Measuring fluid flow associated with a dialysis machine

What is claimed is: 1. A dialysis system, comprising: a plurality of pumps; a cassette including a plurality of pump chambers, wherein each pump chamber is fluidly connected to a corresponding pressure chamber; and a processor configured to: operate a first pump to draw fluid into a first pump chamber fluidly connected to a first pressure chamber, measure a first fluid volume in the first pump chamber; operate the first pump and a second pump to transfer fluid from the first pump chamber to a second pump chamber fluidly connected to a second pressure chamber, measure a second fluid volume in the second pump chamber, and determining a measured fluid volume for a single pump cycle based on the first fluid volume and the second fluid volume. 2. The dialysis system of claim 1 , wherein each pump comprises a piston configured to engage with a corresponding pump chamber to increase or decrease a volume of the corresponding pump chamber. 3. The dialysis system of claim 2 , wherein measuring a fluid volume in the corresponding pump chamber comprises: extending the piston to decrease the volume in the corresponding pump chamber; monitoring a pressure signal from a pressure transducer configured to measure a fluid pressure in the corresponding pressure chamber; reading a position of the piston at a time indicated by the pressure signal; and converting the position of the piston into the measured fluid volume. 4. The dialysis system of claim 3 , wherein the position of the piston is read based on an encoder signal for a lead screw attached to the piston. 5. The dialysis system of claim 1 , wherein determining the measured fluid volume for the single pump cycle comprises: determining a difference between the first fluid volume and the second fluid volume; comparing the difference to a threshold value; and if the difference is below the threshold value, calculating a mean of the first fluid volume and the second fluid volume as the measured fluid volume. 6. The dialysis system of claim 5 , wherein determining the measured fluid volume for the single pump cycle further comprises: if the difference is above the threshold value, setting an alert. 7. The dialysis system of claim 5 , wherein the threshold value is equal to 10 percent of the first fluid volume. 8. The dialysis system of claim 1 , wherein the plurality of pumps includes at least three pumps, and wherein the processor is further configured to: operate the second pump and a third pump to transfer fluid from the second pump chamber to a third pump chamber fluidly connected to a third pressure chamber; measure a third fluid volume in the third pump chamber; and calculate a mean of the first fluid volume, the second fluid volume, and the third fluid volume as the measured fluid volume. 9. The dialysis system of claim 1 , wherein the fluid is a dialysate solution. 10. The dialysis system of claim 1 , wherein fluid is drawn from a heater bag line coupled to the cassette, and wherein the processor is further configured to: accumulate the measured fluid volume in a total fluid volume variable to monitor a total amount of fluid drawn from the heater bag line; determine that the total amount of fluid drawn from the heater bag line is above a threshold value; and configure the cassette to withdraw fluid from a second line to transfer additional fluid to the heater bag line. 11. A method of operating a dialysis machine, the method comprising: operating a first pump to draw fluid into a first pump chamber of a cassette, wherein the first pump chamber is fluidly connected to a first pressure chamber; measuring a first fluid volume in the first pump chamber; operating the first pump and a second pump to transfer fluid from the first pump chamber to a second pump chamber of the cassette, wherein the second pump chamber is fluidly connected to a second pressure chamber; measuring a second fluid volume in the second pump chamber; and determining a measured fluid volume for a single pump cycle based on the first fluid volume and the second fluid volume. 12. The method of claim 11 , wherein each pump chamber is engaged with a piston configured to increase or decrease a volume of the corresponding pump chamber. 13. The method of claim 12 , wherein measuring a fluid volume in the corresponding pump chamber comprises: extending the piston to decrease the volume in the corresponding pump chamber; monitoring a pressure signal from a pressure transducer configured to measure a fluid pressure in the corresponding pressure chamber; reading a position of the piston at a time indicated by the pressure signal; and converting the position of the piston into the measured fluid volume. 14. The method of claim 11 , wherein determining the measured fluid volume for the single pump cycle comprises: determining a difference between the first fluid volume and the second fluid volume; comparing the difference to a threshold value; and if the difference is below the threshold value, calculating a mean of the first fluid volume and the second fluid volume as the measured fluid volume. 15. The method of claim 14 , wherein determining the measured fluid volume for the single pump cycle further comprises: if the difference is above the threshold value, setting an alert. 16. The method of claim 11 , the method further comprising: accumulating the measured fluid volume in a total fluid volume variable to monitor a total amount of fluid drawn from a heater bag line; determining that the total amount of fluid drawn from the heater bag line is above a threshold value; and configuring the cassette to withdraw fluid from a second line to transfer additional fluid to the heater bag line. 17. A non-transitory computer readable storage medium storing instructions that, when executed by a processor, causes a dialysis machine to measure a fluid volume by performing steps comprising: operating a first pump to draw fluid into a first pump chamber of a cassette, wherein the first pump chamber is fluidly connected to a first pressure chamber; measuring a first fluid volume in the first pump chamber; operating the first pump and a second pump to transfer fluid from the first pump chamber to a second pump chamber of the cassette, wherein the second pump chamber is fluidly connected to a second pressure chamber; measuring a second fluid volume in the second pump chamber; and determining a measured fluid volume for a single pump cycle based on the first fluid volume and the second fluid volume. 18. The non-transitory computer readable storage medium of claim 17 , wherein each pump chamber is engaged with a piston configured to increase or decrease a volume of the corresponding pump chamber, and wherein measuring a fluid volume in the corresponding pump chamber comprises: extending the piston to decrease the volume in the corresponding pump chamber; monitoring a pressure signal from a pressure transducer configured to measure a fluid pressure in the corresponding pressure chamber; reading a position of the piston at a time indicated by the pressure signal; and converting the position of the piston into the measured fluid volume. 19. The non-transitory computer readable storage medium of claim 17 , wherein determining the measured fluid volume for the single pump cycle comprises: determining a difference between the first fluid volume and the second fluid volume; comparing the difference to a threshold value; and if the difference is below the threshold value, calculating a