Multi-input amplifier with programmable embedded attenuators

What is claimed is: 1. A variable-gain signal amplifier comprising: a first attenuation stage having a plurality of branches, each branch including a switch circuit and a variable-attenuation element that are configured so that the switch circuit provides a path that bypasses the variable-attenuation element in a first state, provides a path that passes through the variable-attenuation element in a second state, and eliminates any signal path through the branch in a third state, the first attenuation stage having a common output and an input for each branch; an amplification stage coupled to the common output of the first attenuation stage to provide a multiplexed output; and a second attenuation stage configured to receive the multiplexed output of the amplification stage to provide an amplified output signal to maintain various desired characteristics across a range of gain levels. 2. The amplifier of claim 1 wherein the signal includes a radio frequency signal. 3. The amplifier of claim 1 wherein the first attenuation stage is configured to provide a bypass path so that a signal received at an input is directed to the common output without being attenuated by the variable-attenuation element. 4. The amplifier of claim 3 wherein the first attenuation stage is configured to provide the bypass path in a high gain mode. 5. The amplifier of claim 4 wherein, in the high gain mode, a noise factor of a signal is not increased due at least in part to bypassing the variable-attenuation element. 6. The amplifier of claim 4 wherein, in other gain modes, IIP3 of the signal is increased due at least in part to tailored attenuation provided by the variable-attenuation element. 7. The amplifier of claim 1 wherein the amplifier is configured to receive signals at respective inputs that cover a plurality of cellular frequency bands. 8. The amplifier of claim 1 wherein the amplifier is configured to attenuate or amplify a signal received at a particular input independent of attenuation or amplification of other signals received at other inputs. 9. The amplifier of claim 1 further comprising a control circuit configured to send control signals to the first attenuation stage, the amplification stage, or the second attenuation stage. 10. The amplifier of claim 9 wherein the control circuit includes a controller configured to provide an amplification control signal in a high gain mode that causes the first attenuation stage to provide a path that bypasses the variable-attenuation element. 11. The amplifier of claim 1 wherein the first attenuation stage is configured to selectively direct targeted signals to the amplification stage. 12. The amplifier of claim 1 further comprising a splitter having an input port coupled to the second attenuation stage to receive the amplified output signal and a plurality of output ports. 13. The amplifier of claim 12 wherein the splitter is configured to direct the amplified output signal to a targeted output port corresponding to a particular input branch of the first attenuation stage. 14. A front end architecture comprising: a variable gain signal amplifier including a first attenuation stage having a plurality of branches, each branch including a switch circuit and a variable-attenuation element that are configured so that the switch circuit provides a path that bypasses the variable-attenuation element in a first state, provides a path that passes through the variable-attenuation element in a second state, and eliminates any signal path through the branch in a third state, the first attenuation stage having a common output and an input for each branch; an amplification stage coupled to the common output of the first attenuation stage to provide a multiplexed output; and a second attenuation stage configured to receive the multiplexed output of the amplification stage to provide an amplified output signal to maintain various desired characteristics across a range of gain levels; a filter assembly coupled to the variable gain signal amplifier to direct frequency bands to select inputs of the variable gain signal amplifier; and a controller implemented to control the variable gain signal amplifier to provide a plurality of gain modes such that, in a high gain mode, the variable gain signal amplifier directs signals along a path that bypasses the variable-attenuation element in a particular branch by controlling the switch circuit in the particular branch to be in the first state. 15. The front end architecture of claim 14 wherein, in the high gain mode, a noise factor of a signal is not increased due at least in part to bypassing the variable-attenuation element. 16. The front end architecture of claim 15 wherein, in other gain modes, IIP3 of the signal is increased due at least in part to tailored attenuation provided by the variable-attenuation element. 17. The front end architecture of claim 14 wherein, for individual branches of the plurality of branches, the first attenuation stage is configured to provide an attenuation path that passes through the variable-attenuation element and a bypass path that does not pass through the variable-attenuation element. 18. A wireless device comprising: a diversity antenna; a filter assembly coupled to the diversity antenna to receive signals and to direct frequency bands along select paths; a variable gain signal amplifier coupled to the filter assembly to receive signals from select paths, the variable gain signal amplifier including a first attenuation stage having a plurality of branches, each branch including a switch circuit and a variable-attenuation element that are configured so that the switch circuit provides a path that bypasses the variable-attenuation element in a first state, provides a path that passes through the variable-attenuation element in a second state, and eliminates any signal path through the branch in a third state, the first attenuation stage having a common output and an input for each branch; an amplification stage coupled to the common output of the first attenuation stage to provide a multiplexed output; and a second attenuation stage configured to receive the multiplexed output of the amplification stage to provide an amplified output signal to maintain various desired characteristics across a range of gain levels; and a controller implemented to control the variable gain signal amplifier to provide a plurality of gain modes such that, in a high gain mode, the variable gain signal amplifier directs signals along a path that bypasses the variable-attenuation element in a particular branch by controlling the switch circuit in the particular branch to be in the first state. 19. The device of claim 18 wherein, in the high gain mode, a noise factor of a signal is not increased due at least in part to bypassing the variable-attenuation element. 20. The device of claim 19 wherein, in other gain modes, IIP3 of the signal is increased due at least in part to tailored attenuation provided by the variable-attenuation element.