Continuous sample delivery peristaltic pump

What is claimed is: 1. A method of pumping a fluid through a tubing that is positioned partially around a periphery of a first disk of a peristaltic pump and partially around a periphery of a second disk of the peristaltic pump, the method comprising: orbiting a plurality of first rollers at a constant angular speed around the periphery of the first disk such that the first rollers are constantly pressed into contact with the periphery of the first disk, the tubing, or the periphery of the first disk and the tubing, wherein the first disk includes a first angular sector that is configured to cause the first rollers to move along a first section of the periphery of the first disk at a first tangential speed and a second angular sector that is configured to cause the first rollers to move along a second section of the periphery of the first disk at a second tangential speed less than the first tangential speed; orbiting a plurality of second rollers at the constant angular speed around the periphery of the second disk such that the second rollers are constantly pressed into contact with the periphery of the second disk, the tubing, or the periphery of the second disk and the tubing, wherein the second disk is configured to cause each second roller to move at substantially the second tangential speed; increasing a pressure of a portion of the fluid in the tubing between one first roller and one second roller by causing the one first roller to fully compress the tubing in the first angular sector and simultaneously causing the one second roller to fully compress the tubing in a first section of the periphery of the second disk; and moving, after increasing the pressure of the portion of the fluid, the portion of the fluid through the tubing at a constant pressure towards an output of the tubing by causing the one first roller to fully compress the tubing in the second angular sector and simultaneously causing the one second roller to fully compress the tubing. 2. The method of claim 1 , wherein: the first disk has a first nominal radius throughout at least part of the first angular sector and a second nominal radius throughout the second angular sector, the second disk has the second nominal radius, and the first nominal radius is larger than the second nominal radius. 3. The method of claim 2 , wherein the first disk gradually transitions in radius from the first radius to the second radius in between the first angular sector and the second angular sector. 4. The method of claim 1 , wherein moving the portion of the fluid through the tubing at the constant pressure towards the output of the tubing further comprises: causing, after the one first roller has moved along the second section of the periphery of the first disk: the one first roller to move along a third angular sector of the first disk that includes a third section of the periphery of the first disk, wherein the first disk is configured to cause the one first roller to move along the third section at the second tangential speed, the one first roller to fully compress the tubing at at least a beginning of the third section in a direction of rotation of the first roller with respect to the first disk, and the one first roller to not fully compress the tubing at at least an end of the third section of the periphery of the first disk in the direction of rotation of the first roller with respect to the first disk; and causing another second roller to fully compress the tubing against the second disk before causing the one first roller to not fully compress the tubing at at least the end of the third section of the periphery of the first disk. 5. The method of claim 4 , further comprising causing another first roller to fully compress the tubing before causing the one first roller to not fully compress the tubing at at least the end of the third section of the periphery of the first disk. 6. The method of claim 4 , further comprising causing the one second roller to fully compress the tubing when the one first roller is at least at the beginning of the third section of the periphery of the first disk and not to compress the tubing when the one first roller is at least at the end of the third section of the periphery of the first disk. 7. The method of claim 1 , wherein there are only two first rollers and only two second rollers. 8. The method of claim 1 , further comprising drawing fluid into the tubing through an inlet by sequentially causing each first roller to fully compress the tubing and orbit around at least part of the periphery of the first disk. 9. The method of claim 1 , wherein orbiting the plurality of first rollers at the constant angular speed around the periphery of the first disk and orbiting the plurality of second rollers at the constant angular speed around the periphery of the second disk includes fixing the first disk and the second disk in stationary positions and causing the plurality of first rollers to orbit around the first disk and causing the plurality of second rollers to orbit around the second disk. 10. The method of claim 1 , wherein the output is configured to supply the fluid to one of a flow cell or a cuvette. 11. The method of claim 1 , wherein the output of the tubing has a pressure that substantially matches the constant pressure of the portion of the fluid. 12. The method of claim 1 , wherein the output is configured to supply the fluid to a nozzle of a flow cytometer. 13. An apparatus, comprising: a first disk, including: a first recess in the periphery of the first disk, the first recess configured to receive a first portion of tubing for conveying fluid, a first angular sector that has a nominal first radius and includes a first section of a periphery of the first disk, and a second angular sector that has a nominal second radius and includes a second section of the periphery of the first disk, wherein the second radius is smaller than the first radius, and wherein the first section of the periphery of the first disk is longer than the second section of the periphery of the first disk; a second disk that is substantially circular, has the nominal first radius, and includes a second recess in a periphery of the second disk, the second recess configured to receive a second portion of the tubing; a plurality of first rollers that are configured to orbit around the periphery of the first disk at a constant angular speed and configured to, when the first portion of the tubing is in the first recess, constantly press into contact with the periphery of the first disk, the tubing, or the periphery of the first disk and the tubing; and a plurality of second rollers that are configured to orbit around the periphery of the second disk at the constant angular speed and configured to, when the second portion of the tubing is in the second recess, constantly press into contact with the periphery of the second disk, the tubing, or the periphery of the second disk and the tubing, wherein: the first disk is configured such that each first roller moves in the first angular sector at a first tangential speed while fully compressing the tubing and such that each first roller moves in the second angular sector at a second tangential speed while fully compressing the tubing, the second disk is configured such that each second roller moves around the periphery of the second disk at the second tangential speed, the first disk, second disk, first rollers, and second rollers are configured to cause one first roller to fully compress the tubing while moving in the first angular sector and to simultaneously cause one second roller to fully compress the tubing while moving in