Autosampler and gas chromatography system and method including same

What is claimed: 1. A gas chromatography system comprising: at least one gas chromatography subsystem including a first injector port and a second injector port; an autosampler including: a carousel tray mounted for rotation about a rotation axis, wherein the carousel tray is mounted above the first and second injector ports, and wherein the carousel tray includes: an arcuately extending first row of sample reservoirs; and an arcuately extending second row of sample reservoirs; a first sample transfer tower to extract samples from the first row of sample reservoirs; a second sample transfer tower to extract samples from the second row of sample reservoirs; and a control system operative to: selectively position the carousel tray relative to the first and second sample transfer towers to align the first sample transfer tower with a first sample reservoir in the first row and to align the second sample transfer tower with a second sample reservoir in the second row; simultaneously draw a first sample from the first sample reservoir using the first sample transfer tower and a second sample from the second sample reservoir using the second sample transfer tower; and sequentially thereafter simultaneously inject the first sample into the first injector port using the first sample transfer tower and the second sample into the second injector port using the second sample transfer tower. 2. The gas chromatography system of claim 1 including first and second gas chromatography subsystems each including: a sample injector; a column fluidly connected to the sample injector; and a detector fluidly connected to the column; wherein the sample injector of the first gas chromatography subsystem includes the first injector port and the sample injector of the second gas chromatography subsystem includes the second injector port. 3. The gas chromatography system of claim 1 wherein the control system is operative to draw the first and second samples from the selected pair of the first and second sample reservoirs using the first and second sample transfer towers within less than 50 milliseconds of one another. 4. The gas chromatography system of claim 1 wherein the control system is operative to inject the first and second samples into the first and second injector ports using the first and second sample transfer towers within less than 50 milliseconds of one another. 5. The gas chromatography system of claim 1 wherein the control system is operative to: selectively reposition the carousel tray relative to the first and second sample transfer towers to align the first and second sample transfer towers with a third sample reservoir in the first row and a fourth sample reservoir in the second row, respectively; simultaneously draw a third sample from the third sample reservoir using the first sample transfer tower and a fourth sample from the fourth sample reservoir using the second sample transfer tower; and sequentially thereafter simultaneously inject the third sample into the first injector port using the first sample transfer tower and the fourth sample into the second injector port using the second sample transfer tower. 6. The gas chromatography system of claim 1 wherein the first and second sample transfer towers are fixed in alignment with the first and second injector ports, respectively. 7. The gas chromatography system of claim 1 wherein: each of the first and second sample transfer towers includes: a syringe including a needle; and a syringe actuator; and the control system is operative to: drive the needles of the first and second sample transfer towers into the first and second sample reservoirs and to operate the syringes using the associated syringe actuators to draw the first and second samples therefrom; and drive the needles of the first and second sample transfer towers into the first and second injector ports and to operate the syringes using the associated syringe actuators to inject the first and second samples into the first and second injector ports. 8. The gas chromatography system of claim 7 wherein: the needle of the first sample transfer tower has a first needle axis; the needle of the second sample transfer tower has a second needle axis; the first injector port is aligned with the first needle axis and the second injector port is aligned with the second needle axis; and the autosampler is configured to position the carousel between the first and second injector ports and the needles of the first and second transfer towers such that a sample reservoir in the first row is aligned with the first needle axis and a sample reservoir in the second row is aligned with the second needle axis. 9. The gas chromatography system of claim 1 wherein the second row is located radially between the first row and the rotation axis of the carousel tray. 10. A method for performing gas chromatography, the method comprising: providing a gas chromatography system including: at least one gas chromatography subsystem including a first injector port and a second injector port; an autosampler including: a carousel tray mounted for rotation about a rotation axis, wherein the carousel tray is mounted above the first and second injector ports, and wherein the carousel tray includes: an arcuately extending first row of sample reservoirs; and an arcuately extending second row of sample reservoirs; a first sample transfer tower to extract samples from the first row of sample reservoirs; a second sample transfer tower to extract samples from the second row of sample reservoirs; and a control system; selectively positioning the carousel tray relative to the first and second sample transfer towers to align the first sample transfer tower with a first sample reservoir in the first row and to align the second sample transfer tower with a second sample reservoir in the second row; simultaneously drawing a first sample from the first sample reservoir using the first sample transfer tower and a second sample from the second sample reservoir using the second sample transfer tower; and sequentially thereafter simultaneously injecting the first sample into the first injector port using the first sample transfer tower and the second sample into the second injector port using the second sample transfer tower. 11. The method of claim 10 wherein: the gas chromatography system includes first and second gas chromatography subsystems each including: a sample injector; a column fluidly connected to the sample injector; and a detector fluidly connected to the column; wherein the sample injector of the first gas chromatography subsystem includes the first injector port and the sample injector of the second gas chromatography subsystem includes the second injector port. 12. The method of claim 10 including drawing the first and second samples from the first and second sample reservoirs using the first and second sample transfer towers within less than 50 milliseconds of one another. 13. The method of claim 10 including injecting the first and second samples into the first and second injector ports using the first and second sample transfer towers within less than 50 milliseconds of one another. 14. The method of claim 10 including: selectively repositioning the carousel tray relative to the first and second sample transfer towers to align the first and second sample transfer towers with a third sample reservoir in the first row and a fourth sample reservoir in the second row, respectively; simultaneously drawing a third sample from the third sample reservoir using the first sample transfer tow