System and method for testing multi-user, multi-input/multi-output communication systems

The invention claimed is: 1. A method of testing a device under test, the method comprising: generating a plurality of independent signals; applying first fading channel characteristics to the independent signals to generate a plurality of first faded test signals; providing the plurality of first faded test signals to one or more signal input interfaces of the device under test (DUT); applying second fading channel characteristics to a plurality of output signals of the DUT to generate a plurality of second faded test signals, wherein the second fading channel characteristics are derived from the first fading channel characteristics; and measuring with one or more test instruments at least one performance characteristic of the DUT from the plurality of second faded test signals. 2. The method of claim 1 , wherein measuring at least one performance characteristic includes measuring a signal-to-interference-and-noise ratio (SINR) of a plurality of channels of the DUT. 3. The method of claim 2 , further comprising: varying at least one of the first fading channel characteristics and the second fading channel characteristics; and measuring the SINR of the plurality of channels of the DUT with the varied at least one of the first fading channel characteristics and the second fading channel characteristics. 4. The method of claim 1 , wherein providing the plurality of first faded test signals to one or more signal input interfaces of the DUT comprises providing the plurality of first faded test signals to one or more signal input interfaces of the DUT via an optical baseband input of the DUT. 5. The method of claim 1 , further comprising providing one or more baseband output signals of the DUT to one of the test instruments, and measuring at least one performance characteristic of a baseband processing module of the DUT in response to the plurality of first faded test signals. 6. The method of claim 1 , wherein applying the first fading channel characteristics to each of the independent signals to generate the plurality of first faded test signals, comprises: applying the first fading channel characteristics to each of the independent signals to generate a plurality of faded baseband uplink signals; and applying the plurality of faded baseband uplink signals to one or more RF signal generators to generate the plurality of first faded test signals as RF signals. 7. The method of claim 6 , wherein applying the plurality of faded baseband uplink signals to one or more RF signal generators to generate the plurality of first faded test signals comprises providing each of the independent signals to a corresponding one of the RF signal generators, wherein each RF signal generator generates a corresponding one of the first faded test signals as a corresponding RF signal. 8. The method of claim 7 , wherein the DUT includes a multiple-input, multiple output (MIMO) transceiver, and wherein providing the plurality of first faded test signals to one or more signal input interfaces of the DUT comprises providing the plurality of first faded test signals to a plurality of RF inputs of the MIMO transceiver. 9. The method of claim 6 , wherein the one or more test instruments includes one or more RF test instruments, the method further comprising providing one or more RF output signals of the DUT as one or more input signals to the one or more RF test instruments, and wherein measuring at least one performance characteristic of the DUT from the plurality of second faded test signals includes measuring at least one performance characteristic of an RF processing module of the DUT with the one or more RF test instruments. 10. The method of claim 6 , wherein the one or more test instruments includes one or more RF test instruments, the method further comprising: providing one or more RF output signals of the DUT to the one or more RF test instruments; and measuring the at least one performance characteristic of the DUT using the one or more RF test instruments. 11. A test system for testing a device under test, the test system comprising: one or more signal processors configured to generate a plurality of independent signals and to apply first fading channel characteristics to each of the independent signals to generate a plurality of first faded test signals; at least one test system interface configured to provide the plurality of first faded test signals to one or more signal input interfaces of the device under test (DUT); and one or more test instruments, wherein the one or more signal processors are configured to apply second fading channel characteristics to a plurality of output signals of the DUT to generate a plurality of second faded test signals, wherein the one or more signal processors are configured to derive the second fading channel characteristics from the first fading channel characteristics, and wherein the one or more test instruments are configured to measure at least one performance characteristic of the DUT from the plurality of second faded test signals. 12. The test system of claim 11 , wherein the one or more test instruments are configured to measure a signal-to-interference-and-noise ratio (SINR) of a plurality of channels of the DUT. 13. The test system of claim 12 , wherein the one or more signal processors includes a first signal processor comprising memory and a digital processor configured to execute instructions stored in the memory to cause the digital processor to generate the plurality of first faded test signals. 14. The test system of claim 13 , wherein the digital processor is further configured to vary the first fading channel characteristics, wherein the one or more test instruments are further configured to measure the SINR of the plurality of channels of the DUT with the varied first fading channel characteristics. 15. The test system of claim 11 , wherein the one or more output signals generated by the DUT include one or more baseband output signals, and the one or more test instruments include one of more baseband test instruments configured to receive the one or more baseband output signals, and to measure at least one performance characteristic of the DUT from the one or more baseband output signals. 16. The test system of claim 11 , further comprising one or more RF signal generators, wherein the one or more signal processors is configured to apply the first fading channel characteristics to each of the independent signals to generate a plurality of faded baseband uplink signals, and wherein each of the one or more RF signal generators is configured to receive one or more of the plurality of faded baseband uplink signals and to generate therefrom the plurality of first faded test signals as RF signals. 17. The test system of claim 16 , further comprising one or more RF signal generators, wherein the one or more signal processors includes a first signal processor configured to apply the first fading channel characteristics to each of the independent signals to generate a plurality of faded baseband uplink signals, and wherein each of the RF signal generators is configured to receive one of the plurality of faded baseband uplink signals and to generate therefrom a corresponding one of the first faded test signals as a corresponding RF signal. 18. The test system of claim 17 , wherein the DUT includes a multiple-input, multiple output (MIMO) transceiver, and wherein the RF signal generators are configured to provide the plurality of first faded test signals to a plurality of RF inputs of the MIMO transceiver.