Inertial water column wave energy converter

We claim: 1. A wave-to-electricity energy converter, comprising: a buoyant flotation module adapted to float on a surface of a body of water, the buoyant flotation module comprising a deck, a hull, a ballast compartment, and a central vertical channel; a columnar body disposed within the central vertical channel and extending therebelow, the columnar body defining a water chamber comprising a water inlet and an air exit; a turbine disposed at the air exit; a plurality of computational modules installed at the flotation module, the plurality of computational modules powered by rotation of the turbine; and a valve fluidly connecting the columnar body and the ballast compartment. 2. The reciprocating wave-to-electricity energy converter of claim 1 , wherein the buoyant flotation module has a semi-spherical hull. 3. The reciprocating wave-to-energy converter of claim 1 , wherein the turbine is connected to a generator above the deck of the buoyant flotation module. 4. The reciprocating wave-to-energy converter of claim 1 , wherein the plurality of computational modules are disposed below the deck of the buoyant flotation module. 5. The reciprocating wave-to-energy converter of claim 1 , wherein the plurality of computational modules are disposed on the deck of the buoyant flotation module. 6. The reciprocating wave-to-electricity energy converter of claim 1 , further comprising an air valve at an upper end of the water chamber for regulating an air flow entering the water chamber. 7. The reciprocating wave-to-electricity energy converter of claim 6 , wherein the air valve is a one way valve. 8. The reciprocating wave-to-electricity energy converter of claim 1 , further comprising a valve at an upper end of the water chamber for regulating an air flow exiting the water chamber. 9. The reciprocating wave-to-electricity energy converter of claim 1 , further comprising a water jacket around the columnar body. 10. The reciprocating wave-to-electricity energy converter of claim 1 , further comprising a deflector that redirects air moving in the columnar body to propel the wave-to-electricity energy converter. 11. The reciprocating wave-to-electricity energy converter of claim 1 , wherein the columnar body is flexible. 12. The reciprocating wave-to-electricity energy converter of claim 1 , wherein the plurality of computational modules are cooled by transferring heat to the body of water. 13. The reciprocating wave-to-electricity energy converter of claim 1 , further comprising a sail on the deck. 14. The reciprocating wave-to-electricity energy converter of claim 1 , further comprising a plurality of turbines disposed at the air exit. 15. The reciprocating wave-to-electricity energy converter of claim 1 , further including bulkheads for dividing the internal ballast cavity into a plurality of sub-compartments. 16. A reciprocating wave-to-electricity energy converter, comprising: a flotation module adapted to float on a surface of a body of water; a plurality of columnar bodies extending through and below the flotation structure, the plurality of columnar bodies each including a partially-filled water chamber having an open bottom end below the surface of the body of water and an upper end above the surface of the body of water; a turbine disposed at the flotation structure and driven by air flow produced by water movement within at least one of the water chambers; and wherein at least one columnar body uses air moving thereinthrough to propel the reciprocating wave-to-energy converter. 17. A reciprocating wave-driven fluid pump, comprising: a hollow flotation structure defining an internal ballast cavity, the hollow flotation structure confining within the internal ballast cavity a water ballast having a first free surface area; a columnar body extending below the hollow flotation structure, the columnar body defining a water chamber having a water inlet at an open lower end and circumscribing a water column within the water chamber having a second free surface area lesser than the first free surface area; a turbine disposed at an upper end of the water chamber, the turbine driven by air moved by oscillations of the water column within the water chamber; and a generator coupled to the turbine for converting turbine rotation to electricity. 18. The reciprocating wave-driven fluid pump of claim 17 , wherein the first free surface area is an air-water interface surface area. 19. The reciprocating wave-driven fluid pump of claim 17 , wherein the internal ballast cavity confines water and air at higher than atmospheric pressure. 20. The reciprocating wave-driven fluid pump of claim 17 , wherein the wave-driven fluid pump is configured to pressurize the internal ballast cavity when the water column oscillates in the water chamber. 21. The reciprocating wave-driven fluid pump of claim 17 , wherein a lower part of the internal ballast cavity defines an annulus around a portion of the water chamber. 22. The reciprocating wave-driven fluid pump of claim 17 , wherein a mass of the water ballast exceeds an unballasted mass of the reciprocating wave-driven fluid pump. 23. The reciprocating wave-driven fluid pump of claim 17 , wherein a mass of the water ballast is greater than a combined mass of solid portions of the reciprocating wave-driven fluid pump. 24. The reciprocating wave-driven fluid pump of claim 17 , wherein a product of a volume of the internal ballast cavity and a density of seawater is greater than a dry mass of the reciprocating wave-driven fluid pump. 25. The reciprocating wave-driven fluid pump of claim 17 , wherein the reciprocating wave-driven fluid pump is adapted to alter a volume of water ballast confined within the internal ballast cavity. 26. The reciprocating wave-driven fluid pump of claim 17 , further comprising a ballast control system, wherein the ballast control system alters a volume of water ballast to alter a draft of the reciprocating wave-driven fluid pump in response to changes of energy of ambient waves. 27. The reciprocating wave-driven fluid pump of claim 17 , further comprising bulkheads for dividing the internal ballast cavity into a plurality of sub-cavities. 28. The reciprocating wave-driven fluid pump of claim 17 , further comprising a propulsor to generate thrust for propelling the reciprocating wave-driven fluid pump. 29. The reciprocating wave-driven fluid pump of claim 28 , wherein the propulsor includes one of a rigid sail, an electrically-powered propeller, a rudder, and a ducted fan. 30. The reciprocating wave-driven fluid pump of claim 28 , wherein the propulsor includes a nozzle to emit jets of air pressurized within the water chamber. 31. The reciprocating wave-driven fluid pump of claim 17 , wherein electricity produced by the generator is consumed at the reciprocating wave-driven fluid pump. 32. The reciprocating wave-driven fluid pump of claim 31 , further comprising a plurality of computational modules installed at one of the flotation module and the columnar body, the plurality of computational modules powered by electricity produced by the generator. 33. The reciprocating wave-driven fluid pump of claim 32 , further comprising a data exchange module to receive electromagnetically-encoded computational tasks and