Memory based electronically scanned array antenna control

What is claimed is: 1. A system for controlling an active electronically scanned array (AESA) antenna comprising: a plurality of radiators; a first plurality of digitally controlled radio frequency (RF) signal transmission blocks; a second plurality of digitally controlled RF signal transmission blocks; and a plurality of combiners, each radiator of the plurality of radiators being connected, through a combiner: to a digitally controlled RF signal transmission block of the first plurality of digitally controlled RF signal transmission blocks, and to a digitally controlled RF signal transmission block of the second plurality of digitally controlled RF signal transmission blocks, the system comprising: at least one memory with address lines configured to input the address of a digital control word and data lines configured to output the digital control word to a digitally controlled RF signal transmission block of the first plurality of digitally controlled RF signal transmission blocks; and the at least one memory programmed with a set of digital control words comprising at least one digital control word for substantially every antenna state in a complete set of antenna states, each RF transmission block of the first plurality of digitally controlled RF signal transmission blocks, and each RE transmission block of the second plurality of digitally controlled RF signal transmission blocks comprising: a signal direction switch; a gain and phase control block; and a load switch. 2. The system of claim 1 , wherein the at least one memory is nonvolatile random access memory (NVRAM). 3. The system of claim 2 , wherein the value of at least one digital control word of the set of digital control words is calculated and programmed into the memory prior to assembly of the system. 4. The system of claim 2 , wherein the set of digital control words comprises at least one encrypted digital control word, the system further comprising control logic connected to the at least one memory and to a digitally controlled RF signal transmission block of the plurality of digitally controlled RF signal transmission blocks, the control logic configured to decrypt the encrypted digital control word and to provide the decrypted digital control word to the digitally controlled RF signal transmission block. 5. The system of claim 4 , wherein the control logic is configured to perform an exclusive OR of the at least one encrypted digital control word and a decryption key segment, the decryption key segment being stored in volatile memory. 6. The system of claim 1 , further comprising a data bus for programming the at least one memory after assembly. 7. The system of claim 6 , wherein the set of digital control words comprises at least one encrypted digital control word, the system further comprising control logic connected to the at least one memory and to a digitally controlled RF signal transmission block of the plurality of digitally controlled RF signal transmission blocks, the control logic configured to decrypt the encrypted digital control word employing a decryption key and to provide the decrypted digital control word to the digitally controlled RF signal transmission block. 8. The system of claim 7 , wherein the at least one memory is non-volatile random access memory (NVRAM), and at least one decryption key segment is stored in volatile memory in a memory location mapped to an address not used by the NVRAM. 9. A method of controlling an active electronically scanned array (AESA) antenna, the antenna comprising: a plurality of radiators; a first plurality of digitally controlled radio frequency (RF) signal transmission blocks; a second plurality of digitally controlled RF signal transmission blocks; and a plurality of combiners, each radiator of the plurality of radiators being connected, through a combiner: to a digitally controlled RF signal transmission block of the first plurality of digitally controlled RF signal transmission blocks, and to a digitally controlled RF signal transmission block of the second plurality of digitally controlled RF signal transmission blocks, each RF transmission block of the first plurality of digitally controlled RF signal transmission blocks, and each RF transmission block of the second plurality of digitally controlled RF signal transmission blocks comprising: a signal direction switch; a gain and phase control block; and a load switch, the method comprising: calculating a set of digital control words corresponding to a set of antenna states, the set of digital control words comprising at least one digital control word for substantially every antenna state in a complete set of antenna states, programming the set of digital control words into a memory, outputting the at least one digital control word from the memory to at least one digitally controlled RF signal transmission block of the first plurality of digitally controlled RF signal transmission blocks, and transmitting or receiving an RF signal with the antenna, using the at least one digitally controlled RF signal transmission block. 10. The method of claim 9 , further comprising the step of encrypting at least one of the digital control words prior to programming the memory with it.