Modular vacuum pumping and/or abatement system

The invention claimed is: 1. A modular vacuum pumping and abatement system for evacuating and abating a gas from an entity, the system comprising: a plurality of functional modules; and a plurality of gas connection lines, each of the gas connection lines for conveying a flow of gas therethrough; wherein the plurality of functional modules comprises: a first module comprising a vacuum pumping apparatus for pumping the gas from the entity; and a second module comprising an abatement apparatus for abating the gas pumped from the entity; the first module is positioned adjacent to the second module in a first system dimension; the first and second modules each have a maximum size in the first system dimension that is a first respective integer multiple of a common fixed system value; the first module is fluidly connected to the second module by at least one of the plurality of gas connection lines such that the abatement apparatus may receive the gas pumped from the entity by the vacuum pumping apparatus; and each of the gas connection lines comprises one or more sections, each of the sections having a size that is a second respective integer multiple of the common fixed system value. 2. The system of claim 1 , further comprising a thermal management system configured to manage a temperature of the gas within the system, wherein the thermal management system is configured to maintain a temperature of the gas within the system above a predefined threshold temperature; wherein the gas includes a mixture of substances comprising one or more condensable substances; wherein the predefined threshold temperatures is above a temperature at which the one or more condensable substances condense. 3. The system of claim 2 , wherein: the thermal management system comprises one or more devices selected from the group of devices consisting of temperature sensors, pressure sensors, heaters, and coolers; and each of the devices is operatively coupled to one of the functional modules or one of the gas connection lines. 4. The system of claim 2 , wherein: the thermal management system is within a third module of the plurality of functional modules; the third module is positioned adjacent to the first module and/or the second module in the first system dimension; and the third module has a maximum size in the first system dimension that is also a respective integer multiple of the common fixed system value. 5. The system of claim 1 , wherein: the first module has a maximum size in the first system dimension that is the first integer multiple of the common fixed system value; and the second module has a maximum size in the first system dimension that is the second integer multiple of the common fixed system value, the second integer being the same as the first integer. 6. The system of claim 1 , wherein the first module has a maximum size in the first system dimension that is the first integer multiple of the common fixed system value; and the second module has a maximum size in the first system dimension that is the second integer multiple of the common fixed system value, the second integer being different to the first integer. 7. The system of claim 6 , wherein the first integer and the second integer are integers in the range 2 to 20. 8. The system of claim 1 , wherein a length of each of the gas connection lines is also a respective integer multiple of the common fixed system value. 9. The system of claim 1 , wherein each of the first and second modules comprise: a gas connection line input for receiving the gas into that module; a gas connection line output for exhausting the gas from that module; a facilities connection line input for receiving facilities conveyed from a source of facilities; and a frame for locating the vacuum pumping apparatus or the abatement apparatus of that module and the connection line input and output of that module in position in that module. 10. The system of claim 1 , wherein the common fixed system value is a value in the range 10 mm-5 cm. 11. The system according to claim 1 , wherein: the plurality of functional modules further comprises at least one further module; each of the at least one further modules is positioned adjacent to the first module and/or the second module in the first system dimension; each of the at least one further modules has a maximum size in the first system dimension that is a respective integer multiple of the common fixed system value; each of the at least one further modules is operatively coupled to the first module and/or the second module; each of the at least one further modules comprises apparatus selected from the group of apparatuses consisting of a vacuum pumping apparatus for pumping the gas from the entity, an abatement apparatus for abating the gas pumped from the entity, a facilities apparatus for receiving a second fluid and/or electrical power from a facilities supply and supplying that received second fluid and/or electrical power to another module, and a control apparatus for controlling operation of another module. 12. The system of claim 1 , further comprising one or more connection lines configured to connect together the plurality of functional modules, wherein a length of each of the connection lines is a respective integer multiple of the common fixed system value, wherein the one or more connection lines are connection lines selected from the group of connection lines consisting of: a pipe for conveying a flow of fluid therethrough, a housing for an electrical conductor or optical fibre, an electrical conductor for electrical power or an electrical signal, and an optical fibre. 13. The system of claim 1 , wherein sizes of each of the functional modules in a second system dimension are substantially equal to each other, the second system dimension being perpendicular to the first system dimension. 14. The system of claim 13 , wherein sizes of each of the functional modules in a third system dimension are substantially equal to each other, the third system dimension being perpendicular to the first and second system dimensions. 15. The system of claim 13 , wherein each of the functional modules has a maximum size in a third system dimension that is a respective integer multiple of the common fixed system value, the third system dimension being perpendicular to the first and second system dimensions. 16. The system of claim 1 , wherein each of the functional modules has a maximum size in a second system dimension that is a respective integer multiple of the common fixed system value, the second system dimension being perpendicular to the first system dimension. 17. A method for evacuating and abating a gas from an entity, the method comprising: providing a first module, the first module comprising a vacuum pumping apparatus; providing a second module, the second module comprising an abatement apparatus; positioning the first module adjacent to the second module in a first system dimension, the first and second modules each having a maximum size in the first system dimension that is a first respective integer multiple of a common fixed system value; fluidly connecting the first module to the second module by at least one gas connection line, each gas connection line comprising one or more sections, each of the sections having a size that is a second respective integer multiple of the common fixed system value; pumping, by the vacuum pumping apparatus, gas from the entity to the abatement apparatus; and abating, by the abatement apparatus, gas received from the vacuum pump