood based on the first flow rate value and not the second flow rate value when absolute difference is greater than the spread value, and the weighting parameter is less than the predetermined threshold value; and determine the flow rate of blood based on the second flow rate value and not the first flow rate value when the absolute difference is greater than the spread value, and the weighting parameter is greater than the predetermined threshold value. 13. A control circuit as in claim 11 , further comprising a speed determination circuit operative to determine a speed of rotation of the rotor, wherein the flow rate determination circuit is further operative to: compare the determined speed to a preselected threshold value; determine the flow rate of blood based on based on the weighting parameter and neither of the first and second flow rate values when the absolute difference is greater than the spread value, the weighting parameter is less than the predetermined threshold value and the determined speed is less than the threshold value.