Pumped thermal and energy storage system units with pumped thermal system and energy storage system subunits

What is claimed is: 1. A method comprising: providing a composite pumped thermal system configured for continuous ramping between power output and power input, wherein the composite pumped thermal system comprises a plurality of pumped thermals systems, wherein each pumped thermal system is configured for switching between at least a thermal storage mode and a power generation mode, wherein at least one pumped thermal system of the plurality of pumped thermal systems comprises a closed cycle fluid path configured to circulate a working fluid through, in sequence and in the same direction, a compressor, a hot side heat exchanger, a turbine, and a cold side heat exchanger of the pumped thermal system when the pumped thermal system operates in the thermal storage mode and when the pumped thermal system operates in the power generation mode; operating the composite pumped thermal system in power output mode with a power output level at an intermediate power output level greater than 0% and less than 100% of a maximum power output level of the composite pumped thermal system; reducing the power output level to 0% of the maximum power output level by reducing a respective power output of a first pumped thermal system of the plurality, wherein the first pumped thermal system is operating in a power generation mode; and at 0% of the maximum power output level of the composite pumped thermal system, wherein a power input level of the composite pumped thermal system is also at 0% of a maximum power input level of the composite pumped thermal system, increasing the power input level of the composite pumped thermal system to an intermediate power input level greater than 0% and less than 100% of the maximum power input level by increasing a respective power input of a second pumped thermal system of the plurality, wherein the second pumped thermal system is operating in the thermal storage mode, and wherein the first pumped thermal system is not operating in the thermal storage mode. 2. The method of claim 1 further comprising: operating the composite pumped thermal system in power output mode at 100% of the maximum power output level; and reducing the power output level to the intermediate power output level by reducing a respective power output of at least a third pumped thermal system of the plurality operating in a power generation mode. 3. The method of claim 2 further comprising: transitioning at least the third pumped thermal system of the plurality to operate in a pumped thermal storage mode; increasing the power input level from the intermediate power input level to 100% of the maximum power input level by increasing a respective power input of at least the third pumped thermal system of the plurality operating in a thermal storage mode. 4. The method of claim 2 further comprising: increasing the power input level from the intermediate power input level to 100% of the maximum power input level by increasing a respective power input of at least a fourth pumped thermal system of the plurality operating in a thermal storage mode. 5. The method of claim 1 , wherein each pumped thermal system of the plurality has a respective maximum power input level less than 100% of the maximum power input level of the composite pumped thermal system. 6. The method of claim 1 , wherein each pumped thermal system of the plurality has a respective maximum power output level less than 100% of the maximum power output level of the composite pumped thermal system. 7. The method of claim 1 , wherein each pumped thermal system of the plurality can be continuously ramped between a respective maximum power input of each pumped thermal system and 50% of the respective maximum power input of each pumped thermal system. 8. The method of claim 1 , wherein each pumped thermal system of the plurality can be continuously ramped between a respective maximum power output of each pumped thermal system and 50% of the respective maximum power output of each pumped thermal system.