Implantable pulse generator that generates spinal cord stimulation signals for a human body

What is claimed is: 1. An implantable pulse generator (IPG) that generates spinal cord stimulation signals for a human body, comprising: a programmable signal generator having a plurality of control registers for storing stimulation signal parameters and adapted to generate the stimulation signals based on the stored signal parameters; a processor having a memory; and a treatment control module stored in the memory and executable by the processor, the treatment control module adapted to transmit the stimulation signal parameters to the programmable signal generator for storage in the plurality of registers and to place the processor in a standby mode, wherein the programmable signal generator generates the stimulation signals to drive a plurality of electrodes according to the stored signal parameters independently from the processor while the processor is in the standby mode. 2. The IPG of claim 1 , further comprising a transceiver module controlled by the processor and adapted to wirelessly communicate with a remote control, the treatment control module receiving commands from the remote control through the transceiver module. 3. The IPG of claim 2 , wherein the transceiver is adapted to send an interrupt signal to the processor to wake up the processor from the standby mode. 4. The IPG of claim 1 , wherein when the processor is placed in the standby mode, a master clock of the processor is disabled. 5. The IPG of claim 1 , wherein the signal generator is adapted to concurrently generate stimulation signal patterns for a plurality of programmable channels with each channel capable of being associated with at least two electrodes among the plurality of electrodes and with each channel representing a stimulation pattern of the associated electrodes. 6. The IPG of claim 5 , wherein for each channel, the signal generator stores in the registers as signal parameters: a channel length; and a rising edge time of a pulse in the stimulation pattern associated with each channel. 7. The IPG of claim 6 , wherein the stored signal parameters further include: a channel rising edge time; and a falling edge time of the pulse. 8. The IPG of claim 5 , wherein for each channel, the control registers store which of the electrodes are associated with each channel such that an electrode among the plurality of electrodes can be associated with two or more channels. 9. The IPG of claim 1 , wherein the programmable signal generator includes: a timing generator adapted to generate timing signals representing the stimulation signals according to the stored signal parameters; an arbitrator that continuously receives the generated timing signals and selects one channel among the plurality of channels as an active treatment channel. 10. The IPG of claim 1 , wherein the programmable signal generator includes: a timing generator adapted to generate timing signals representing the stimulation signals according to the stored signal parameters; a high frequency generator adapted to determine whether to modulate the timing signals received from the timing generator and modulate the received timing signals at a burst frequency according to burst parameters stored in the registers.