Method and system for liquid chromatography fluidic monitoring

What is claimed is: 1. A method of balancing fluid pressure between a first portion and a second portion of a fluidic system of a liquid chromatography system, the first and second fluidic system portions fluidically coupled to first and second inlet ports, respectively, of a first valve that comprises a first configuration by which fluids from both the first and second portions are combined and directed to an outlet line and a second configuration by which only fluid from the second portion is directed to the outlet line, wherein, initially, the first valve is in its second configuration such that only the second portion is initially fluidically coupled to the outlet line at a fluid pressure that is greater than a fluid pressure of the first portion, the method characterized by: (a) configuring a multiport selection valve of the first portion so as to fluidically couple a syringe pump of the first portion to a port of the multiport selection valve to which is affixed a plug that prevents fluid flow through said port; (b) compressing a fluid within the syringe pump so that a reading of a first pressure sensor matches a reading of a second pressure sensor, wherein the first and second pressure sensors measure fluid pressure within the first and second portions, respectively; (c) configuring the multiport selection valve, with the reading of the first pressure sensor matching the reading of the second pressure sensor, so as to fluidically couple the syringe pump to a fluid line of the first portion of the fluidic system and to the first inlet port of the first valve; and (d) placing the first valve in its first configuration such both the first and second portions of the fluidic system are fluidically coupled to the outlet line and to an analytical chromatographic column to which the outlet line is coupled. 2. A method as recited in claim 1 , wherein the first portion of the fluidic system includes a second chromatographic column that is fluidically coupled between the multiport selection valve and the first valve. 3. A method as recited in claim 2 , wherein the second chromatographic column comprises a cleanup column. 4. A method as recited in claim 1 , wherein the initial difference between the fluid pressure of the first portion and the fluid pressure of the second portion is caused by a difference of fluid properties between a fluid within the first portion and a fluid within the second portion. 5. A method as recited in claim 1 , wherein the initial difference between the fluid pressure of the first portion and the fluid pressure of the second portion is caused by a difference of flow rates between a fluid within the first portion and a fluid within the second portion. 6. A method of balancing fluid pressure between a first portion and a second portion of a fluidic system of a liquid chromatography system, the first and second fluidic system portions fluidically coupled to first and second inlet ports, respectively, of a first valve that comprises a first configuration by which fluids from both the first and second portions are combined and directed to an outlet line and a second configuration by which only fluid from the second portion is directed to the outlet line, wherein, initially, the first valve is in its second configuration such that only the second portion is initially fluidically coupled to the outlet line at a fluid pressure that is less than a fluid pressure of the first portion, the method characterized by: (a) configuring a multiport selection valve of the second portion so as to fluidically couple a syringe pump of the second portion to a port of the multiport selection valve to which is affixed a plug that prevents fluid flow through said port; (b) compressing a fluid within the syringe pump so that a reading of a second pressure sensor matches a reading of a first pressure sensor, wherein the first and second pressure sensors measure fluid pressure within the first and second portions, respectively; (c) configuring the multiport selection valve, with the reading of the second pressure sensor matching the reading of the first pressure sensor, so as to fluidically couple the syringe pump to a fluid line of the second portion of the fluidic system and to the second inlet port of the first valve; and (d) placing the first valve in its first configuration such both the first and second portions of the fluidic system are fluidically coupled to the outlet line and to an analytical chromatographic column to which the outlet line is coupled. 7. A method as recited in claim 6 , wherein the first portion of the fluidic system includes a second chromatographic column that is fluidically coupled between the multiport selection valve and the first valve. 8. A method as recited in claim 7 , wherein the second chromatographic column comprises a cleanup column. 9. A method as recited in claim 6 , wherein the initial difference between the fluid pressure of the first portion and the fluid pressure of the second portion is caused by a difference of fluid properties between a fluid within the first portion and a fluid within the second portion. 10. A method as recited in claim 6 , wherein the initial difference between the fluid pressure of the first portion and the fluid pressure of the second portion is caused by a difference of flow rates between a fluid within the first portion and a fluid within the second portion.